Estrogen Signals Through Peroxisome Proliferator-Activated Receptor−γ Coactivator 1α to Reduce Oxidative Damage Associated With Diet-Induced Fatty Liver Disease
Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and patients with NAFLD, hepatic expression of peroxisome proliferator-activated receptor−γ (PPARG) coactivator 1α (PPARGC1A or PGC1A) is invers...
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| Published in | Gastroenterology (New York, N.Y. 1943) Vol. 152; no. 1; pp. 243 - 256 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
01.01.2017
|
| Subjects | |
| Online Access | Get full text |
| ISSN | 0016-5085 1528-0012 |
| DOI | 10.1053/j.gastro.2016.09.017 |
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| Abstract | Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and patients with NAFLD, hepatic expression of peroxisome proliferator-activated receptor−γ (PPARG) coactivator 1α (PPARGC1A or PGC1A) is inversely correlated with liver fat and disease severity. A common polymorphism in this gene (rs8192678, encoding Gly482Ser) has been associated with NAFLD. We investigated whether reduced expression of PGC1A contributes to development of NAFLD using mouse models, primary hepatocytes, and human cell lines.
HepG2 cells were transfected with variants of PPARGC1A and protein and messenger RNA levels were measured. Mice with liver-specific hemizygous or homozygous disruption of Ppargc1a (Ppargc1af/+Alb-cre+/0 and Ppargc1af/f Alb-cre+/0 mice, respectively) were fed regular chow (control) or a high-fat diet supplemented with 30% d-fructose in drinking water (obesogenic diet) for 25–33 weeks. Liver tissues were analyzed by histology and by immunoblotting. Primary hepatocytes were analyzed for insulin signaling, reactive oxygen species, and estrogen response. Luciferase reporter expression was measured in transfected H2.35 cells expressing an estrogen receptor reporter gene, estrogen receptor 1, and/or PGC1A/B.
The serine 482 variant of the human PGC1A protein had a shorter half-life than the glycine 482 variant when expressed in HepG2 cells. Liver tissues from mice with liver-specific hemizygous disruption of Ppargc1a placed on an obesogenic diet expressed increased markers of inflammation and fibrosis and decreased levels of antioxidant enzymes compared with the Ppargc1a+/+ on the same diet. Oxidative damage was observed in livers from Ppargc1af/+Alb-cre+/0 mice of each sex, in a cell-autonomous manner, but was greater in livers from the female mice. Expression of PGC1A in H2.35 cells coactivated estrogen receptor 1 and was required for estrogen-dependent expression of genes that encode antioxidant proteins. These findings could account for the increased liver damage observed in female Ppargc1af/+Alb-cre+/0 mice; while, compensatory increases in PPARG coactivator 1β could prevent oxidative damage associated with complete loss of PGC1A expression in Ppargc1af/fAlb-cre+/0 female mice.
In mice, loss of estrogen signaling contributes to oxidative damage caused by low levels of PGC1A in liver, exacerbating steatohepatitis associated with diets high in fructose and fat. |
|---|---|
| AbstractList | Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and patients with NAFLD, hepatic expression of peroxisome proliferator-activated receptor-γ (PPARG) coactivator 1α (PPARGC1A or PGC1A) is inversely correlated with liver fat and disease severity. A common polymorphism in this gene (rs8192678, encoding Gly482Ser) has been associated with NAFLD. We investigated whether reduced expression of PGC1A contributes to development of NAFLD using mouse models, primary hepatocytes, and human cell lines.
HepG2 cells were transfected with variants of PPARGC1A and protein and messenger RNA levels were measured. Mice with liver-specific hemizygous or homozygous disruption of Ppargc1a (Ppargc1a
Alb-cre
and Ppargc1a
Alb-cre
mice, respectively) were fed regular chow (control) or a high-fat diet supplemented with 30% d-fructose in drinking water (obesogenic diet) for 25-33 weeks. Liver tissues were analyzed by histology and by immunoblotting. Primary hepatocytes were analyzed for insulin signaling, reactive oxygen species, and estrogen response. Luciferase reporter expression was measured in transfected H2.35 cells expressing an estrogen receptor reporter gene, estrogen receptor 1, and/or PGC1A/B.
The serine 482 variant of the human PGC1A protein had a shorter half-life than the glycine 482 variant when expressed in HepG2 cells. Liver tissues from mice with liver-specific hemizygous disruption of Ppargc1a placed on an obesogenic diet expressed increased markers of inflammation and fibrosis and decreased levels of antioxidant enzymes compared with the Ppargc1a
on the same diet. Oxidative damage was observed in livers from Ppargc1a
Alb-cre
mice of each sex, in a cell-autonomous manner, but was greater in livers from the female mice. Expression of PGC1A in H2.35 cells coactivated estrogen receptor 1 and was required for estrogen-dependent expression of genes that encode antioxidant proteins. These findings could account for the increased liver damage observed in female Ppargc1a
Alb-cre
mice; while, compensatory increases in PPARG coactivator 1β could prevent oxidative damage associated with complete loss of PGC1A expression in Ppargc1a
Alb-cre
female mice.
In mice, loss of estrogen signaling contributes to oxidative damage caused by low levels of PGC1A in liver, exacerbating steatohepatitis associated with diets high in fructose and fat. Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and patients with NAFLD, hepatic expression of peroxisome proliferator-activated receptor−γ (PPARG) coactivator 1α (PPARGC1A or PGC1A) is inversely correlated with liver fat and disease severity. A common polymorphism in this gene (rs8192678, encoding Gly482Ser) has been associated with NAFLD. We investigated whether reduced expression of PGC1A contributes to development of NAFLD using mouse models, primary hepatocytes, and human cell lines. HepG2 cells were transfected with variants of PPARGC1A and protein and messenger RNA levels were measured. Mice with liver-specific hemizygous or homozygous disruption of Ppargc1a (Ppargc1af/+Alb-cre+/0 and Ppargc1af/f Alb-cre+/0 mice, respectively) were fed regular chow (control) or a high-fat diet supplemented with 30% d-fructose in drinking water (obesogenic diet) for 25–33 weeks. Liver tissues were analyzed by histology and by immunoblotting. Primary hepatocytes were analyzed for insulin signaling, reactive oxygen species, and estrogen response. Luciferase reporter expression was measured in transfected H2.35 cells expressing an estrogen receptor reporter gene, estrogen receptor 1, and/or PGC1A/B. The serine 482 variant of the human PGC1A protein had a shorter half-life than the glycine 482 variant when expressed in HepG2 cells. Liver tissues from mice with liver-specific hemizygous disruption of Ppargc1a placed on an obesogenic diet expressed increased markers of inflammation and fibrosis and decreased levels of antioxidant enzymes compared with the Ppargc1a+/+ on the same diet. Oxidative damage was observed in livers from Ppargc1af/+Alb-cre+/0 mice of each sex, in a cell-autonomous manner, but was greater in livers from the female mice. Expression of PGC1A in H2.35 cells coactivated estrogen receptor 1 and was required for estrogen-dependent expression of genes that encode antioxidant proteins. These findings could account for the increased liver damage observed in female Ppargc1af/+Alb-cre+/0 mice; while, compensatory increases in PPARG coactivator 1β could prevent oxidative damage associated with complete loss of PGC1A expression in Ppargc1af/fAlb-cre+/0 female mice. In mice, loss of estrogen signaling contributes to oxidative damage caused by low levels of PGC1A in liver, exacerbating steatohepatitis associated with diets high in fructose and fat. Background & Aims Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and patients with NAFLD, hepatic expression of peroxisome proliferator-activated receptor−γ (PPARG) coactivator 1α (PPARGC1A or PGC1A) is inversely correlated with liver fat and disease severity. A common polymorphism in this gene (rs8192678, encoding Gly482Ser) has been associated with NAFLD. We investigated whether reduced expression of PGC1A contributes to development of NAFLD using mouse models, primary hepatocytes, and human cell lines. Methods HepG2 cells were transfected with variants of PPARGC1A and protein and messenger RNA levels were measured. Mice with liver-specific hemizygous or homozygous disruption of Ppargc1a ( Ppargc1af/+ Alb-cre+/0 and Ppargc1af/f Alb-cre+/0 mice, respectively) were fed regular chow (control) or a high-fat diet supplemented with 30% d -fructose in drinking water (obesogenic diet) for 25–33 weeks. Liver tissues were analyzed by histology and by immunoblotting. Primary hepatocytes were analyzed for insulin signaling, reactive oxygen species, and estrogen response. Luciferase reporter expression was measured in transfected H2.35 cells expressing an estrogen receptor reporter gene, estrogen receptor 1, and/or PGC1A/B. Results The serine 482 variant of the human PGC1A protein had a shorter half-life than the glycine 482 variant when expressed in HepG2 cells. Liver tissues from mice with liver-specific hemizygous disruption of Ppargc1a placed on an obesogenic diet expressed increased markers of inflammation and fibrosis and decreased levels of antioxidant enzymes compared with the Ppargc1a +/+ on the same diet. Oxidative damage was observed in livers from Ppargc1af/+ Alb-cre+/0 mice of each sex, in a cell-autonomous manner, but was greater in livers from the female mice. Expression of PGC1A in H2.35 cells coactivated estrogen receptor 1 and was required for estrogen-dependent expression of genes that encode antioxidant proteins. These findings could account for the increased liver damage observed in female Ppargc1af/+ Alb-cre+/0 mice; while, compensatory increases in PPARG coactivator 1β could prevent oxidative damage associated with complete loss of PGC1A expression in Ppargc1af/f Alb-cre+/0 female mice. Conclusions In mice, loss of estrogen signaling contributes to oxidative damage caused by low levels of PGC1A in liver, exacerbating steatohepatitis associated with diets high in fructose and fat. BACKGROUND & AIMSInefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and patients with NAFLD, hepatic expression of peroxisome proliferator-activated receptor-γ (PPARG) coactivator 1α (PPARGC1A or PGC1A) is inversely correlated with liver fat and disease severity. A common polymorphism in this gene (rs8192678, encoding Gly482Ser) has been associated with NAFLD. We investigated whether reduced expression of PGC1A contributes to development of NAFLD using mouse models, primary hepatocytes, and human cell lines.METHODSHepG2 cells were transfected with variants of PPARGC1A and protein and messenger RNA levels were measured. Mice with liver-specific hemizygous or homozygous disruption of Ppargc1a (Ppargc1af/+Alb-cre+/0 and Ppargc1af/f Alb-cre+/0 mice, respectively) were fed regular chow (control) or a high-fat diet supplemented with 30% d-fructose in drinking water (obesogenic diet) for 25-33 weeks. Liver tissues were analyzed by histology and by immunoblotting. Primary hepatocytes were analyzed for insulin signaling, reactive oxygen species, and estrogen response. Luciferase reporter expression was measured in transfected H2.35 cells expressing an estrogen receptor reporter gene, estrogen receptor 1, and/or PGC1A/B.RESULTSThe serine 482 variant of the human PGC1A protein had a shorter half-life than the glycine 482 variant when expressed in HepG2 cells. Liver tissues from mice with liver-specific hemizygous disruption of Ppargc1a placed on an obesogenic diet expressed increased markers of inflammation and fibrosis and decreased levels of antioxidant enzymes compared with the Ppargc1a+/+ on the same diet. Oxidative damage was observed in livers from Ppargc1af/+Alb-cre+/0 mice of each sex, in a cell-autonomous manner, but was greater in livers from the female mice. Expression of PGC1A in H2.35 cells coactivated estrogen receptor 1 and was required for estrogen-dependent expression of genes that encode antioxidant proteins. These findings could account for the increased liver damage observed in female Ppargc1af/+Alb-cre+/0 mice; while, compensatory increases in PPARG coactivator 1β could prevent oxidative damage associated with complete loss of PGC1A expression in Ppargc1af/fAlb-cre+/0 female mice.CONCLUSIONSIn mice, loss of estrogen signaling contributes to oxidative damage caused by low levels of PGC1A in liver, exacerbating steatohepatitis associated with diets high in fructose and fat. |
| Author | Besse-Patin, Aurèle Oropeza, Daniel Estall, Jennifer L. Léveillé, Mélissa Prat, Annik Nguyen, Bich N. |
| Author_xml | – sequence: 1 givenname: Aurèle orcidid: 0000-0002-1475-8723 surname: Besse-Patin fullname: Besse-Patin, Aurèle organization: Institut de Recherches Cliniques de Montreal, Montreal, Québec, Canada – sequence: 2 givenname: Mélissa surname: Léveillé fullname: Léveillé, Mélissa organization: Institut de Recherches Cliniques de Montreal, Montreal, Québec, Canada – sequence: 3 givenname: Daniel surname: Oropeza fullname: Oropeza, Daniel organization: Institut de Recherches Cliniques de Montreal, Montreal, Québec, Canada – sequence: 4 givenname: Bich N. surname: Nguyen fullname: Nguyen, Bich N. organization: Department of Pathology and Cell Biology, University of Montreal, Montreal, Québec, Canada – sequence: 5 givenname: Annik surname: Prat fullname: Prat, Annik organization: Laboratory of Biochemical Neuroendocrinology, Institut de Recherches Cliniques de Montreal, Montreal, Québec, Canada – sequence: 6 givenname: Jennifer L. orcidid: 0000-0002-9838-1440 surname: Estall fullname: Estall, Jennifer L. email: jennifer.estall@ircm.qc.ca organization: Institut de Recherches Cliniques de Montreal, Montreal, Québec, Canada |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/27658772$$D View this record in MEDLINE/PubMed |
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| Copyright | 2017 AGA Institute AGA Institute Copyright © 2017 AGA Institute. Published by Elsevier Inc. All rights reserved. |
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| IngestDate | Thu Sep 04 15:59:12 EDT 2025 Thu Apr 03 07:07:13 EDT 2025 Tue Jul 01 02:08:26 EDT 2025 Thu Apr 24 22:53:50 EDT 2025 Fri Feb 23 02:43:11 EST 2024 Tue Feb 25 20:05:15 EST 2025 Tue Aug 26 20:04:02 EDT 2025 |
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| Issue | 1 |
| Keywords | NAFLD mtDNA ALT mRNA NASH LKO 4-HNE SNP PGC1B ERA ROS PGC-1 qPCR LH HFHF WT non-alcoholic fatty liver disease alanine aminotransferase estrogen receptor-α non alcoholic steatohepatitis messenger RNA reactive oxygen species peroxisome proliferator-activated receptor−γ coactivator single-nucleotide polymorphism liver-specific knockout mitochondrial DNA quantitative polymerase chain reaction liver hemizygous high fat/high fructose wild type 4 hydroxynonenal |
| Language | English |
| License | Copyright © 2017 AGA Institute. Published by Elsevier Inc. All rights reserved. |
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| PMID | 27658772 |
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| PublicationDate | 2017-01-01 |
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| PublicationDate_xml | – month: 01 year: 2017 text: 2017-01-01 day: 01 |
| PublicationDecade | 2010 |
| PublicationPlace | United States |
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| PublicationTitle | Gastroenterology (New York, N.Y. 1943) |
| PublicationTitleAlternate | Gastroenterology |
| PublicationYear | 2017 |
| Publisher | Elsevier Inc |
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| Snippet | Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In rodent models and... Background & Aims Inefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In... BACKGROUND & AIMSInefficient fatty acid oxidation in mitochondria and increased oxidative damage are features of non-alcoholic fatty liver disease (NAFLD). In... |
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| SubjectTerms | Animals Dietary Fats - administration & dosage Estrogen Receptor alpha - metabolism Estrogens - metabolism Female Fructose - administration & dosage Gastroenterology and Hepatology Gene Expression Glutathione Peroxidase - metabolism Glutathione Peroxidase GPX1 Hemizygote Hep G2 Cells Hepatitis - genetics Hepatitis - metabolism Hepatocytes Humans Insulin - metabolism Integrases - genetics Male Mice Mice, Knockout NASH Non-alcoholic Fatty Liver Disease - genetics Non-alcoholic Fatty Liver Disease - metabolism Non-alcoholic Fatty Liver Disease - pathology Nuclear Proteins - metabolism Oxidative Stress Peroxiredoxins - metabolism Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha - genetics Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha - metabolism PGC-1 PGC1B Polymorphism, Single Nucleotide Reactive Oxygen Species - metabolism RNA, Messenger - metabolism ROS Sex Factors Signal Transduction Superoxide Dismutase - metabolism Transcription Factors - metabolism Transfection |
| Title | Estrogen Signals Through Peroxisome Proliferator-Activated Receptor−γ Coactivator 1α to Reduce Oxidative Damage Associated With Diet-Induced Fatty Liver Disease |
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