Lipid Essentials Literature - Highlights - 2023

This list was created by means of a weekly literature search with a highly subjective scan to select those papers that appeared helpful to me for updating the Lipid Essentials or Blog pages on this site. They are mainly review articles dealing with the chemistry, occurrence and biochemistry of lipids, and the nutritional/clinical literature is under-represented here. Please note that I may only select references from journals to which I have direct access, or will have access after a period specified by the journal (usually 6 to 24 months). Some papers in press may be listed here without the full citation, but the DOI address should still be valid, and they may be updated later. References are listed alphabetically by the first author.

New references are added at approximately monthly intervals by merging with the existing references. The most recent references of all will be found in the web page - "this month's references".

Acharya, R., Shetty, S.S. and Kumari, N.S. Fatty acid transport proteins (FATPs) in cancer. Chem. Phys. Lipids, 250, 105269 (2023); DOI.
Aguilera-Romero, A., Lucena, R., Sabido-Bozo, S. and Muniz, M. Impact of sphingolipids on protein membrane trafficking. Biochim. Biophys. Acta, Lipids, 1868, 159334 (2023); DOI.
Ali, O. and Szabó, A. Review of eukaryote cellular membrane lipid composition, with special attention to the fatty acids. Int. J. Mol. Sci., 24, 15693 (2023); DOI.
Ali-Berrada, S., Guitton, J., Tan-Chen, S., Gyulkhandanyan, A., Hajduch, E. and Le Stunff, H. Circulating sphingolipids and glucose homeostasis: an update. Int. J. Mol. Sci., 24, 12720 (2023); DOI.
Alizadeh, J. and others. Ceramides and ceramide synthases in cancer: Focus on apoptosis and autophagy. Eur. J. Cell Biol., 102, 151337 (2023); DOI.
Allende, M.L. and others. Sialidase NEU3 action on GM1 ganglioside is neuroprotective in GM1 gangliosidosis. J. Lipid Res., 64, 100463 (2023); DOI.
An, L., Fu, X.Q., Chen, J. and Ma, J.F. Application of Caenorhabditis elegans in lipid metabolism research. Int. J. Mol. Sci., 24, 1173 (2023); DOI.
Angala, S.K. and others. Acylation of glycerolipids in mycobacteria. Nat. Commun., 14, 6694 (2023); DOI.
Anita, N.Z. and others. Cytochrome P450-soluble epoxide hydrolase derived linoleic acid oxylipins and cognitive performance in type 2 diabetes. J. Lipid Res., 64, 100395 (2023); DOI.
Anwar, M.U. and van der Goot, F.G. Refining S-acylation: Structure, regulation, dynamics, and therapeutic implications. J. Cell. Biol., 222, e202307103 (2023); DOI.
Arabiotorre, A., Bankaitis, V.A. and Grabon, A. Regulation of phosphoinositide metabolism in Apicomplexan parasites. Front. Cell Developm. Biol., 11, 1163574 (2023); DOI.
Astudillo, A.M., Balboa, M.A. and Balsinde, J. Compartmentalized regulation of lipid signaling in oxidative stress and inflammation: Plasmalogens, oxidized lipids and ferroptosis as new paradigms of bioactive lipid research. Prog. Lipid Res., 89, 101207 (2023); DOI.
Augimeri, G. and Bonofiglio, D. Promising effects of N-docosahexaenoyl ethanolamine in breast cancer: molecular and cellular insights. Molecules, 28, 3694 (2023); DOI.
Babiy, B. and others. Dihydrosphingolipids are associated with steatosis and increased fibrosis damage in non-alcoholic fatty liver disease. Biochim. Biophys. Acta, Lipids, 1868, 159318 (2023); DOI.
Bago, A., Cayuela, ML., Gil, A., Calvo, E., Vázquez, J., Queiro, A., Schopfer, F.J., Radi, R., Serrador, J.M. and Iñiguez, M.A. Nitro-oleic acid regulates T cell activation through post-translational modification of calcineurin. Proc. Natl. Acad. Sci. USA, 120, e2208924120 (2023); DOI.
Bai, X.Y., Ya, R., Tang, X.Y. and Cai, M.W. Role and interaction of bacterial sphingolipids in human health. Front. Microbiol., 14, 1289819 (2023); DOI.
Balatskyi, V.V. and Dobrzyn, P. Role of stearoyl-CoA desaturase 1 in cardiovascular physiology. Int. J. Mol. Sci., 24, 5531 (2023); DOI.
Barkas, F., Bathrellou, E., Nomikos, T., Panagiotakos, D., Liberopoulos, E. and Kontogianni, M.D. Plant sterols and plant stanols in cholesterol management and cardiovascular prevention. Nutrients, 15, 2845 (2023); DOI.
Bauer, R., Bruene, B. and Schmid, T Cholesterol metabolism in the regulation of inflammatory responses. Front. Pharm., 14, 1121819 (2023); DOI.
Bawa, F.N.C. and Zhang, Y.Q. Retinoic acid signaling in fatty liver disease. Liver Res., 7, 189-195 (2023); DOI.
Beccacece, L., Abondio, P., Bini, C., Pelotti, S. and Luiselli, D. The link between prostanoids and cardiovascular diseases. Int. J. Mol. Sci., 24, 4193 (2023); DOI.
Berg, A.L. and others. Cellular transformation promotes the incorporation of docosahexaenoic acid into the endolysosome-specific lipid bis(monoacylglycerol)phosphate in breast cancer. Cancer Letts, 557, 216090 (2023); DOI.
Bergstrom, J.D. The lipogenic enzyme acetoacetyl-CoA synthetase and ketone body utilization for denovo lipid synthesis, a review. J. Lipid Res., 64, 100407 (2023); DOI.
Beyer, M.P., Videla, L.A., Farias, C. and Valenzuela, R. Potential clinical applications of pro-resolving lipids mediators from docosahexaenoic acid. Nutrients, 15, 3317 (2023); DOI.
Bigi, M.M., Forrellad, M.A., García, J.S., Blanco, F.C., Vázquez, C.L. and Bigi, F. An update on Mycobacterium tuberculosis lipoproteins. Fut. Microbiol., 18, 1381-1398 (2023); DOI.
Bhowmick, S., Biswas, T., Ahmed, M., Roy, D. and Mondal, S. Caveolin-1 and lipids: Association and their dualism in oncogenic regulation. Biochim. Biophys. Acta, Rev. Cancer, 1878, 189002 (2023); DOI.
Blondin, D.P. Human thermogenic adipose tissue. Curr. Opinion Genetics Develop., 80, 102054 (2023); DOI.
Bohn, T., Balbuena, E., Ulus, H., Iddir, M., Wang, G.A., Crook, N. and Eroglu, A. Carotenoids in health as studied by omics-related endpoints. Adv. Nutr., 14, 1538-1578 (2023); DOI.
Borgonovi, S.M., Iametti, S. and Di Nunzio, M. Docosahexaenoic acid as master regulator of cellular antioxidant defenses: a systematic review. Antioxidants, 12, 1283 (2023); DOI.
Boubertakh, B., Courtemanche, O., Marsolais, D., Di Marzo, V. and Silvestri, C. New role for the anandamide metabolite prostaglandin F2? ethanolamide: Rolling preadipocyte proliferation. J. Lipid Res., 64, 100444 (2023); DOI.
Bouchnak, I., Coulon, D., Salis, V., D'Andrea, S. and Brehelin, C. Lipid droplets are versatile organelles involved in plant development and plant response to environmental changes. Front. Plant Sci., 14, 1193905 (2023); DOI.
Bouwstra, J.A., Nadaban, A., Bras, W., McCabe, C., Bung, A. and Gooris, G.S. The skin barrier: An extraordinary interface with an exceptional lipid organization. Prog. Lipid Res., 92, 101252 (2023); DOI.
Brash, A.R., Noguchi, N., Boeglin, W.E., Stec, D.F., Schneider, C. and Meyer, J.M. Two C18 hydroxy-cyclohexenone fatty acids from mammalian epidermis: Potential relation to 12R-lipoxygenase and covalent binding of ceramides. J. Biol. Chem., 299, 104739 (2023); DOI.
Brown, E.M., Clardy, J. and Xavier, R.J. Gut microbiome lipid metabolism and its impact on host physiology. Cell Host Microbe 31, 173-186 (2023); DOI.
Bu, M.J., Fan, W., Li, R.A., He, B., Cui, P. and Eisenreich, W. Lipid metabolism and improvement in oilseed crops: recent advances in multi-omics studies. Metabolites, 13, 1170 (2023); DOI.
Bura, A., Cabrijan, S., Duric, I., Bruketa, T. and Begonja, A.J. A plethora of functions condensed into tiny phospholipids: the story of PI4P and PI(4,5)P-2. Cells, 12, 1411 (2023); DOI.
Burke, J.E., Triscott, J., Emerling, B.M. and Hammond, G.R.V. Beyond PI3Ks: targeting phosphoinositide kinases in disease. Nature Rev. Drug Discovery, 22, 357-386 (2023); DOI.
Buszka, A., Pytys, A., Colvin, D., Wlodarczyk, J. and Wojtowicz, T. S-Palmitoylation of synaptic proteins in neuronal plasticity in normal and pathological brains. Cells, 12, 387 (2023); DOI.
Buyachuihan, L., Stegemann, F. and Grininger, M. How acyl carrier proteins (ACPs) direct fatty acid and polyketide biosynthesis. Angew. Chem.-Int. Ed., e202312476 (2023); DOI.
Calzada, C., Vors, C., Penhoat, A., Cheillan, D. and Michalski, M.C. Role of circulating sphingolipids in lipid metabolism: Why dietary lipids matter. Front. Nutr., 9, 1108098 (2023); DOI.
Camargo-Escalante, M.O., Balcázar-López, E., Mendez, E.M.A., Winkler, R. and Herrera-Estrella, A. LOX1-and PLP1-dependent transcriptional reprogramming is essential for injury-induced conidiophore development in a filamentous fungus. Microbiol. Spectrum, 11, e0260723 (2023); DOI.
Cameron, G., Nguyen, T., Ciula, M., Williams, S.J. and Godfrey, D.I. Glycolipids from the gut symbiont Bacteroides fragilis are agonists for natural killer T cells and induce their regulatory differentiation. Chem. Sci., 14, 7887-7896 (2023); DOI.
Cao, J., Zhou, A.N., Zhou, Z.Y., Liu, H. and Jia, S.H. The role of GPLD1 in chronic diseases. J. Cell. Physiol., 63, 1057-1176 (2023); DOI.
Cao, N., Wang, Y.C., Bao, B.Y., Wang, M., Li, J.Y., Dang, W.X., Hua, B., Song, L.J., Li, H.W. and Li, W.P. 12,13-diHOME and noradrenaline are associated with the occurrence of acute myocardial infarction in patients with type 2 diabetes mellitus. Diabet. Metab. Syndrome, 15, 142 (2023); DOI.
Cao, S.Q., Hu, X., Ren, S.Q., Wang, Y.H., Shao, Y.X., Wu, K., Yang, Z., Yang, W.X., He, G. and Li, X. The biological role and immunotherapy of gangliosides and GD3 synthase in cancers. Front. Cell Developm. Biol., 11, 1076862 (2023); DOI.
Centanni, D., Henricks, P.A.J. and Engels, F. The therapeutic potential of resolvins in pulmonary diseases. Eur. J. Pharm., 958, 176047 (2023); DOI.
Chen, C. Inhibiting degradation of 2-arachidonoylglycerol as a therapeutic strategy for neurodegenerative diseases. Pharmacol. Therapeut., 244, 108394 (2023); DOI.
Chen, G., Bao, B.H., Cheng, Y., Tian, M.X., Song, J.Y., Zheng, L.D. and Tong, Q.S. Acetyl-CoA metabolism as a therapeutic target for cancer. Biomed. Pharmacother., 168, 115741 (2023); DOI.
Chen, G.X., Weiskirchen, S. and Weiskirchen, R. Vitamin A: too good to be bad? Front. Pharm., 14, 1186336 (2023); DOI.
Chen, H.C., Chang, W.C., Chuang, J.Y., Chang, K.Y., Liou, J.P. and Hsu, T.I. The complex role of eicosanoids in the brain: Implications for brain tumor development and therapeutic opportunities. Biochim. Biophys. Acta, Rev. Cancer, 1878, 188957 (2023); DOI.
Chen, J. and others. Lysosomal phospholipase A2 contributes to the biosynthesis of the atypical late endosome lipid bis(monoacylglycero)phosphate. Commun. Biol., 6, 210 (2023); DOI.
Chen, J.Y., Kuruparan, A., Zamani-Babgohari, M. and Gonzales-Vigil, E. Dynamic changes to the plant cuticle include the production of volatile cuticular wax-derived compounds. Proc. Natl. Acad. Sci. USA,, 120, e2307012120 (2023); DOI.
Cho, Y.K., Lee, S., Lee, J., Doh, J., Park, J.-H., Jung, Y.-S. and Lee, Y.-H. Lipid remodeling of adipose tissue in metabolic health and disease. Exp. Mol. Med., 55, 1955-1973 (2023); DOI.
Chornyi, S., Ofman, R., Koster, J. and Waterham, H.R. The origin of long-chain fatty acids required for de novo ether lipid/plasmalogen synthesis. J. Lipid Res., 64, 100364 (2023); DOI.
Chi, J.X., Cheng, J.H., Wang, S., Li, C. and Chen, M. Promising anti-inflammatory tools: biomedical efficacy of lipoxins and their synthetic pathways. Int. J. Mol. Sci., 24, 13282 (2023); DOI.
Clews, A.C., Ulch, B.A., Jesionowska, M., Hong, J., Mullen, R.T. and Xu, Y. Variety of plant oils: species-specific lipid biosynthesis. Plant Cell Physiol., pcad147 (2023); DOI.
Conroy, M.J. and others. LIPID MAPS: update to databases and tools for the lipidomics community. Nucleic Acids Res., gkad896 (2023); DOI.
Copic, A., Dieudonné, T. and Lenoir, G. Phosphatidylserine transport in cell life and death. Curr. Opinion Cell. Biol., 83, 102192 (2023); DOI.
Crawford, M.A. and others. The imperative of arachidonic acid in early human development. Prog. Lipid Res., 91, 101222 (2023); DOI.
Cronan, J.E. The acyl carrier proteins of lipid synthesis are busy having other affairs. Biochem. J., 480, 855-873 (2023); DOI.
Cummings, R.D. Glycosphingolipids in human parasites. FEBS Open Bio, 13, 1625-1635 (2023); DOI.
D'Angelo, G. and La Manno, G. The lipotype hypothesis. Nature Rev. Mol. Cell Biol., 24, 1-2 (2023); DOI.
Danielli, M., Perne, L., Jovicic, E.J. and Petan, T. Lipid droplets and polyunsaturated fatty acid trafficking: Balancing life and death. Front. Cell Developm. Biol., 11, 1104725 (2023); DOI.
de Sá, M.C.I. and Castor, M.G.M. Therapeutic use of palmitoylethanolamide as an anti-inflammatory and immunomodulator. Fut. Pharmacol., 3, 951-977 (2023); DOI.
Dembitsky, V.M. Biological activity and structural diversity of steroids containing aromatic rings, phosphate groups, or halogen atoms. Molecules 28, 5549 (2023); DOI.
Dembitsky, V.M. Fascinating furanosteroids and their pharmacological profile. Molecules, 28, 5669 (2023); DOI.
Deng, L., Kersten, K. and Stienstra, R. Triacylglycerol uptake and handling by macrophages: From fatty acids to lipoproteins. Prog. Lipid Res., 92, 101250 (2023); DOI.
Dennis, K.M.J.H. and Heather, L.C. Post-translational palmitoylation of metabolic proteins. Front. Physiol., 14, 1122895 (2023); DOI.
Dhakephalkar, T., Stukey, G.J., Guan, Z., Carman, G.C. and Klein, E.A. Characterization of an evolutionarily distinct bacterial ceramide kinase from Caulobacter crescentus. J. Biol. Chem., 299, 104894 (2023); DOI.
Di Maio, R., Keeney, M.T., Cechova, V., Mortimer, A., Sekandari, A., Rowart, P., Greenamyre, J.T., Freeman, B.A. and Fazzari, M. Neuroprotective actions of a fatty acid nitroalkene in Parkinson's disease. npj Parkinson's Disease, 9, 55 (2023); DOI.
Di Pietro, P. and 10 others. The dark side of sphingolipids: searching for potential cardiovascular biomarkers. Biomolecules, 13, 168 (2023); DOI.
Dickson, A.S. and others. A HIF independent oxygen-sensitive pathway for controlling cholesterol synthesis. Nature Commun., 14, 4816 (2023); DOI.
Dietl, A. and others. Structures of an unusual 3-hydroxyacyl dehydratase (FabZ) from a ladderane-producing organism with an unexpected substrate preference. J. Biol. Chem., 299, 104602 (2023); DOI.
Djuricic, I. and Calder, P.C. Pros and cons of long-chain omega-3 polyunsaturated fatty acids in cardiovascular health. Annu. Rev. Pharm. Toxic., 63, 383-406 (2023); DOI.
Do, Q. and Xu, L. How do different lipid peroxidation mechanisms contribute to ferroptosis? Cell Rep. Phys. Sci., 4, 101683 101683 (2023); DOI.
Domingues, N. and others. Cholesteryl hemiazelate identified in CVD patients causes in vitro and in vivo inflammation. J. Lipid Res., 64, 100419 (2023); DOI.
Duah, M., Zhang, K.X., Liang, Y.W., Ayarick, V.A., Xu, K.L. and Pan, B. Immune regulation of polyunsaturated fatty acids and free fatty acid receptor 4. J. Nutr. Biochem., 112, 109222 (2023); DOI.
Durand, T., Bultel-Ponce, V., Guy, A., Gros, V., Reversat, G., Vigor, C., Galano, J.M. and Oger, C. F-4-neuroprostanes and F-2-dihomo-isoprostanes: biomarkers and bioactive oxylipins. OCL, 30, 10 (2023); DOI.
Eccles, J.A. and Baldwin, W.S. Detoxification cytochrome P450s (CYPs) in families 1-3 produce functional oxylipins from polyunsaturated fatty acids. Cells, 12, 82 (2023); DOI.
Eckhardt, M. Fatty acid 2-hydroxylase and 2-hydroxylated sphingolipids: metabolism and function in health and diseases. Int. J. Mol. Sci., 24, 4908 (2023); DOI.
El-Ghiaty, M.A. and El-Kadi, A.O.S. The duality of arsenic metabolism: impact on human health. Annu. Rev. Pharm. Toxic., 63, 341-358 (2023); DOI.
Eraso-Pichot, A., Pouvreau, S., Olivera-Pinto, A., Gomez-Sotres, P., Skupio, U. and Marsicano, G. Endocannabinoid signaling in astrocytes. Glia, 71, 44-59 (2023); DOI.
Eurtivong, C., Leung, E., Sharma, N., Leung, I.K.H. and Reynisson, J. Phosphatidylcholine-specific phospholipase C as a promising drug target. Molecules, 28, 5637 (2023); DOI.
Evtyugin, D.D., Evtuguin, D.V., Casal, S. and Domingues, M.R. Advances and challenges in plant sterol research: fundamentals, analysis, applications and production. Molecules, 28, 6526 (2023); DOI.
Faizan, M. and others. Potential role of tocopherol in protecting crop plants against abiotic stresses. Physiol. Mol. Biol. Plants, 29, 1563-1575 (2023); DOI.
Fang, Y.P., Jiang, J.M., Ding, H.X., Li, X.Y. and Xie, X. Phospholipase C: Diverse functions in plant biotic stress resistance and fungal pathogenicity. Mol. Plant Pathol., 24, 1192-1202 (2023); DOI.
Fantini, J. Lipid rafts and human diseases: why we need to target gangliosides. FEBS Open Bio, 13, 1636-1650 (2023); DOI.
Farese, R.V. and Walther, T.C. Glycerolipid synthesis and lipid droplet formation in the endoplasmic reticulum. Cold Spring Harbor Persp. Biol., 15, a041246 (2023); DOI.
Feng, S., Sun, Z., Jia, X., Li, L.Y., Wu, Y.J., Wu, C.Y., Lin, L.G., Liu, J.X. and Zeng, B. Lipophagy: molecular mechanisms and implications in hepatic lipid metabolism. Front. Biosci. Landmark, 28, 6 (2023); DOI.
Fernández-Verdejo, R., Mey J.T. and Ravussin, E. Effects of ketone bodies on energy expenditure, substrate utilization, and energy intake in humans. J. Lipid Res., 64, 100442 (2023); DOI.
Ferreri, C., Ferocino, A., Batani, G., Chatgilialoglu, C., Randi, V., Riontino, M.V., Vetica, F. and Sansone, A. Plasmalogens: free radical reactivity and identification of trans isomers relevant to biological membranes. Biomolecules, 13, 730 (2023); DOI.
Ferri, G., Mucci, M., Mattoscio, D. and Recchiuti, A. Specialized pro-resolving lipid mediators and resolution of viral diseases. Prostaglandins Other Lipid Mediators, 168, 106762 (2023); DOI.
Finin. P., Khan, R.M.N., Oh, S., Boshoff, H.I.M. and Barry, C.E. Chemical approaches to unraveling the biology of mycobacteria. Cell Chem. Biol, 30, 420-435 (2023); DOI.
Flores, A.D., Narayanamoorthy, M., Cai, W.L., Zhai, R., Yang, S.Y., Shen, Y.B., Seshadri, K., De Matias, K., Xue, Z.Q. and Zhang, W.J. Biosynthesis of isonitrile lipopeptide metallophores from pathogenic Mycobacteria. Biochemistry, 62, 824-834 (2023); DOI.
Fraga, C.G., Trostchansky, A., Rocha, B.S., Laranjinha, J., Rubbo, H. and Galleano, M. (Poly)phenols and nitrolipids: Relevant participants in nitric oxide metabolism. Mol. Aspects Med., 89, 101158 (2023); DOI.
Fraser, M., Matuschewski, K. and Maier, A.G. The enemy within: lipid asymmetry in intracellular parasite-host interactions. Emerging Topics Life Sci., ETLS20220089 (2023); DOI.
Frias, M.A., Hatipoglu, A. and Foster, D.A. Regulation of mTOR by phosphatidic acid. Trends Endocrinol. Metab., 34, 170-180 (2023); DOI.
Friston, D.A. and others. Elevated 18:0 lysophosphatidylcholine contributes to the development of pain in tissue injury. Pain, 164, E103-E115 (2023); DOI.
Furuta, Y. and Zhou, Z. How do necrotic cells expose phosphatidylserine to attract their predators-What's unique and what's in common with apoptotic cells. Front. Cell Developm. Biol., 11, 1170551 (2023); DOI.
Gaffar, S. and Aathirah, A.S. Fatty-acid-binding proteins: from lipid transporters to disease biomarkers. Biomolecules, 13, 1753 (2023); DOI.
Galanty, A., Grudzinska, M., Pazdziora, W. and Pasko, P. Erucic acid-both sides of the story: a concise review on its beneficial and toxic properties. Molecules, 28, 1924 (2023); DOI.
Gao, Y., Ye, S.Y., Tang, Y.H., Tong, W.J. and Sun, S.W. Brain cholesterol homeostasis and its association with neurodegenerative diseases. Neurochem. Int., 171, 105635 (2023); DOI.
Ghaderi, S. and Levkau, B. An erythrocyte-centric view on the MFSD2B sphingosine-1-phosphate transporter. Pharmacol. Therapeut., 249, 108483 (2023); DOI.
Giammanco, A., Spina, R., Cefalu, A.B. and Averna, M. APOC-III: a gatekeeper in controlling triglyceride metabolism. Curr. Ather. Rep., 25, 67-76 (2023); DOI.
Gill, C.P., Phan, C., Platt, V., Worrell, D., Andl, T. and Roy, H. The MprF homolog LysX synthesizes lysyl-diacylglycerol contributing to antibiotic resistance and virulence. Microbiol. Spectrum, 11, e01429-23 (2023); DOI.
Glaser, S.T. and others. Fatty acid binding proteins are novel modulators of synaptic epoxyeicosatrienoic acid signaling in the brain. Sci. Rep., 13, 15234 (2023); DOI.
Godson, C., Guiry, P. and Brennan, E. Lipoxin mimetics and the resolution of inflammation. Annu. Rev. Pharm. Toxic., 63, 429-448 (2023); DOI.
Goicoechea, L., de la Rosa, L.C., Torres, S., Garcia-Ruiz, C. and Fernandez-Checa, J.C. Mitochondrial cholesterol: Metabolism and impact on redox biology and disease. Redox Biol., 61, 102643 (2023); DOI.
Goldy, C. and Caillaud, M.C. Connecting the plant cytoskeleton to the cell surface via the phosphoinositides. Curr. Opinion Plant Biol., 73, 102365 (2023); DOI.
Gong, Y., Wang, J., Li, F. and Zhu, B.D. Polysaccharides and glycolipids of Mycobacterium tuberculosis and their induced immune responses. Scand. J. Immun., 97, e13261 (2023); DOI.
Goswami, M., Priya., Jaswal, S., Das Gupta, G. and Verma, S.K. A comprehensive update on phytochemistry, analytical aspects, medicinal attributes, specifications and stability of stigmasterol. Steroids, 196, 109244 (2023); DOI.
Gozdzik, P., Magkos, F., Sledzinski, T. and Mika, A. Monomethyl branched-chain fatty acids: Health effects and biological mechanisms. Prog. Lipid Res., 90, 101226 (2023); DOI.
Grajchen, E. and others. Fatty acid desaturation by stearoyl-CoA desaturase-1 controls regulatory T cell differentiation and autoimmunity. Cell. Mol. Immun., 20, 666-679 (2023); DOI.
Greenwood, B.L., Luo, Z.J., Ahmed, T., Huang, D.N. and Stuart, D.T. Saccharomyces cerevisiae ?9-desaturase Ole1 forms a supercomplex with Slc1 and Dga1. J. Biol. Chem., 299, 104882 (2023); DOI.
Grigg, J.C., Copp, J.N., Krekhno, J.M.C., Liu, J., Ibrahimova, A. and Eltis, L.D. Deciphering the biosynthesis of a novel lipid in Mycobacterium tuberculosis expands the known roles of the nitroreductase superfamily. J. Biol. Chem., 299, 104924 (2023); DOI.
Guile, M.D., Jain, A., Anderson, K.A. and Clarke, C.F. New insights on the uptake and trafficking of coenzyme Q. Antioxidants, 12, 1391 (2023); DOI.
Guo, Z.Q., Bergeron, K.F., Lingrand, M. and Mounier, C. Unveiling the MUFA-cancer connection: insights from endogenous and exogenous perspectives. Int. J. Mol. Sci., 24, 9921 (2023); DOI.
Guo, Z.W. Glycosphingolipid and glycosylphosphatidylinositol affect each other in and on the cell. Chembiochem, 24, e202200761 (2023); DOI.
Guo, Z.W. Ganglioside GM1 and the central nervous system. Int. J. Mol. Sci., 24, 9558 (2023); DOI.
Guyet, A., Alofi, A. and Daniel, R.A. Insights into the roles of lipoteichoic acids and MprF in Bacillus subtilis. mBio, 14, e0266722 (2023); DOI.
Guzha, A., Whitehead, P., Ischebeck, T. and Chapman, K.D. Lipid droplets: packing hydrophobic molecules within the aqueous cytoplasm. Annu. Rev. Plant Biol., 74, 195-223 (2023); DOI.
Haas, E., Kim, Y. and Stanley, D. Why can insects not biosynthesize cholesterol? Arch. Insect Biochem. Physiol., 112, e21983 (2023); DOI.
Haatveit, A.S. and Hansen, T.V. The biosynthetic pathways of the protectins. Prostaglandins Other Lipid Mediators, 169, 106787 (2023); DOI.
Haeggstrom, J.Z. and Newcomer, M.E. Structures of leukotriene biosynthetic enzymes and development of new therapeutics. Annu. Rev. Pharm. Toxic., 63, 407-428 (2023); DOI.
Hajib, A., El Harkaoui, S., Choukri, H., Khouchlaa, A., Aourabi, S., El Menyiy, N., Bouyahya, A. and Matthaeus, B. Apiaceae family an important source of petroselinic fatty acid: abundance, biosynthesis, chemistry, and biological proprieties. Biomolecules, 13, 1675 (2023); DOI.
Hallisey, V.M. and Schwab, S.R. Get me out of here: Sphingosine 1-phosphate signaling and T cell exit from tissues during an immune response. Immun. Rev., 317, 8-19 (2023); DOI.
Hamaguchi, A., Fukuda, H., Fujiwara, K., Harada, T., Fukushima, K., Shuto, S. and Fujino, H. Individual resolvin E family members work distinctly and in a coordinated manner in the resolution of inflammation. Prostaglandins Other Lipid Mediators, 168, 106759 (2023); DOI.
Hammoudeh, N., Soukkarieh, C., Murphy, D.J. and Hanano, A. Mammalian lipid droplets: structural, pathological, immunological and anti-toxicological roles. Prog. Lipid Res., 91, 101233 (2023); DOI.
Han, S., Applewhite, S., DeCata, J., Jones, S., Cummings, J. and Wang, S. Arachidonic acid reverses cholesterol and zinc inhibition of human voltage-gated proton channels. J. Biol. Chem., 299, 104918 (2023); DOI.
Hara, M., Wu, W., Malechka, V.V., Takahashi, Y., Ma, J.-X. and Moiseyev, G. PNPLA2 mobilizes retinyl esters from retinosomes and promotes the generation of 11-cis-retinal in the visual cycle. Cell Reports 42, 112091 (2023); DOI.
Harayama, T. Metabolic bias: Lipid structures as determinants of their metabolic fates. Biochimie, 215, 34-41 (2023); DOI.
Harayama, T. and Antonny, B. Beyond fluidity: the role of lipid unsaturation in membrane function. Cold Spring Harbor Persp. Biol., 15, a041409 (2023); DOI.
Harwood, J.L. Polyunsaturated fatty acids: conversion to lipid mediators, roles in inflammatory diseases and dietary sources. Int. J. Mol. Sci., 24, 8838 (2023); DOI.
He, Q.B.R., Chen, Y.H., Wang, Z.G., He, H. and Yu, P. Cellular uptake, metabolism and sensing of long-chain fatty acids. Front. Biosci. Landmark, 28, 10 (2023); DOI.
Herrera-Marcos, L.V., Sahali, D. and Ollero, M. 9-O Acetylated gangliosides in health and disease. Biomolecules, 13, 827 (2023); DOI.
Hoffmann, D.Y. and Shachar-Hill, Y. Do betaine lipids replace phosphatidylcholine as fatty acid editing hubs in microalgae? Front. Plant Sci., 14, 1077347 (2023); DOI.
Honda, T., Kabashima, K. and Kunisawa, J Exploring the roles of prostanoids, leukotrienes, and dietary fatty acids in cutaneous inflammatory diseases: Insights from pharmacological and genetic approaches. Immun. Rev., 317, 95-112 (2023); DOI.
Honsho, M. and Fujiki, Y. Regulation of plasmalogen biosynthesis in mammalian cells and tissues. Brain Res. Bull., 194, 118-123 (2023); DOI.
Honsho, M. and Fujiki, Y. Asymmetric distribution of plasmalogens and their roles-a mini review. Membranes, 13, 764 (2023); DOI.
Hoxha, M., Barbonetti, A. and Zappacosta, B. Arachidonic acid pathways and male fertility: a systematic review. Int. J. Mol. Sci., 24, 8207 (2023); DOI.
Hu, S., Yu, K.M., Yan, J.B., Shan, X.Y. and Xie, D.X. Jasmonate perception: Ligand-receptor interaction, regulation, and evolution. Mol. Plant, 16, 23-42 (2023); DOI.
Huang, R.W., Wu, J., Ma, Y.D. and Kang, K. Molecular mechanisms of ferroptosis and its role in viral pathogenesis. Viruses-Basel, 15, 2373 (2023); DOI.
Hummels, K.R., Berry, S.P., Li, Z.Q., Taguchi, A., Min, J.K., Walker, S., Marks, D.S. and Bernhardt, T.G. Coordination of bacterial cell wall and outer membrane biosynthesis. Nature, 615, 300-304 (2023); DOI.
Husler, D., Stauffer, P. and Hilbi, H. Tapping lipid droplets: A rich fat diet of intracellular bacterial pathogens. Mol. Microbiol., 120, 194-209 (2023); DOI.
Ikonen, E. and Olkkonen, V.M. Intracellular cholesterol trafficking. Cold Spring Harbor Persp. Biol., 15, a041404 (2023); DOI.
Imbs, A.B. and Dembitsky, V.M. Coral lipids. Marine Drugs, 21, 539 (2023); DOI.
Ishikawa, T., Takano, S., Tanikawa, R., Fujihara, T., Atsuzawa, K., Kaneko, Y. and Hihara, Y. Acylated plastoquinone is a novel neutral lipid accumulated in cyanobacteria. PNAS Nexus, 2, 1-10 (2023); DOI.
Ishizuka, S. and others. PGL-III, a rare intermediate of Mycobacterium leprae phenolic glycolipid biosynthesis, is a potent Mincle ligand. ACS Cent. Sci., 9, 1388-1399 (2023); DOI.
Islam, M.T., Bhuia, M.S., de Lima, J.P.M., Maia, F.P.A., Ducati, A.B.H. and Coutinho, H.D.M. Phytanic acid, an inconclusive phytol metabolite: A review. Cur. Res. Toxicol., 5, 100120 (2023); DOI.
Isu, U.H., Badiee, S.A., Khodadadi, E. and Moradi, M. Cholesterol in class C GPCRs: role, relevance, and localization. Membranes, 13, 301 (2023); DOI.
Ivanova, A. and Atakpa-Adaji, P. Phosphatidylinositol 4,5-bisphosphate and calcium at ER-PM junctions - Complex interplay of simple messengers. Biochim. Biophys. Acta, Mol. Cell Res., 1870, 119475 (2023); DOI.
Jamil, M. and Cowart, L.A. Sphingolipids in mitochondria-from function to disease. Front. Cell Developm. Biol., 11, 1302472 (2023); DOI.
Jarmuszkiewicz, W., Dominiak, K., Budzinska, A., Wojcicki, K. and Galganski, L. Mitochondrial coenzyme Q redox homeostasis and reactive oxygen species production. Front. Biosci.- Landmark, 28, 61 (2023); DOI.
Ji, R.R. Specialized pro-resolving mediators as resolution pharmacology for the control of pain and itch. Annu. Rev. Pharm. Toxic., 63, 273-293 (2023); DOI.
Ji, Z., Nagar, R., Duncan, S.M., Guther, M.L.S. and Ferguson, M.A.J. Identification of the glycosylphosphatidylinositol-specific phospholipase A2 (GPI-PLA2) that mediates GPI fatty acid remodeling in Trypanosoma brucei. J. Biol. Chem., 299, 105016 (2023); DOI.
Jia, M., Xu, T.C., Xu, Y.J. and Liu, Y.F. Dietary fatty acids activate or deactivate brown and beige fat. Life Sci., 330, 121978 (2023); DOI.
Jiang, S.F., Yang, H.L. and Li, M.Q. Emerging roles of lysophosphatidic acid in macrophages and inflammatory diseases. Int. J. Mol. Res., 24, 12524 (2023); DOI.
Jin, K.P., Qian, C., Lin, J.T. and Liu, B. Cyclooxygenase-2-prostaglandin E2 pathway: A key player in tumor-associated immune cells. Front. Oncol., 13, 1099811 (2023); DOI.
Jin, X.F. and Yang, G.Y. Pathophysiological roles and applications of glycosphingolipids in the diagnosis and treatment of cancer diseases. Prog. Lipid Res., 91, 101241 (2023); DOI.
Jin, Y., Tan, Y., Wu, J. and Ren, Z. Lipid droplets: a cellular organelle vital in cancer cells Cell Death Discovery, 9, 254 (2023); DOI.
Jojima, K. and Kihara, A. Metabolism of sphingadiene and characterization of the sphingadiene-producing enzyme FADS3. Biochim. Biophys. Acta, Lipids, 1868, 159335 (2023); DOI.
Joshi, A., Richard, T.H. and Gohil, V.M. Mitochondrial phospholipid metabolism in health and disease. J. Cell Sci., 136, jcs260857 (2023); DOI.
Jove, M., Mota-Martorell, N., Obis, E., Sol, J., Martin-Gari, M., Ferrer, I., Portero-Otin, M. and Pamplona, R. Ether lipid-mediated antioxidant defense in Alzheimer's disease. Antioxidants, 12, 293 (2023); DOI.
Joyce, L.R. and Doran, K.S. Gram-positive bacterial membrane lipids at the host-pathogen interface. PLOS Pathogens, 19, e1011026 (2023); DOI.
Kagan, V.E. and others. Anomalous peroxidase activity of cytochrome c is the primary pathogenic target in Barth syndrome. Nature Metab., 5, 2184-2205 (2023); DOI.
Kahn, A., Oliveira, P., Cuau, M. and Leao, P.N. Incorporation, fate, and turnover of free fatty acids in cyanobacteria. FEMS Microbiol. Rev., 47, fuad015 (2023); DOI.
Kahnt, A.S., Schebb, N.H. and Steinhilber, D. Formation of lipoxins and resolvins in human leukocytes. Prostaglandins Other Lipid Mediators, 166, 106726 (2023); DOI.
Kamemoto, Y., Hikage, R., Han, Y.J., Sekiya, Y., Sawasato, K. and Nishiyama, K.I. Coordinated upregulation of two CDP-diacylglycerol synthases, YnbB and CdsA, is essential for cell growth and membrane protein export in the cold. FEMS Microbiol. Letts, 370, fnad131 (2023); DOI.
Kanemaru, K. and Nakamura, Y. Activation mechanisms and diverse functions of mammalian phospholipase C. Biomolecules, 13, 915 (2023); DOI.
Kawashima, H. and Yoshizawa, K. The physiological and pathological properties of Mead acid, an endogenous multifunctional n-9 polyunsaturated fatty acid. Lipids Health Dis., 22, 172 (2023); DOI.
Keles, U., Ow, J.R., Kuentzel, K.B., Zhao, L.N. and Kaldis, P. Liver-derived metabolites as signaling molecules in fatty liver disease. Cell. Mol. Life Sci., 80, 4 (2023); DOI.
Kennelly, J.P. and Tontonoz, P. Cholesterol transport to the endoplasmic reticulum. Cold Spring Harbor Persp. Biol., 15, a041263 (2023); DOI.
Kenworthy, A.K., Han, B., Ariotti, N. and Parton, R.G. The role of membrane lipids in the formation and function of caveolae. Cold Spring Harbor Persp. Biol., 15, a041413 (2023); DOI.
Khan, S.A. and Ilies, M.A. The phospholipase A2 superfamily: structure, isozymes, catalysis, physiologic and pathologic roles. Int. J. Mol. Sci., 24, 1353 (2023); DOI.
Khanna, A., Handa, S., Rana, S., Suttee, A., Puri, S. and Chatterjee, M. Biosurfactant from Candida: sources, classification, and emerging applications. Arch. Microbiol., 205, 149 (2023); DOI.
Kim, Y., Mavodza, G., Senkal, C.E. and Burd, C.G. Cholesterol-dependent homeostatic regulation of very long chain sphingolipid synthesis. J. Cell. Biol., 222, e202308055 (2023); DOI.
Kimura, T., Kimura, A.K. and Epand, R.M. Systematic crosstalk in plasmalogen and diacyl lipid biosynthesis for their differential yet concerted molecular functions in the cell. Prog. Lipid Res., 91, 101234 (2023); DOI.
Kister, A. and Kister, I. Overview of myelin, major myelin lipids, and myelin-associated proteins. Front. Chem., 10, 1041961 (2023); DOI.
Kitakaze, K. and others. GDE7 produces cyclic phosphatidic acid in the ER lumen functioning as a lysophospholipid mediator. Communications Biol., 6, 524 (2023); DOI.
Kleiboeker, B.A., Frankfater, C., Davey, M.E. and Hsu, F.-F. Lipidomic analysis of Porphyromonas gingivalis reveals novel glycerol bisphosphoceramide, phosphatidyl-, and phosphoglycerol dipeptide lipid families. J. Lipid Res., 64, 100470 (2023); DOI.
Kleuser, B. and Baumer, W. Sphingosine 1-phosphate as essential signaling molecule in inflammatory skin diseases. Int. J. Mol. Sci., 24, 1456 (2023); DOI.
Knieper, M., Viehhauser, A. and Dietz, K.-J. Oxylipins and reactive carbonyls as regulators of the plant redox and reactive oxygen species network under stress. Antioxidants, 12, 814 (2023); DOI.
Koh, Y.G., Seok, J., Park, J.W., Kim, K.R., Yoo, K.H., Kim, Y.J. and Beom Joon Kim, B.J. Efficacy and safety of oral palmitoleic acid supplementation for skin barrier improvement: A 12-week, randomized, double-blinded, placebo-controlled study. Heliyon, 9, e16711 (2023); DOI.
Komatsuya, K., Kikuchi, N., Hirabayashi, T. and Kasahara, K. The regulatory roles of cerebellar glycosphingolipid microdomains/lipid rafts. Int. J. Mol. Sci., 24, 5566 (2023); DOI.
Korbecki, J., Rebacz-Maron, E., Kupnicka, P., Chlubek, D. and Baranowska-Bosiacka, I. Synthesis and significance of arachidonic acid, a substrate for cyclooxygenases, lipoxygenases, and cytochrome P450 pathways in the tumorigenesis of glioblastoma multiforme, including a pan-cancer comparative analysis. Cancers, 15, 946 (2023); DOI.
Kozan, D.W., Derrick, J.T., Ludington, W.B. and Farber, S.A. From worms to humans: Understanding intestinal lipid metabolism via model organisms. Biochim. Biophys. Acta, Lipids, 1868, 159290 (2023); DOI.
Krylova, S.V. and Feng, D.R. The machinery of exosomes: biogenesis, release, and uptake. Int. J. Mol. Sci., 24, 1337 (2023); DOI.
Kumari, P., Inoue, A., Chapman, K., Lian, P. and Rosenbaum, D.M. Molecular mechanism of fatty acid activation of FFAR1. Proc. Natl. Acad. Sci. USA, 120, e2219569120 (2023); DOI.
Kuroha, S. and others. Long chain acyl-CoA synthetase 6 facilitates the local distribution of di-docosahexaenoic acid- and ultra-long-chain-PUFA-containing phospholipids in the retina to support normal visual function in mice. FASEB J., 37, e23151 (2023); DOI.
Lackner, K. and others. Alterations in ether lipid metabolism and the consequences for the mouse lipidome. Biochim. Biophys. Acta, Lipids, 1868, 159285 (2023); DOI.
Leao, P.N., Martins, T.P., Abt, K., Reis, J.P.A., Figueiredo, S., Castelo-Branco, R. and Freitas, S. Incorporation and modification of fatty acids in cyanobacterial natural products biosynthesis. Chem. Commun., 59, 4436-4446 (2023); DOI.
Lee, A.K., Wei, J.H. and Welander, P.V. De novo cholesterol biosynthesis in bacteria. Nature Commun., 14, 2904 (2023); DOI.
Lee, C.-H. and others. A carnivorous mushroom paralyzes and kills nematodes via a volatile ketone. Sci. Adv., 9, eade4809 (2023); DOI.
Lee, M.S. and Webb, T.J. Novel lipid antigens for NKT cells in cancer. Front. Immun., 14, 1173375 (2023); DOI.
Lemus, L., Hegde, R.S. and Goder, V. New frontiers in quality control: the case of GPI-anchored proteins. Nature Rev. Mol. Cell Biol., 24, 599-600 (2023); DOI.
Leonard, T.A., Loose, M. and Martens, S. The membrane surface as a platform that organizes cellular and biochemical processes. Developmental Cell, 58, 1315-1332 (2023); DOI.
Lewandowska, M., Zienkiewicz, A., Feussner, K., Konig, S., Kunst, L. and Feussner, I. Wound-induced triacylglycerol biosynthesis is jasmonoyl-isoleucine and abscisic acid independent. Plant Biol., 25, 509-517 (2023); DOI.
Lewandowska, M., Zienkiewicz, K., Zienkiewicz, A., Kelly, A., König, S., Feussner, K., Kunst, L. and Feussner, I. Wounding triggers wax biosynthesis in Arabidopsis leaves in an abscisic acid-dependent and jasmonoyl-isoleucine-dependent manner. Plant Cell Physiol., pcad137 (2023); DOI.
Li, C. and others. Speciation analysis and toxicity evaluation of arsenolipids-an overview focusing on sea food. Arch. Toxicol., 98, 1-16 (2023); DOI.
Li, F.Z. and Fang, S. Adipophilin: roles in physiology and pathology. J. Clin. Pathol., 76, 98-102 (2023); DOI.
Li, H., Che, R.H., Zhu, J.T., Yang, X.H., Li, J.S., Fernie, A.R. and Yan, J.B. Multi-omics-driven advances in the understanding of triacylglycerol biosynthesis in oil seeds. Plant J., 117, 999-1017 (2023); DOI.
Li, J.Y., Xin, Y.G., Li, J.Y., Chen, H. and Li, H.W. Phosphatidylethanolamine N-methyltransferase: from functions to diseases. Aging Disease, 14, 879-891 (2023); DOI.
Li, T.T., Li, G., Hu, R., Ji, X., Liu, C. and Shao, Y.T. Relationship of sulfatides physiological function and peroxisome proliferator-activated receptor alpha. Neurochem. Res., 48, 2059-2065 (2023); DOI.
Liang, Y., Huang, Y., Liu, C., Chen, K. and Li, M. Functions and interaction of plant lipid signalling under abiotic stresses. Plant Biol., 25, 361-378 (2023); DOI.
Lin, S. and others. Bile acids and their receptors in regulation of gut health and diseases. Prog. Lipid Res., 89, 101210 (2023); DOI.
Lin, Y.N., Ran, L.Y., Du, X.M., Yang, H.Y. and Wu, Y.J. Oxysterol-binding protein: new insights into lipid transport functions and human diseases. Biochim. Biophys. Acta, Lipids, 1868, 159365 (2023); DOI.
Lin, Z., Long, F., Kang, R., Klionsky, DJ., Yang, M.H. and Tang, D.L. The lipid basis of cell death and autophagy. Autophagy, 28, 1-20 (2023); DOI.
Liu, H.Q., Zhang, X.Z., Chen, W. and Wang, C.T. The regulatory functions of oxylipins in fungi: A review. J. Basic Microbiol., 63, 1073-1084 (2023); DOI.
Liu, W.C., Yang, Y.H., Wang, Y.C., Chang, W.M. and Wang, C.W. Maresin: macrophage mediator for resolving inflammation and bridging tissue regeneration-a system-based preclinical systematic review. Int. J. Mol. Sci., 24, 11012 (2023); DOI.
Liu, Y., Wan, Y.C., Jiang, Y., Zhang, L. and Cheng, W.J. GPX4: The hub of lipid oxidation, ferroptosis, disease and treatment. Biochim. Biophys. Acta, Rev. Cancer, 1878, 188890 (2023); DOI.
Lou, H. and others. The Torreya grandis genome illuminates the origin and evolution of gymnosperm-specific sciadonic acid biosynthesis. Nat. Commun., 14, 1315 (2023); DOI.
Lu, J., Chen, S.W., Bai, X.J., Liao, M.R., Qiu, Y.L., Zheng, L.L. and Yu, H.Y. Targeting cholesterol metabolism in Cancer: From molecular mechanisms to therapeutic implications. Biochem. Pharm., 218, 115907 (2023); DOI.
Lubrano, V., Ndreu, R. and Balzan, S. Classes of lipid mediators and their effects on vascular inflammation in atherosclerosis. Int. J. Mol. Sci., 24, 1637 (2023); DOI.
Luginina, A. and others. Structural diversity of leukotriene G-protein coupled receptors. J. Biol. Chem., 299, 105247 (2023); DOI.
Luo, C., Qiu, J.F., Zhang, Y., Li, M.Y. and Liu, P. Jasmonates coordinate secondary with primary metabolism. Metabolites, 13, 1008 (2023); DOI.
Luo, Q.,Das, A., Oldoni, F., Wu, P., Wang, J., Luo, F. and Fang, Z. Role of ACSL5 in fatty acid metabolism. Heliyon, 9, e13316 (2023); DOI.
Lyamzaev, K.G., Panteleeva, A.A., Simonyan, R.A., Avetisyan, A.V. and Chernyak, B.V. The critical role of mitochondrial lipid peroxidation in ferroptosis: insights from recent studies. Biophys. Rev., 15, 875-885 (2023); DOI.
Ma, M.J. and others. DAGLβ is the principal synthesizing enzyme of 2-AG and promotes aggressive phenotype of intrahepatic cholangiocarcinoma via AP-1/DAGLβ/miR4516 feedforward circuitry. Am. J. Physiol., Gastroint. Liver Physiol., 325, G213-G229 (2023); DOI.
Maccarrone, M. and others. Goods and bads of the endocannabinoid system as a therapeutic target: lessons learned after 30 years. Pharmacol. Rev., 75, 885-958 (2023); DOI.
Machacek, S. and others. Evolution of linoleic acid biosynthesis paved the way for ecological success of termites. Mol. Biol. Evolution, 40, msad087 (2023); DOI.
Machy, P., Mortier, E. and Birkle, S. Biology of GD2 ganglioside: implications for cancer immunotherapy. Front. Pharm., 14, 1249929 (2023); DOI.
Madsen, R.R. and Toker, A. PI3K signaling through a biochemical systems lens. J. Biol. Chem., 299, 105224 (2023); DOI.
Majima, M., Hosono, K., Ito, Y., Amano, H., Nagashima, Y., Matsuda, Y., Watanabe, S.I. and Nishimura, H. A biologically active lipid, thromboxane, as a regulator of angiogenesis and lymphangiogenesis. Biomed. Pharmacotherapy, 163, 114831 (2023); DOI.
Mallick, M. and Mondal, H.A. Vascular dodecanoic acid of Arabidopsis mediates an insect resistance against Myzus persicae. Arch. Insect Biochem. Physiol., 112, e21986 (2023); DOI.
Mantle, D., Millichap, L., Castro-Marrero, J., Hargreaves, I.P. and Napolitano, A. Primary Coenzyme Q10 deficiency: an update. Antioxidants, 12, 1652 (2023); DOI.
Mao, C and others. Unsaturated bond recognition leads to biased signal in a fatty acid receptor. Science, 380, eadd6220 (2023); DOI.
Mao, S.Q. and others. Branched-long-chain monomethyl fatty acids: are they hidden gems? J. Agric. Food Chem., 71, 18674-18684 (2023); DOI.
Massey, W. J., and others. MBOAT7-driven lysophosphatidylinositol acylation in adipocytes contributes to systemic glucose homeostasis. J. Lipid Res. 64, 100349 (2023); DOI.
Masuda-Kuroki, K., Alimohammadi, S. and Di Nardo, A. The role of sphingolipids and sphingosine-1-phosphate-sphingosine-1-phosphate-receptor signaling in psoriasis. Cells, 12, 2352 (2023); DOI.
Matos, G.S., Fernandes, C.M. and Del Poeta, M. Role of sphingolipids in the host-pathogen interaction. Biochim. Biophys. Acta, Lipids, 1868, 159384 (2023); DOI.
Mauri, L. and Sonnino, S. Alkali-labile gangliosides Glycoconjugate J., 40, 269-276 (2023); DOI.
Mayor, S., Bhat, A. and Kusumi, A. A survey of models of cell membranes: toward a new understanding of membrane organization. Cold Spring Harbor Persp. Biol., 15, a041394 (2023); DOI.
Mazurak, V.C. and others. Plasma essential fatty acid on hospital admission is a marker of COVID-19 disease severity. Sci. Rep., 13, 18973 (2023); DOI.
McLelland, G.L. and others. Identification of an alternative triglyceride biosynthesis pathway. Nature, 621, 171-178 (2023); DOI.
McReynolds, C., Hammock, B. and Morisseau, C. Regulatory lipid vicinal diols counteract the biological activity of epoxy fatty acids and can act as biomarkers and mechanisms for disease progression. Pharmacol. Therapeut., 248, 108454 (2023); DOI.
Mechoulam, R. A delightful trip along the pathway of cannabinoid and endocannabinoid chemistry and pharmacology. Annu. Rev. Pharm. Toxic., 63, 1-13 (2023); DOI.
Medoh, U.N., Hims, A., Chen, J.Y., Ghoochani, A., Nyame, K., Dong, W.T. and Abu-Remaileh, M. The Batten disease gene product CLN5 is the lysosomal bis(monoacylglycero)phosphate synthase. Science, 381, 1182-1188 (2023); DOI.
Mehta, N., Dangas, K., Ditmarsch, M., Rensen, P.C.N., Dicklin, M.R. and Kastelein, J.J.P. The evolving role of cholesteryl ester transfer protein inhibition beyond cardiovascular disease. Pharmacol. Res., 197, 106972 (2023); DOI.
Milkovic, L., Zarkovic, N., Marusic, Z., Zarkovic, K. and Jaganjac, M. The 4-hydroxynonenal-protein adducts and their biological relevance: are some proteins preferred targets? Antioxidants, 12, 856 (2023); DOI.
Mishima, E., Wahida, A., Seibt, T. and Conrad, M. Diverse biological functions of vitamin K: from coagulation to ferroptosis. Nature Metab., 5, 924-932 (2023); DOI.
Mitchison-Field, L.M. and Belin, B.J. Bacterial lipid biophysics and membrane organization. Curr. Opinion Microbiol., 74, 102315 (2023); DOI.
Mock, E.D., Gagestein, B. and van der Stelt, M. Anandamide and other N-acylethanolamines: A class of signaling lipids with therapeutic opportunities. Prog. Lipid Res., 89, 101194 (2023); DOI.
Mohammed, S., Bindu, A., Viswanathan, A. and Harikumar, K.B. Sphingosine 1-phosphate signaling during infection and immunity. Prog. Lipid Res., 92, 101251 (2023); DOI.
Moldogazieva, N.T., Zavadskiy, S.P., Astakhov, D.V. and Terentiev, A.A. Lipid peroxidation: Reactive carbonyl species, protein/DNA adducts, and signaling switches in oxidative stress and cancer. Biochem. Biophys. Res. Commun., 687, 149167 (2023); DOI.
Mondal, S., Pal, B. and Sankaranarayanan, R. Mechanistic understanding of bacterial FAALs and the role of their homologs in eukaryotes. Proteins, in press (2023); DOI.
Monte, I. Jasmonates and salicylic acid: Evolution of defense hormones in land plants. Curr. Opinion Plant Biol., 76, 102470 (2023); DOI.
Mortensen, M.S., Ruiz, J. and Watts, J.L. Polyunsaturated fatty acids drive lipid peroxidation during ferroptosis. Cells, 12, 804 (2023); DOI.
Muller, G.A. and Muller, T.D. (Patho)Physiology of glycosylphosphatidylinositol-anchored proteins I: localization at plasma membranes and extracellular compartments. Biomolecules, 13, 855 (2023); DOI.
Muller, G.A. and Muller, T.D. (Patho)physiology of glycosylphosphatidylinositol-anchored proteins II: intercellular transfer of matter (inheritance?) that matters. Biomolecules, 13, 994 (2023); DOI.
Murakami, M. The phospholipase A2 superfamily as a central hub of bioactive lipids and beyond. Pharmacol. Therapeut., 244, 108382 (2023); DOI.
Nagtode, V.S. and others. Green surfactants (biosurfactants): a petroleum-free substitute for sustainability-comparison, applications, market, and future prospects. ACS Omega, 8, 11674-11699 (2023); DOI.
Naito, T., Yang, H., Koh, D.H.Z., Mahajan, D., Lu, L. and Saheki, Y. Regulation of cellular cholesterol distribution via non-vesicular lipid transport at ER-Golgi contact sites. Nature Commun., 14, 5867 (2023); DOI.
Nakamura, M. and Shimizu, T. Therapeutic target of leukotriene B4 receptors, BLT1 and BLT2: Insights from basic research. Biochimie, 215, 60-68 (2023); DOI.
Nakashima, F. and others. The 5-lipoxygenase/cyclooxygenase-2 cross-over metabolite, hemiketal E2, enhances VEGFR2 activation and promotes angiogenesis. J. Biol. Chem., 299, 103050 (2023); DOI.
Nandy, A. and others. Lipolysis supports bone formation by providing osteoblasts with endogenous fatty acid substrates to maintain bioenergetic status. Bone Res., 11, 62 (2023); DOI.
Naughten, S. and others. The re-emerging role of linoleic acid in paediatric asthma. Eur. Resp. Rev., 32, 230063 (2023); DOI.
Nicholls, D.G. Fifty years on: How we uncovered the unique bioenergetics of brown adipose tissue. Acta Physiol., 237, e13938 (2023); DOI.
Nishida, Y. and others Astaxanthin: past, present, and future. Marine Drugs, 21, 514 (2023); DOI.
Nshimiyimana, R., Libreros, S., Simard, M., Chiang, N., Rodriguez, A.R., Spur, B.W., Haeggstrom, J.Z. and Serhan, C.N. Stereochemistry and functions of the new cysteinyl-resolvin, 4S,5R-RCTR1, in efferocytosis and erythrophagocytosis of human senescent erythrocytes. Am. J. Hematol., 98, 1000-1016 (2023); DOI.
Numata, M., Kandasamy, P. and Voelker, D.R. The anti-inflammatory and antiviral properties of anionic pulmonary surfactant phospholipids. Immun. Rev., 317, 166-186 (2023); DOI.
Nusková, H. and others. Competition for cysteine acylation by C16:0 and C18:0 derived lipids is a global phenomenon in the proteome. J. Biol. Chem., 299, 105088 (2023); DOI.
Oddi, S., Fiorenza, M.T. and Maccarrone, M. Endocannabinoid signaling in adult hippocampal neurogenesis: A mechanistic and integrated perspective. Prog. Lipid Res., 91, 101239 (2023); DOI.
Omi, J., Kato, T., Yoshihama, Y., Sawada, K., Kono, N. and Aoki, J. Phosphatidylserine synthesis controls oncogenic B cell receptor signaling in B cell lymphoma. J. Cell. Biol., 223, e202212074 (2023); DOI.
Pagano, C., Savarese, B., Coppola, L., Navarra, G., Avilia, G., Laezza, C. and Bifulco, M. Cannabinoids in the modulation of oxidative signaling. Int. J. Mol. Sci., 24, 2513 (2023); DOI.
Pagura, L. and others. Fatty acid elongases 1-3 have distinct roles in mitochondrial function, growth, and lipid homeostasis in Trypanosoma cruzi. J. Biol. Chem., 299, 104715 (2023); DOI.
Pan, J.Y., Chen, M.Q., Li, N., Han, R.W., Yang, Y.X., Zheng, N., Zhao, S.G. and Zhang, Y.D. Bioactive functions of lipids in the milk fat globule membrane: a comprehensive review. Foods, 12, 3755 (2023); DOI.
Pan, X.Y., Dutta, D., Lu, S.Z. and Bellen, H.J. Sphingolipids in neurodegenerative diseases. Front. Neurosci., 17, 1137893 (2023); DOI.
Papin, M., Bouchet, A.M., Chantôme, A. and Vandier, C. Ether-lipids and cellular signaling: A differential role of alkyl- and alkenyl-ether-lipids? Biochimie, 215, 50-59 (2023); DOI.
Paredes, A. and others ?-Linolenic acid in maternal milk drives cardiac metabolic maturation. Nature, 618, 365-373 (2023); DOI.
Parente, M., Tonini, C., Segatto, M. and Pallottini, V. Regulation of cholesterol metabolism: New players for an old physiological process. J. Cell. Biochem., 124, 1449-1465 (2023); DOI.
Park, J., Roh, J., Pan, J.Y., Kim, Y.H., Park, C.K. and Jo, Y.Y. Role of resolvins in inflammatory and neuropathic pain. Pharmaceuticals, 16, 1366 (2023); DOI.
Patrono, C. Fifty years with aspirin and platelets. Brit. J. Pharm., 180, 25-43 (2023); DOI.
Perretti. M. and Dalli, J. Resolution pharmacology: focus on pro-resolving annexin A1 and lipid mediators for therapeutic innovation in inflammation. Annu. Rev. Pharm. Toxic., 63, 449-469 (2023); DOI.
Pfrieger, F.W. The Niemann-Pick type diseases-A synopsis of inborn errors in sphingolipid and cholesterol metabolism. Prog. Lipid Res., 90, 101225 (2023); DOI.
Piccoli, M. and 11 others. Sphingolipids and atherosclerosis: the dual role of ceramide and sphingosine-1-phosphate. Antioxidants, 12, 143 (2023); DOI.
Pierce, M.R. and Hougland, J.L. A rising tide lifts all MBOATs: recent progress in structural and functional understanding of membrane bound O-acyltransferases. Front. Physiol., 14, 1167873 (2023); DOI.
Pilátová, M.B., Solárová, Z., Mezencev, R. and Solár, P. Ceramides and their roles in programmed cell death. Adv. Med. Sci., 68, 417-425 (2023); DOI.
Platt, F.M. The expanding boundaries of sphingolipid lysosomal storage diseases; insights from Niemann-Pick disease type C. Biochem. Soc. Trans., 51, 1777-1787 (2023); DOI.
Podgorski, P.B., Przybylkowski, A. and Nehring, P. Bile composition-which components can have clinical significance? A review of the literature. J. Gastroint. Liver Dis., 32, 110-117 (2023); DOI.
Pokrovsky, V.S., Ivanova-Radkevich, V.I. and Kuznetsova, O.M. Sphingolipid metabolism in tumor cells. Biochemistry (Moscow), 88, 847-866 (2023); DOI.
Pope, L.E. and Dixon, S.J. Regulation of ferroptosis by lipid metabolism. Trends Cell Biol., 33, 1077-1087 (2023); DOI.
Powis, G., Meuillet, E.J., Indarte, M., Booher, G. and Kirkpatrick, L. Pleckstrin Homology [PH] domain, structure, mechanism, and contribution to human disease. Biomed. Pharmacotherapy, 165, 115024 (2023); DOI.
Prado, L.G., Camara, N.O.S. and Barbosa, A.S. Cell lipid biology in infections: an overview. Front. Cell. Infect. Microbiol., 13, 1148383 (2023); DOI.
Prithviraj, M. and others. Tuberculostearic acid controls mycobacterial membrane compartmentalization. mBio, 14, e0339622 (2023); DOI.
Qi, X.H., Liu, W., He, X. and Du, C.M. A review on surfactin: molecular regulation of biosynthesis. Arch. Microbiol., 205, 313 (2023); DOI.
Qin, J.L., Ye, L., Wen, X.Q., Zhang, X., Di, Y.Q., Chen, Z.H. and Wang, Z.Y. Fatty acids in cancer chemoresistance. Cancer Letts, 572, 216352 (2023); DOI.
Qin, Z.X., Wang, T.Y., Zhao, Y.X., Ma, C.L. and Shao, Q. Molecular machinery of lipid droplet degradation and turnover in plants. Int. J. Mol. Sci., 24, 16039 (2023); DOI.
Rameh, L.E. and Blind, R.D. 25 Years of PI5P. Front. Cell Developm. Biol., 11, 1272911 (2023); DOI.
Ramos-Llorens, M., Hontoria, F., Navarro, J.C., Ferrier, D.E.K. and Monroig, O. Functionally diverse front-end desaturases are widespread in the phylum Annelida. Biochim. Biophys. Acta, Lipids, 1868, 159377 (2023); DOI.
Ranea-Robles, P. and Houten, S.M. The biochemistry and physiology of long-chain dicarboxylic acid metabolism. Biochem. J., 480, 607-627 (2023); DOI.
Reboul, R. Proteins involved in fat-soluble vitamin and carotenoid transport across the intestinal cells: New insights from the past decade. Prog. Lipid Res., 89, 101208 (2023); DOI.
Rehman, M. and others. The multifaceted role of jasmonic acid in plant stress mitigation: an overview. Plants-Basel, 12, 3982 (2023); DOI.
Reinertsen, A.F., Libreros, S., Nshimiyimana, R., Serhan, C.N. and Hansen, T.V. Metabolization of resolvin E4 by ?-oxidation in human neutrophils: synthesis and biological evaluation of 20-hydroxy-resolvin E4 (20-OH-RvE4). ACS Pharm. Transl. Sci., 6, 1898-1908 (2023); DOI.
Rezanka, T., Kyselová, L. and Murphy, D.J. Archaeal lipids. Prog. Lipid Res., 91, 101237 (2023); DOI.
Ridlon, J.M., Daniel, S.L. and Gaskins, H.R. The Hylemon-Björkhem pathway of bile acid 7-dehydroxylation: history, biochemistry, and microbiology. J. Lipid Res., 64, 100392 (2023); DOI.
Rochette, L., Dogon, G., Rigal, E., Zeller, M., Cottin, Y. and Vergely, C. Lipid peroxidation and iron metabolism: two corner stones in the homeostasis control of ferroptosis. Int. J. Mol. Sci., 24, 449 (2023); DOI.
Rodencal, J. and Dixon, S.J. A tale of two lipids: Lipid unsaturation commands ferroptosis sensitivity. Proteomics, 23, e2100308 (2023); DOI.
Romano, K.P. and Hung, D. Targeting LPS biosynthesis and transport in gram-negative bacteria in the era of multi-drug resistance. Biochim. Biophys. Acta, Mol. Cell Res., 1870, 119407 (2023); DOI.
Ryan, E., Joyce, S.A. and Clarke, D.J. Membrane lipids from gut microbiome- associated bacteria as structural and signalling molecules. Microbiology-SGM, 169, 1315 (2023); DOI.
Sacher, S., Mukherjee, A. and Ray, A. Deciphering structural aspects of reverse cholesterol transport: mapping the knowns and unknowns. Biol. Rev., 98, 1160-1183 (2023); DOI.
Safaroghli-Azar, A., Sanaei, M.J., Pourbagheri-Sigaroodi, A. and Bashash, D. Phosphoinositide 3-kinase (PI3K) classes: From cell signaling to endocytic recycling and autophagy. Eur. J. Pharm., 953, 175827 (2023); DOI.
Safi, R., Sanchez-Alvarez, M., Bosch, M., Demangel, C., Parton, R.G. and Pol, A. Defensive-lipid droplets: Cellular organelles designed for antimicrobial immunity. Immun. Rev., 317, 113-136 (2023); DOI.
Sakamaki, J.I. and Mizushima, N. Cell biology of protein-lipid conjugation. Cell Struct. Function, 48, 99-112 (2023); DOI.
Salisbury, L.J., Fletcher, S.J., Stok, J.E., Churchman, L.R., Blanchfield, J.T. and De Voss, J.J. Characterization of the cholesterol biosynthetic pathway in Dioscorea transversa. J. Biol. Chem., 299, 104768 (2023); DOI.
Salo, V.T. Seipin-still a mysterious protein? Front. Cell Developm. Biol., 11, 1112954 (2023); DOI.
Samovski, D., Jacome-Sosa, M. and Abumrad, N.A. Fatty acid transport and signaling: mechanisms and physiological implications. Annu. Rev. Physiol., 85, 317-337 (2023); DOI.
Sakuragi, T. and Nagata, S. Regulation of phospholipid distribution in the lipid bilayer by flippases and scramblases. Nature Rev. Mol. Cell Biol., 24, 576-596 (2023); DOI.
Sánchez, R.R., Bandi, S., Scheidt, M.D., Laaroussi, H., Fox, B.W., Ishida, Y., Glauser, G., Sutour, S. and von Reuss, S.H. iso-Fatty acid metabolism in Caenorhabditis elegans' ceramide biosynthesis. Helv. Chim. Acta, 106, e202300131 (2023); DOI.
Sánchez-García, S., Jaén, R.I., Fernández-Velasco, M., Delgado, C., Boscá, L. and Prieto, P. Lipoxin-mediated signaling: ALX/FPR2 interaction and beyond. Pharmacol. Res., 197, 106982 (2023); DOI.
Sapon, K., Manka, R., Janas, T. and Janas, T. The role of lipid rafts in vesicle formation. J. Cell Sci., 136, jcs260887 (2023); DOI.
Sar, P., Kundu, S., Ghosh, A. and Saha, B. Natural surfactant mediated bioremediation approaches for contaminated soil. RSC Adv., 13, 30586-30605 (2023); DOI.
Sarkar, A., Banerjee, S. and Biswas, K. Multi-dimensional role of gangliosides in modulating cancer hallmarks and their prospects in targeted cancer therapy. Front. Pharm., 14, 1282572 (2023); DOI.
Sarparast, M. and others. Dihydroxy-metabolites of dihomo-gamma-linolenic acid drive ferroptosis-mediated neurodegeneration. ACS Central Sci., 9, 870-882 (2023); DOI.
Sarvananda, L., Mendis, B.I.L.M., Madhuranga, H.D.T. and Premarathna, A.D. Mitochondrial fatty acid synthesis in plants: enzymes and biological roles. Mod. Phytomorph., 17, 41-49 (2023); DOI.
Savitskaya, A., Masso-Silva, J., Haddaoui, I. and Enany, S. Exploring the arsenal of antimicrobial peptides: Mechanisms, diversity, and applications. Biochimie, 214B, 216-227 (2023); DOI.
Schäfer, J.H. and others. Structure of the ceramide-bound SPOTS complex. Nature Commun., 14, 6196 (2023); DOI.
Schengrund, C.L. The ying and yang of ganglioside function in cancer. Cancers, 15, 5362 (2023); DOI.
Schmid, A., Karrasch, T. and Schäffler, A. The emerging role of bile acids in white adipose tissue Trends Endocrin. Metab., 11, 718-734 (2023); DOI.
Schnaar, R.L. Gangliosides as Siglec ligands. Glycoconjugate J., 40, 159-167 (2023); DOI.
Schulz, C. and others. Control of lipid metabolism by the dynamic and nutrient-dependent post-translational modification O-GlcNAcylation. Natural Sci., 3, e20220006 (2023); DOI.
Serezani, C.H., Divangahi, M. and Peters-Golden, M. Leukotrienes in innate immunity: still underappreciated after all these years? J. Immun., 210, 221-227 (2023); DOI.
Serhan, C.N. and Chiang, N. Resolvins and cysteinyl-containing pro-resolving mediators activate resolution of infectious inflammation and tissue regeneration. Prostaglandins Other Lipid Mediators, 166, 106718 (2023); DOI.
Shi, Q.W., Zhan, T.Z., Bi, X.B., Ye, B.C. and Qi, N. Cholesterol-autoxidation metabolites in host defense against infectious diseases. Eur. J. Immunol., e2350501 (2023); DOI.
Shi, Y., Ruan, H.F., Xu, Y.N. and Zou, C.L. Cholesterol, eukaryotic lipid domains, and an evolutionary perspective of transmembrane signaling. Cold Spring Harbor Persp. Biol., 15, a041418 (2023); DOI.
Shidoji, Y. Geranylgeranoic acid, a bioactive and endogenous fatty acid in mammals: a review. J. Lipid Res., 64, 100396 (2023); DOI.
Shiratori, H., Oguchi, H., Isobe, Y., Han, K.H., Sen, A., Yakebe, K., Takahashi, D., Fukushima, M., Arita, M. and Hase, K. Gut microbiota-derived lipid metabolites facilitate regulatory T cell differentiation. Sci. Rep., 13, 8903 (2023); DOI.
Shoma, J.F., Ernan, B., Keiser, G., Heiss, C., Azadi, P. and Free, S.J. Genetic characterization of the acidic and neutral glycosphingolipid biosynthetic pathways in Neurospora crassa. Microorganisms, 11, 2093 (2023); DOI.
Siddiqui, A.J. and others. Therapeutic role of ELOVL in neurological diseases. ACS Omega, 8, 9764-9774 (2023); DOI.
Siebold, C. and Rohatgi, R. The inseparable relationship between cholesterol and hedgehog signaling. Annu. Rev. Biochem., 92, 273-298 (2023); DOI.
Sikorskaya, T.V. Coral lipidome: molecular species of phospholipids, glycolipids, betaine lipids, and sphingophosphonolipids Marine Drugs, 21, 335 (2023); DOI.
Simard, M., Tremblay, A., Morin, S., Rioux, G., Flamand, N. and Pouliot, R. N-Eicosapentaenoyl-ethanolamine decreases the proliferation of psoriatic keratinocytes in a reconstructed psoriatic skin model. Sci. Rep., 13, 12113 (2023); DOI.
Singh, A., Kukal, S., Kanojia, N., Singh, M., Saso, L., Kukreti, S. and Kukreti, R. Lipid mediated brain disorders: A perspective. Prostaglandins Other Lipid Mediators, 167, 106737 (2023); DOI.
Situmorang, J.H., Chen, M.C., Kuo, W.W., Lin, S.Z., Shih, C.Y., Lin, P.Y., Loh, C.H. and Huang, C.Y. 9-POHSA prevents NF-kB activation and ameliorates LPS-induced inflammation in rat hepatocytes. Lipids, 58, 241-249 (2023); DOI.
Skotland, T., Llorente, A. and Sandvig, K. Lipids in extracellular vesicles: what can be learned about membrane structure and function? Cold Spring Harbor Persp. Biol., 15, a041415 (2023); DOI.
Smith, S.O. Mechanism of activation of the visual receptor rhodopsin. Annu. Rev. Biophys., 52, 301-317 (2023); DOI.
Song, W.X. and others. The lipoprotein lipase that is shuttled into capillaries by GPIHBP1 enters the glycocalyx where it mediates lipoprotein processing. Proc. Natl. Acad. Sci. USA, 120, e2313825120 (2023); DOI.
Sonnino, S. The relationship between depletion of brain GM1 ganglioside and Parkinson's disease. FEBS Open Bio, 13, 1548-1557 (2023); DOI.
Sood, M. Jasmonates: the master switch for regulation of developmental and stress responses in plants. J. Plant Growth Reg., 42, 1-19 (2023); DOI.
Spanos, F. and Deleidi, M. Glycolipids in Parkinson's disease: beyond neuronal function. FEBS Open Bio, 13, 1558-1579 (2023); DOI.
Sreedharan, S.M., Rishi, N. and Singh, R. Microbial lipopeptides: Properties, mechanics and engineering for novel lipopeptides. Microbiol. Res., 271, 127363 (2023); DOI.
St Germain, M., Iraji, R. and Bakovic, M. Phosphatidylethanolamine homeostasis under conditions of impaired CDP-ethanolamine pathway or phosphatidylserine decarboxylation. Front. Nutr., 9, 1094273 (2023); DOI.
Staquicini, D.I. and others. Ceramide as an endothelial cell surface receptor and a lung-specific lipid vascular target for circulating ligands. Proc. Natl. Acad. Sci. USA, 120, e2220269120 (2023); DOI.
Steck, T.L. and Lange, Y. Is reverse cholesterol transport regulated by active cholesterol? J. Lipid Res., 64, 100385 (2023); DOI.
Storch, J. and Corsico, B. The multifunctional family of mammalian fatty acid-binding proteins. Annu. Rev. Nutr., 43, 25-54 (2023); DOI.
Stribny, J. and Schneiter, R. Binding of perilipin 3 to membranes containing diacylglycerol is mediated by conserved residues within its PAT domain. J. Biol. Chem., 299, 105384 (2023); DOI.
Subramanian, C., Yun, M.K., Frank, M.M. and Rock, C.O. Lysophosphatidylglycerol (LPG) phospholipase D maintains membrane homeostasis in Staphylococcus aureus by converting LPG to lysophosphatidic acid. J. Biol. Chem., 299, 104863 (2023); DOI.
Sugahara, S., Ishino, Y., Sawada, K., Iwata, T., Shimanaka, Y., Aoki, J., Arai, H. and Kono, N. Disease-related PSS1 mutant impedes the formation and function of osteoclasts. J. Lipid Res., 64, 100443 (2023); DOI.
Sugasini, D and others. Improvement of retinal function in Alzheimer disease-associated retinopathy by dietary lysophosphatidylcholine-EPA/DHA. Sci. Rep., 13, 9179 (2023); DOI.
Sun, H.R. and others. LPGAT1 controls MEGDEL syndrome by coupling phosphatidylglycerol remodeling with mitochondrial transport. Cell Rep., 42, 113214 (2023); DOI.
Sun, Q. and others. Cholesterol mediated ferroptosis suppression reveals essential roles of Coenzyme Q and squalene. Commun. Biol., 6, 1108 (2023); DOI.
Sun, Y., Orduna, A.R., Zhang, Z., Feakins, S.J. and Jetter, R. Biosynthesis of barley wax β-diketones: a type-III polyketide synthase condensing two fatty acyl units Nature Commun., 10, 7284 (2023); DOI.
Suzuki, R., Murakami, C., Dilimulati, K., Atsuta-Tsunoda, K., Kawai, T. and Sakane, F. Human sphingomyelin synthase 1 generates diacylglycerol in the presence and absence of ceramide via multiple enzymatic activities. FEBS Letts, 597, 2672-2686 (2023); DOI.
Szrok-Jurga, S., Czumaj, A., Turyn, J., Hebanowska, A., Swierczynski, J., Sledzinski, T. and Stelmanska, E. The physiological and pathological role of acyl-CoA oxidation. Int. J. Mol. Sci., 24, 14857 (2023); DOI.
Szrok-Jurga, S., Turyn, J., Hebanowska, A., Swierczynski, J., Czumaj, A., Sledzinski, T. and Stelmanska, E. The role of acyl-coA β-oxidation in brain metabolism and neurodegenerative diseases. Int. J. Mol. Sci., 24, 13977 (2023); DOI.
Takala, R., Ramji, D.P. and Choy, E. The beneficial effects of pine nuts and its major fatty acid, pinolenic acid, on inflammation and metabolic perturbations in inflammatory disorders. Int. J. Mol. Sci., 24, 1171 (2023); DOI.
Tanabe, T.S., Grosser, M., Hahn, L., Kumpel, C., Hartenfels, H., Vtulkin, E., Flegler, W. and Dahl, C. Identification of a novel lipoic acid biosynthesis pathway reveals the complex evolution of lipoate assembly in prokaryotes. PLOS Biol., 21, e3002177 (2023); DOI.
Teicholz, N. A short history of saturated fat: the making and unmaking of a scientific consensus. Curr. Opinion Endocrin. Diab. Obes., 30, 65-71 (2023); DOI.
Thakur, N. and others. Anionic phospholipids control mechanisms of GPCR-G protein recognition. Nature Commun., 14, 74 (2023); DOI.
Thomas, S., Samuel, S.V., Hoch, A., Syphurs, C. and Diray-Arce, J. The implication of sphingolipids in viral infections. Int. J. Mol. Sci., 24, 17303 (2023); DOI.
Traber, M.G. and Cross, C.E. Alpha-tocopherol from people to plants is an essential cog in the metabolic machinery. Antiox. Redox Signal., 38, 775-791 (2023); DOI.
Trammell, S.A.J and others. Identification of bile acid-CoA:amino acid N-acyltransferase as the hepatic N-acyl taurine synthase for polyunsaturated fatty acids. J. Lipid Res., 64, 100361 (2023); DOI.
Tsukahara, T., Imamura, S. and Morohoshi, T. A review of cyclic phosphatidic acid and other potential therapeutic targets for treating osteoarthritis. Biomedicines, 11, 2790 (2023); DOI.
Tsuzuki, H., Kitaoka, N., Inoue, S., Takahashi, K. and Matsuura, H. Airborne methyl jasmonate is metabolized to jasmonic acid and 12-hydroxyjasmonic acid and induces jasmonate biosynthesis in Marchantia polymorpha. Chemistryselect, 8, e202300117 (2023); DOI.
Tu, T., Zhang, H.Y. and Xu, H.J. Targeting sterol-O-acyltransferase 1 to disrupt cholesterol metabolism for cancer therapy. Front. Oncol., 13, 1197502 (2023); DOI.
Tzou, F.Y., Hornemann, T., Yeh, J.Y. and Huang, S.Y. The pathophysiological role of dihydroceramide desaturase in the nervous system. Prog. Lipid Res., 91, 101236 (2023); DOI.
Upender, I. and others. A marine-derived fatty acid targets the cell membrane of Gram-positive bacteria. J. Bact., 205, e00310-23 (2023); DOI.
Usmani, S.A., Kumar, M., Arya, K., Ali, B., Bhardwaj, N., Gaur, N.A., Prasad, R. and Singh, A. Beyond membrane components: uncovering the intriguing world of fungal sphingolipid synthesis and regulation. Res. Microbiol., 174, 104087 (2023); DOI.
Valentine, W.J., Shimizu, T. and Shindou, H. Lysophospholipid acyltransferases orchestrate the compositional diversity of phospholipids. Biochimie, 215, 24-33 (2023); DOI.
Valgimigli, L. Lipid peroxidation and antioxidant protection. Biomolecules, 13, 1291 (2023); DOI.
van Echten-Deckert, G. The role of sphingosine 1-phosphate metabolism in brain health and disease. Pharmacol. Therapeut., 244, 108381 (2023); DOI.
Vasques, J.F., Goncalves, R.G.D., Da Silva, A.J., Martins, R.S., Gubert, F. and Mendez-Otero, R. Gangliosides in nervous system development, regeneration, and pathologies. Neural Regen. Res., 18, 81-86 (2023); DOI.
Vianey-Saban, C., Guffon, N., Fouilhoux, A. and Acquaviva, C. Fifty years of research on mitochondrial fatty acid oxidation disorders: The remaining challenges. J. Inher. Metab. Dis., 46, 848-873 (2023); DOI.
Vidalle, M.C. and others. Nuclear phosphoinositides as key determinants of nuclear functions. Biomolecules, 13, 1049 (2023); DOI.
Vit, O. and Petrák, J. Autotaxin and lysophosphatidic acid signalling: the pleiotropic regulatory network in cancer. Folia Biol., 69, 149-162 (2023); DOI.
Waehler, R. Fatty acids: facts vs. fiction. Int. J. Vitamin Nutr. Res., 93, 268-288 (2023); DOI.
Wang, J.Q., Ling, X., Wang, H.J. and Chen, F.E. α-Lipoic acid chemistry: the past 70 years. RSC Adv., 13, 36346-36363 (2023); DOI.
Wang, K. and others. The structure of phosphatidylinositol remodeling MBOAT7 reveals its catalytic mechanism and enables inhibitor identification. Nature Commun., 14, 3533 (2023); DOI.
Wang, M.L., Fan, X.L. and Ding, F. Jasmonate: a hormone of primary importance for temperature stress response in plants. Plants-Basel, 12, 4080 (2023); DOI.
Wang, N., Li, J.Y., Zeng, B. and Chen, G.L. Sphingosine-1-phosphate signaling in cardiovascular diseases. Biomolecules, 13, 818 (2023); DOI.
Wang, X., Zhang, Z.F., Peng, W., Huang, J.Q., Yan, X., Yao, W., Ouyang, J.X. and Li, S.B. Inositolphosphorylceramide synthases, OsIPCSs, regulate plant height in rice. Plant Sci., 335, 111798 (2023); DOI.
Wang, X.Y., Yu, H., Gao, R., Liu, M. and Xie, W.L. A comprehensive review of the family of very-long-chain fatty acid elongases: structure, function, and implications in physiology and pathology. Eur. J. Med. Res., 28, 532 (2023); DOI.
Wang, Y., Chen, J. and Liu, X. A review on antimicrobial activity, anti-biofilm and synergistic effects of sophorolipids since their discovery. Appl. Biochem. Microbiol., 59, 580-596 (2023); DOI.
Wang, Y.L., Yang, H., Geerts, C., Furtos, A., Waters, P., Cyr, D., Wang, S.P. and Mitchell, G.A. The multiple facets of acetyl-CoA metabolism: Energetics, biosynthesis, regulation, acylation and inborn errors. Mol. Gen. Metab., 138, 106966 (2023); DOI.
Wang, Z., Ying, J., Zhang, X., Miao, C., Xiao, Y., Zou, J. and Chen, B. Small-molecule modulation of protein lipidation: from chemical probes to therapeutics. ChemBioChem, 24, e202300071 (2023); DOI.
Wang, Z.H., Yang, M., Yang, Y.F., He, Y.L. and Qian, H.W. Structural basis for catalysis of human choline/ethanolamine phosphotransferase 1. Nature Commun., 14. 2529 (2023); DOI.
Warren, W.G., Osborn, M., Yates, A., Wright, K. and O'Sullivan, S.E. The emerging role of fatty acid binding protein 5 (FABP5) in cancers. Drug Discovery Today, 28, 103628 (2023); DOI.
Watanabe, R. and others. Lysoglycosphingolipids have the ability to induce cell death through direct PI3K inhibition. J. Neurochem., 167, 753-765 (2023); DOI.
Weesner, J.A., Annunziata, I., van de Vlekkert, D. and d'Azzo, A. Glycosphingolipids within membrane contact sites influence their function as signaling hubs in neurodegenerative diseases. FEBS Open Bio, 13, 1587-1600 (2023); DOI.
Weigel, C., Bellaci, J. and Spiegel, S. Sphingosine-1-phosphate and its receptors in vascular endothelial and lymphatic barrier function. J. Biol. Chem., 299, 104775 (2023); DOI.
Welc-Stanowska, R. and others. How do xanthophylls protect lipid membranes from oxidative damage? J. Phys. Chem. Lett., 14, 7440-7444 (2023); DOI.
Wen, T.M., Thapa, N., Cryns, V.L. and Anderson, R.A. Regulation of phosphoinositide signaling by scaffolds at cytoplasmic membranes. Biomolecules, 13, 1297 (2023); DOI.
Whaley, S.G., Frank, M.W. and Rock, C.O. A short-chain acyl-CoA synthetase that supports branched-chain fatty acid synthesis in Staphylococcus aureus. J. Biol. Chem., 299, 103036 (2023); DOI.
Widomska, J., Subczynski, W.K., Welc-Stanowska, R. and Luchowski, R. An overview of lutein in the lipid membrane. Int. J. Mol. Sci., 24, 12948 (2023); DOI.
Wieczorek, I. and Strosznajder, R.P. Recent insight into the role of sphingosine-1-phosphate lyase in neurodegeneration. Int. J. Mol. Sci., 24, 6180 (2023); DOI.
Wheeler, J.J., Domenichiello, A.F., Jensen, J.R., Keyes, G.S., Maiden, K.M., Davis, J.D., Ramsden, C.E. and Mishra, S.K. Endogenous derivatives of linoleic acid and their stable analogs are potential pain mediators. JID Innovations 3, 100177 (2023); DOI.
Wu,Y., Lim, Y.-W. and Parton, R.G. Caveolae and the oxidative stress response. Biochem Soc Trans., 51, 1377-1385 (2023); DOI.
Xatse, M.A. and Olsen, C.P. Defining the glucosylceramide population of C. elegans. Front. Physiol., 14, 1244158 (2023); DOI.
Xatse, M.A., Vieira, A.F.C., Byrne, C. and Olsen, C.P. Targeted lipidomics reveals a novel role for glucosylceramides in glucose response. J. Lipid Res., 64, 100394 (2023); DOI.
Xia, W.H., Wang, H., Zhou, X.Z., Wang, Y., Xue, L.X., Cao, B.S. and Song, J.G. The role of cholesterol metabolism in tumor therapy, from bench to bed. Front. Pharm., 14, 928821 (2023); DOI.
Xiang, T.W., Deng, Z.H., Yang, C., Tan, J.L., Dou, C., Luo, F. and Chen, Y.Q. Bile acid metabolism regulatory network orchestrates bone homeostasis. Pharmacol. Res., 196, 106943 (2023); DOI.
Xiao, S.Q., Peng, K.X., Li, C.X., Long, Y.Y. and Yu, Q. The role of sphingosine-1-phosphate in autophagy and related disorders. Cell Death Disc., 9, 380 (2023); DOI.
Xie, T. and others. Ceramide sensing by human SPT-ORMDL complex for establishing sphingolipid homeostasis. Nature Commun., 14, 3475 (2023); DOI.
Xu, K.W., Zou, W., Peng, B., Guo, C. and Zou, X.T. Lipid droplets from plants and microalgae: characteristics, extractions, and applications. Biology-Basel, 12, 594 (2023); DOI.
Xu, T., Molday, L.L. and Molday, R.S. Retinal-phospholipid Schiff-base conjugates and their interaction with ABCA4, the ABC transporter associated with Stargardt disease. J. Biol. Chem., 299, 104614 (2023); DOI.
Xue, Q.Q. and others. Functions and mechanisms of protein lysine butyrylation (Kbu): Therapeutic implications in human diseases. Genes Diseases, 10, 2479-2490 (2023); DOI.
Yaginuma, S., Omi, J., Kano, K. and Aoki, J. Lysophospholipids and their producing enzymes: Their pathological roles and potential as pathological biomarkers. Pharmacol. Therapeut., 246, 108415 (2023); DOI.
Yaginuma, S., Omi, J., Uwamizu, A. and Aoki, J. Emerging roles of lysophosphatidylserine as an immune modulator. Immun. Rev., 317, 20-29 (2023); DOI.
Yamashita, S., Miyazawa, T., Higuchi, O., Kinoshita, M. and Miyazawa, T. Marine plasmalogens: a gift from the sea with benefits for age-associated diseases. Molecules, 28, 6328 (2023); DOI.
Yamazaki, A., Kawashima, A., Honda, T., Kohama, T., Murakami, C., Sakane, F., Murayama, T. and Nakamura, H. Identification and characterization of diacylglycerol kinase zeta as a novel enzyme producing ceramide-1-phosphate. Biochim. Biophys. Acta, Lipids, 1868, 159307 (2023); DOI.
Yan, R.H., Lin, B.Y., Jin, W.W., Tang, L., Hu, S.M. and Cai, R. NRF2, a superstar of ferroptosis. Antioxidants, 12, 1739 (2023); DOI.
Yanagida, K. and Shimizu, T. Lysophosphatidic acid, a simple phospholipid with myriad functions. Pharmacol. Therapeut., 246, 108421 (2023); DOI.
Yang, B.Y., Wang, J., Zheng, X. and Wang, X. Nematode pheromones: structures and functions. Molecules, 28, 2409 (2023); DOI.
Yang, J.Y., Zhang, T.T., Yu, Z.L., Li, X.Y., Zhao, Y.C., Mao, X.Z., Wang, Y.M. and Xue, C.H. Phosphatidylglucose alleviates atherosclerosis by increasing cholesterol alienation to bile acids and cholesterol efflux in ApoE(-/-) mice. J. Sci. Food Agric., 103, 5529-5538 (2023); DOI.
Yang, L.G., March, Z.M., Stephenson, R.A. and Narayan, P.S. Apolipoprotein E in lipid metabolism and neurodegenerative disease. Trends Endocrinol. Metab., 34, 430-445 (2023); DOI.
Yaraguppi, D.A., Bagewadi, Z.K., Patil, N.R. and Mantri, N. Iturin: a promising cyclic lipopeptide with diverse applications. Biomolecules, 13, 1515 (2023); DOI.
Yeo, X.Y., Tan, L.Y., Chae, W.R., Lee, D.Y., Lee, Y.A., Wuestefeld, T. and Jung, S.Y. Liver's influence on the brain through the action of bile acids. Front. Neurosci., 17, 1123967 (2023); DOI.
Yokomizo, T. and Shimizu, T. The leukotriene B-4 receptors BLT1 and BLT2 as potential therapeutic targets. Immun. Rev., 317, 30-41 (2023); DOI.
Yousefi, P., Gholami, A., Mehrjo, M., Razizadeh, M.H., Akhavan, M., Karampoor, S. and Tabibzadeh, A. The role of cholesterol 25-hydroxylase in viral infections: Mechanisms and implications. Pathol. Res. Practice, 249, 154783 (2023); DOI.
Yu, D. and others. Soluble epoxide hydrolase derived linoleic acid oxylipins, small vessel disease markers, and neurodegeneration in stroke. J. Am. Heart Assoc., 12, e026901 (2023); DOI.
Yuan, H.Q., Zhu, B., Li, C. and Zhao, Z.G. Ceramide in cerebrovascular diseases. Front. Cell. Neurosci., 17, 1191609 (2023); DOI.
Zadoorian, A., Du, X. and Yang, H. Lipid droplet biogenesis and functions in health and disease. Nature Rev. Endocrin., 19, 443-459 (2023); DOI.
Zarreen, F., Kumar, K. and Chakraborty, S. Phosphoinositides in plant-pathogen interaction: trends and perspectives. Stress Biol., 3, 4 (2023); DOI.
Zeng, Y. and Fu, B.M. Sphingolipids and their carriers. Curr. Opinion Physiol., 34, 100671 (2023); DOI.
Zhang, J.L., Zhu, Y.H., Wang, X.J. and Wang, J.F. 25-hydroxycholesterol: an integrator of antiviral ability and signaling. Front. Immun., 14, 1268104 (2023); DOI.
Zhang, L., Liu, J., Xiao, E., Han, Q.Z. and Wang, L. Sphingosine-1-phosphate related signalling pathways manipulating virus replication. Rev. Med. Virol., 33, e2415 (2023); DOI.
Zhang, L.C. and Xie, J.R. Biosynthesis, structure and biological function of cholesterol glucoside in Helicobacter pylori: A review. Medicine, 102, e34911 (2023); DOI.
Zhang, L.L. and Wang, X.D. Characteristics of long-chain acyl-CoA synthetases in metabolism and cancer. Clin. Transl. Disc., 3, e200 (2023); DOI.
Zhang, S.Y., Chen, Y.L., Zhu, J., Lu, Q.J., Cryle, M.J., Zhang, Y.M. and Yan, F. Structural diversity, biosynthesis, and biological functions of lipopeptides from Streptomyces. Nat. Prod. Rep., 40, 557-594 (2023); DOI.
Zhang, T.Q., Lyu, J., Zhu, Y. and Laganowsky, A. Cardiolipin regulates the activity of the mitochondrial ABC transporter ABCB10. Biochemistry, 62, 3159-3165 (2023); DOI.
Zhang, X.R. and Zhang, H.T. Pro-resolving and anti-inflammatory effects of resolvins and protectins in rheumatoid arthritis. Inflammopharmacology, 31, 2995-3004 (2023); DOI.
Zhang, Y., Jen, F.E.C., Fox, K.L., Edwards, J.L. and Jennings, M.P. The biosynthesis and role of phosphorylcholine in pathogenic and nonpathogenic bacteria. Trends Microbiol., 31, 692-706 (2023); DOI.
Zhang, Y.Q., Berman, A. and Shani, E. Plant hormone transport and localization: signaling molecules on the move. Annu. Rev. Plant Biol., 74, 453-479 (2023); DOI.
Zhang, Y.X. and Beachy, P.A. Cellular and molecular mechanisms of Hedgehog signalling. Nature Rev. Mol. Cell Biol., 24, 668-687 (2023); DOI.
Zhang, Z.W., Ji, C.H., Wang, D.B., Wang, M.S., She, X., Song, D.W., Xu, X. and Zhang, D.J. Maresin1: A multifunctional regulator in inflammatory bone diseases. Int. Immunopharm., 120, 110308 (2023); DOI.
Zhao, M.M., Zheng, Z.H., Yin, Z., Zhang, J.S., Qin, J.J., Wan, J. and Wang, M.L. Resolvin D2 and its receptor GPR18 in cardiovascular and metabolic diseases: A promising biomarker and therapeutic target. Pharmacol. Res., 195, 106832 (2023); DOI.
Zhao, Y.C., Zhang, Y.H., Li, J.Q., Zhang, N.X., Jin, Q.B., Qi, Y.X. and Song, P. Pathogenic sphingosine 1-phosphate pathway in psoriasis: a critical review of its pathogenic significance and potential as a therapeutic target. Lipids Health Dis., 22, 52 (2023); DOI.
Zhou, M.Z., Li, J.D., Xu, J.Y., Zheng, L.F. and Xu, S.T. Exploring human CYP4 enzymes: Physiological roles, function in diseases and focus on inhibitors. Drug Discovery Today, 28, 103560 (2023); DOI.
Zhou, X.M., Chi, K.J., Zhang, C.R., Liu, Q. and Yang, G.L. Sialylation: a cloak for tumors to trick the immune system in the microenvironment. Biology-Basel, 12, 832 (2023); DOI.
Zhu, X.M., Li, L., Bao, J.D., Wang, J.Y., Daskalov, A., Liu, X.H., Del Poeta, M. and Lin, F.C. The biological functions of sphingolipids in plant pathogenic fungi. PLOS Pathogens, 19, e1011733 (2023); DOI.
Zhuang, J.Y., Zhang, Y.C., Shu, H.C., Zhang, S.B., Zhao, W.W., Ward, N. and Wang, J. Phosphatidylserine in the nervous system: cytoplasmic regulator of the AKT and PKC signaling pathways and extracellular eat-me signal in microglial phagocytosis. Mol. Neurobiol., 60, 1050-1066 (2023); DOI.
Zhukova, N.V. Fatty acids of Echinoderms: diversity, current applications and future opportunities. Marine Drugs, 21, 21 (2023); DOI.
Zou, F., Wang, S., Xu, M.M., Wu, Z.R. and Deng, F.H. The role of sphingosine-1-phosphate in the gut mucosal microenvironment and inflammatory bowel diseases. Front. Physiol., 14, 1235656 (2023); DOI.

© Data compiled by Bill Christie
Updated: October 2^nd, 2024	Contact/credits/disclaimer