Lipid droplet membrane proteome remodeling parallels ethanol-induced hepatic steatosis and its resolution
Lipid droplets (LDs) are composed of neutral lipids enclosed in a phospholipid monolayer, which harbors membrane-associated proteins that regulate LD functions. Despite the crucial role of LDs in lipid metabolism, remodeling of LD protein composition in disease contexts, such as steatosis, remains p...
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| Published in: | Journal of lipid research Vol. 62; p. 100049 |
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| Format: | Journal Article |
| Language: | English |
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| Abstract | Lipid droplets (LDs) are composed of neutral lipids enclosed in a phospholipid monolayer, which harbors membrane-associated proteins that regulate LD functions. Despite the crucial role of LDs in lipid metabolism, remodeling of LD protein composition in disease contexts, such as steatosis, remains poorly understood. We hypothesized that chronic ethanol consumption, subsequent abstinence from ethanol, or fasting differentially affects the LD membrane proteome content and that these changes influence how LDs interact with other intracellular organelles. Here, male Wistar rats were pair-fed liquid control or ethanol diets for 6 weeks, and then, randomly chosen animals from both groups were either refed a control diet for 7 days or fasted for 48 h before euthanizing. From all groups, LD membrane proteins from purified liver LDs were analyzed immunochemically and by MS proteomics. Liver LD numbers and sizes were greater in ethanol-fed rats than in pair-fed control, 7-day refed, or fasted rats. Compared with control rats, ethanol feeding markedly altered the LD membrane proteome, enriching LD structural perilipins and proteins involved in lipid biosynthesis, while lowering LD lipase levels. Ethanol feeding also lowered LD-associated mitochondrial and lysosomal proteins. In 7-day refed (i.e., ethanol-abstained) or fasted-ethanol-fed rats, we detected distinct remodeling of the LD proteome, as judged by lower levels of lipid biosynthetic proteins, and enhanced LD interaction with mitochondria and lysosomes. Our study reveals evidence of significant remodeling of the LD membrane proteome that regulates ethanol-induced steatosis, its resolution after withdrawal and abstinence, and changes in LD interactions with other intracellular organelles. |
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| AbstractList | Lipid droplets (LDs) are composed of neutral lipids enclosed in a phospholipid monolayer, which harbors membrane-associated proteins that regulate LD functions. Despite the crucial role of LDs in lipid metabolism, remodeling of LD protein composition in disease contexts, such as steatosis, remains poorly understood. We hypothesized that chronic ethanol consumption, subsequent abstinence from ethanol, or fasting differentially affects the LD membrane proteome content and that these changes influence how LDs interact with other intracellular organelles. Here, male Wistar rats were pair-fed liquid control or ethanol diets for 6 weeks, and then, randomly chosen animals from both groups were either refed a control diet for 7 days or fasted for 48 h before euthanizing. From all groups, LD membrane proteins from purified liver LDs were analyzed immunochemically and by MS proteomics. Liver LD numbers and sizes were greater in ethanol-fed rats than in pair-fed control, 7-day refed, or fasted rats. Compared with control rats, ethanol feeding markedly altered the LD membrane proteome, enriching LD structural perilipins and proteins involved in lipid biosynthesis, while lowering LD lipase levels. Ethanol feeding also lowered LD-associated mitochondrial and lysosomal proteins. In 7-day refed (i.e., ethanol-abstained) or fasted-ethanol-fed rats, we detected distinct remodeling of the LD proteome, as judged by lower levels of lipid biosynthetic proteins, and enhanced LD interaction with mitochondria and lysosomes. Our study reveals evidence of significant remodeling of the LD membrane proteome that regulates ethanol-induced steatosis, its resolution after withdrawal and abstinence, and changes in LD interactions with other intracellular organelles. Lipid droplets (LDs) are composed of neutral lipids enclosed in a phospholipid monolayer, which harbors membrane-associated proteins that regulate LD functions. Despite the crucial role of LDs in lipid metabolism, remodeling of LD protein composition in disease contexts, such as steatosis, remains poorly understood. We hypothesized that chronic ethanol consumption, subsequent abstinence from ethanol, or fasting differentially affects the LD membrane proteome content and that these changes influence how LDs interact with other intracellular organelles. Here, male Wistar rats were pair-fed liquid control or ethanol diets for 6 weeks, and then, randomly chosen animals from both groups were either refed a control diet for 7 days or fasted for 48 h before euthanizing. From all groups, LD membrane proteins from purified liver LDs were analyzed immunochemically and by MS proteomics. Liver LD numbers and sizes were greater in ethanol-fed rats than in pair-fed control, 7-day refed, or fasted rats. Compared with control rats, ethanol feeding markedly altered the LD membrane proteome, enriching LD structural perilipins and proteins involved in lipid biosynthesis, while lowering LD lipase levels. Ethanol feeding also lowered LD-associated mitochondrial and lysosomal proteins. In 7-day refed (i.e., ethanol-abstained) or fasted-ethanol-fed rats, we detected distinct remodeling of the LD proteome, as judged by lower levels of lipid biosynthetic proteins, and enhanced LD interaction with mitochondria and lysosomes. Our study reveals evidence of significant remodeling of the LD membrane proteome that regulates ethanol-induced steatosis, its resolution after withdrawal and abstinence, and changes in LD interactions with other intracellular organelles.Lipid droplets (LDs) are composed of neutral lipids enclosed in a phospholipid monolayer, which harbors membrane-associated proteins that regulate LD functions. Despite the crucial role of LDs in lipid metabolism, remodeling of LD protein composition in disease contexts, such as steatosis, remains poorly understood. We hypothesized that chronic ethanol consumption, subsequent abstinence from ethanol, or fasting differentially affects the LD membrane proteome content and that these changes influence how LDs interact with other intracellular organelles. Here, male Wistar rats were pair-fed liquid control or ethanol diets for 6 weeks, and then, randomly chosen animals from both groups were either refed a control diet for 7 days or fasted for 48 h before euthanizing. From all groups, LD membrane proteins from purified liver LDs were analyzed immunochemically and by MS proteomics. Liver LD numbers and sizes were greater in ethanol-fed rats than in pair-fed control, 7-day refed, or fasted rats. Compared with control rats, ethanol feeding markedly altered the LD membrane proteome, enriching LD structural perilipins and proteins involved in lipid biosynthesis, while lowering LD lipase levels. Ethanol feeding also lowered LD-associated mitochondrial and lysosomal proteins. In 7-day refed (i.e., ethanol-abstained) or fasted-ethanol-fed rats, we detected distinct remodeling of the LD proteome, as judged by lower levels of lipid biosynthetic proteins, and enhanced LD interaction with mitochondria and lysosomes. Our study reveals evidence of significant remodeling of the LD membrane proteome that regulates ethanol-induced steatosis, its resolution after withdrawal and abstinence, and changes in LD interactions with other intracellular organelles. |
| ArticleNumber | 100049 |
| Author | Donohue, Terrence M. McNiven, Mark A. Kubik, Jacy L. Woods, Nicholas T. Frisbie, Cole P. Casey, Carol A. Kumar, Vikas Naldrett, Michael J. Thomes, Paul G. |
| Author_xml | – sequence: 1 givenname: Carol A. surname: Casey fullname: Casey, Carol A. organization: VA-Nebraska-Western Iowa Health Care System, Department of Veterans' Affairs, Omaha, NE, USA – sequence: 2 givenname: Terrence M. surname: Donohue fullname: Donohue, Terrence M. organization: VA-Nebraska-Western Iowa Health Care System, Department of Veterans' Affairs, Omaha, NE, USA – sequence: 3 givenname: Jacy L. surname: Kubik fullname: Kubik, Jacy L. organization: VA-Nebraska-Western Iowa Health Care System, Department of Veterans' Affairs, Omaha, NE, USA – sequence: 4 givenname: Vikas orcidid: 0000-0001-7513-6832 surname: Kumar fullname: Kumar, Vikas organization: Department of Genetics Cell Biology and Anatomy, University of Nebraska Medical Center, Omaha, NE, USA – sequence: 5 givenname: Michael J. surname: Naldrett fullname: Naldrett, Michael J. organization: Nebraska Center for Biotechnology, University of Nebraska-Lincoln, NE, USA – sequence: 6 givenname: Nicholas T. orcidid: 0000-0002-4962-9083 surname: Woods fullname: Woods, Nicholas T. organization: Eppley Institute, University of Nebraska Medical Center, Omaha, NE, USA – sequence: 7 givenname: Cole P. surname: Frisbie fullname: Frisbie, Cole P. organization: Department of Biochemistry and Molecular Biology, University of Nebraska Medical Center, Omaha, NE, USA – sequence: 8 givenname: Mark A. surname: McNiven fullname: McNiven, Mark A. organization: Department of Biochemistry and Molecular Biology, Mayo Clinic College of Medicine, Rochester, MN, USA – sequence: 9 givenname: Paul G. orcidid: 0000-0003-2158-7077 surname: Thomes fullname: Thomes, Paul G. email: paul.thomes@unmc.edu organization: VA-Nebraska-Western Iowa Health Care System, Department of Veterans' Affairs, Omaha, NE, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33617872$$D View this record in MEDLINE/PubMed |
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| Keywords | pATGL PLIN pHSL ACSM1 G0s2 fasting ACSM5 WB COXIV TM7SF2 FDR immunohistochemistry steatosis ATP6V0A1 lipid droplet Ethanol proteomics liver MS mitochondria TFEB CIDEB HSD17β13 HSC70 LSS HSD17β11 PCA TE LAL LD perilipins DHCR7 IPA LAMP HSD17β7 |
| Language | English |
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| SubjectTerms | Animals Ethanol fasting Fatty Liver - chemically induced Fatty Liver - metabolism Fatty Liver - pathology immunohistochemistry lipid droplet Lipid Droplets - metabolism Lipid Metabolism - drug effects liver Liver - drug effects Liver - metabolism Liver - pathology Male mitochondria perilipins Proteome - metabolism proteomics Rats Rats, Wistar steatosis |
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| Title | Lipid droplet membrane proteome remodeling parallels ethanol-induced hepatic steatosis and its resolution |
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