Combinations of an acetyl CoA carboxylase inhibitor with hepatic lipid modulating agents do not augment antifibrotic efficacy in preclinical models of NASH and fibrosis
Dysregulated hepatocyte lipid metabolism is a hallmark of hepatic lipotoxicity and contributes to the pathogenesis of nonalcoholic steatohepatitis (NASH). Acetyl CoA carboxylase (ACC) inhibitors decrease hepatocyte lipotoxicity by inhibiting de novo lipogenesis and concomitantly increasing fatty aci...
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| Published in | Hepatology communications Vol. 6; no. 9; pp. 2298 - 2309 |
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| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Wolters Kluwer Health Medical Research, Lippincott Williams & Wilkins
01.09.2022
John Wiley and Sons Inc Wolters Kluwer Health/LWW |
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| Abstract | Dysregulated hepatocyte lipid metabolism is a hallmark of hepatic lipotoxicity and contributes to the pathogenesis of nonalcoholic steatohepatitis (NASH). Acetyl CoA carboxylase (ACC) inhibitors decrease hepatocyte lipotoxicity by inhibiting de novo lipogenesis and concomitantly increasing fatty acid oxidation (FAO), and firsocostat, a liver‐targeted inhibitor of ACC1/2, is under evaluation clinically in patients with NASH. ACC inhibition is associated with improvements in indices of NASH and reduced liver triglyceride (TG) content, but also increased circulating TG in subjects with NASH and preclinical rodent models. Here we evaluated whether enhancing hepatocyte FAO by combining ACC inhibitors with peroxisomal proliferator‐activated receptor (PPAR) or thyroid hormone receptor beta (THRβ) agonists could drive greater liver TG reduction and NASH/antifibrotic efficacy, while ameliorating ACC inhibitor–induced hypertriglyceridemia. In high‐fat diet–fed dyslipidemic rats, the addition of PPAR agonists fenofibrate (Feno), elafibranor (Ela), lanifibranor (Lani), seladelpar (Sela) or saroglitazar (Saro), or the THRb agonist resmetirom (Res), to an analogue of firsocostat (ACCi) prevented ACCi‐induced hypertriglyceridemia. However, only PPARα agonists (Feno and Ela) and Res provided additional liver TG reduction. In the choline‐deficient high‐fat diet rat model of advanced liver fibrosis, neither PPARα (Feno) nor THRβ (Res) agonism augmented the antifibrotic efficacy of ACCi. Conclusion: These data suggest that combination therapies targeting hepatocyte lipid metabolism may have beneficial effects on liver TG reduction; however, they may not be sufficient to drive fibrosis regression.
Here we evaluated whether combinations of an acetyl CoA carboxylase inhibitor with agents that modulate hepatocyte lipotoxicity would synergistically decrease liver triglyceride and inhibit fibrosis progression in rodent models. Our data clearly demonstrate that some combinations have synergistically lower liver TG without inhibiting fibrosis progression. |
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| AbstractList | Dysregulated hepatocyte lipid metabolism is a hallmark of hepatic lipotoxicity and contributes to the pathogenesis of nonalcoholic steatohepatitis (NASH). Acetyl CoA carboxylase (ACC) inhibitors decrease hepatocyte lipotoxicity by inhibiting de novo lipogenesis and concomitantly increasing fatty acid oxidation (FAO), and firsocostat, a liver‐targeted inhibitor of ACC1/2, is under evaluation clinically in patients with NASH. ACC inhibition is associated with improvements in indices of NASH and reduced liver triglyceride (TG) content, but also increased circulating TG in subjects with NASH and preclinical rodent models. Here we evaluated whether enhancing hepatocyte FAO by combining ACC inhibitors with peroxisomal proliferator‐activated receptor (PPAR) or thyroid hormone receptor beta (THRβ) agonists could drive greater liver TG reduction and NASH/antifibrotic efficacy, while ameliorating ACC inhibitor–induced hypertriglyceridemia. In high‐fat diet–fed dyslipidemic rats, the addition of PPAR agonists fenofibrate (Feno), elafibranor (Ela), lanifibranor (Lani), seladelpar (Sela) or saroglitazar (Saro), or the THRb agonist resmetirom (Res), to an analogue of firsocostat (ACCi) prevented ACCi‐induced hypertriglyceridemia. However, only PPARα agonists (Feno and Ela) and Res provided additional liver TG reduction. In the choline‐deficient high‐fat diet rat model of advanced liver fibrosis, neither PPARα (Feno) nor THRβ (Res) agonism augmented the antifibrotic efficacy of ACCi. Conclusion: These data suggest that combination therapies targeting hepatocyte lipid metabolism may have beneficial effects on liver TG reduction; however, they may not be sufficient to drive fibrosis regression. Dysregulated hepatocyte lipid metabolism is a hallmark of hepatic lipotoxicity and contributes to the pathogenesis of nonalcoholic steatohepatitis (NASH). Acetyl CoA carboxylase (ACC) inhibitors decrease hepatocyte lipotoxicity by inhibiting de novo lipogenesis and concomitantly increasing fatty acid oxidation (FAO), and firsocostat, a liver‐targeted inhibitor of ACC1/2, is under evaluation clinically in patients with NASH. ACC inhibition is associated with improvements in indices of NASH and reduced liver triglyceride (TG) content, but also increased circulating TG in subjects with NASH and preclinical rodent models. Here we evaluated whether enhancing hepatocyte FAO by combining ACC inhibitors with peroxisomal proliferator‐activated receptor (PPAR) or thyroid hormone receptor beta (THRβ) agonists could drive greater liver TG reduction and NASH/antifibrotic efficacy, while ameliorating ACC inhibitor–induced hypertriglyceridemia. In high‐fat diet–fed dyslipidemic rats, the addition of PPAR agonists fenofibrate (Feno), elafibranor (Ela), lanifibranor (Lani), seladelpar (Sela) or saroglitazar (Saro), or the THRb agonist resmetirom (Res), to an analogue of firsocostat (ACCi) prevented ACCi‐induced hypertriglyceridemia. However, only PPARα agonists (Feno and Ela) and Res provided additional liver TG reduction. In the choline‐deficient high‐fat diet rat model of advanced liver fibrosis, neither PPARα (Feno) nor THRβ (Res) agonism augmented the antifibrotic efficacy of ACCi. Conclusion: These data suggest that combination therapies targeting hepatocyte lipid metabolism may have beneficial effects on liver TG reduction; however, they may not be sufficient to drive fibrosis regression. Here we evaluated whether combinations of an acetyl CoA carboxylase inhibitor with agents that modulate hepatocyte lipotoxicity would synergistically decrease liver triglyceride and inhibit fibrosis progression in rodent models. Our data clearly demonstrate that some combinations have synergistically lower liver TG without inhibiting fibrosis progression. Abstract Dysregulated hepatocyte lipid metabolism is a hallmark of hepatic lipotoxicity and contributes to the pathogenesis of nonalcoholic steatohepatitis (NASH). Acetyl CoA carboxylase (ACC) inhibitors decrease hepatocyte lipotoxicity by inhibiting de novo lipogenesis and concomitantly increasing fatty acid oxidation (FAO), and firsocostat, a liver‐targeted inhibitor of ACC1/2, is under evaluation clinically in patients with NASH. ACC inhibition is associated with improvements in indices of NASH and reduced liver triglyceride (TG) content, but also increased circulating TG in subjects with NASH and preclinical rodent models. Here we evaluated whether enhancing hepatocyte FAO by combining ACC inhibitors with peroxisomal proliferator‐activated receptor (PPAR) or thyroid hormone receptor beta (THRβ) agonists could drive greater liver TG reduction and NASH/antifibrotic efficacy, while ameliorating ACC inhibitor–induced hypertriglyceridemia. In high‐fat diet–fed dyslipidemic rats, the addition of PPAR agonists fenofibrate (Feno), elafibranor (Ela), lanifibranor (Lani), seladelpar (Sela) or saroglitazar (Saro), or the THRb agonist resmetirom (Res), to an analogue of firsocostat (ACCi) prevented ACCi‐induced hypertriglyceridemia. However, only PPARα agonists (Feno and Ela) and Res provided additional liver TG reduction. In the choline‐deficient high‐fat diet rat model of advanced liver fibrosis, neither PPARα (Feno) nor THRβ (Res) agonism augmented the antifibrotic efficacy of ACCi. Conclusion: These data suggest that combination therapies targeting hepatocyte lipid metabolism may have beneficial effects on liver TG reduction; however, they may not be sufficient to drive fibrosis regression. Dysregulated hepatocyte lipid metabolism is a hallmark of hepatic lipotoxicity and contributes to the pathogenesis of nonalcoholic steatohepatitis (NASH). Acetyl CoA carboxylase (ACC) inhibitors decrease hepatocyte lipotoxicity by inhibiting de novo lipogenesis and concomitantly increasing fatty acid oxidation (FAO), and firsocostat, a liver‐targeted inhibitor of ACC1/2, is under evaluation clinically in patients with NASH. ACC inhibition is associated with improvements in indices of NASH and reduced liver triglyceride (TG) content, but also increased circulating TG in subjects with NASH and preclinical rodent models. Here we evaluated whether enhancing hepatocyte FAO by combining ACC inhibitors with peroxisomal proliferator‐activated receptor (PPAR) or thyroid hormone receptor beta (THRβ) agonists could drive greater liver TG reduction and NASH/antifibrotic efficacy, while ameliorating ACC inhibitor–induced hypertriglyceridemia. In high‐fat diet–fed dyslipidemic rats, the addition of PPAR agonists fenofibrate (Feno), elafibranor (Ela), lanifibranor (Lani), seladelpar (Sela) or saroglitazar (Saro), or the THRb agonist resmetirom (Res), to an analogue of firsocostat (ACCi) prevented ACCi‐induced hypertriglyceridemia. However, only PPARα agonists (Feno and Ela) and Res provided additional liver TG reduction. In the choline‐deficient high‐fat diet rat model of advanced liver fibrosis, neither PPARα (Feno) nor THRβ (Res) agonism augmented the antifibrotic efficacy of ACCi. Conclusion : These data suggest that combination therapies targeting hepatocyte lipid metabolism may have beneficial effects on liver TG reduction; however, they may not be sufficient to drive fibrosis regression. Here we evaluated whether combinations of an acetyl CoA carboxylase inhibitor with agents that modulate hepatocyte lipotoxicity would synergistically decrease liver triglyceride and inhibit fibrosis progression in rodent models. Our data clearly demonstrate that some combinations have synergistically lower liver TG without inhibiting fibrosis progression. |
| Author | Trevaskis, James L. Seung, Minji Wang, Ting Okesli‐Armlovich, Ayse Bates, Jamie Marchand, Bruno Vijayakumar, Archana Olson, Isabel Mahadevan, Sangeetha Hollenback, David Breckenridge, David G. Kusam, Saritha Toteva, Maria |
| AuthorAffiliation | 1 Gilead Sciences Foster City California USA |
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| Author_xml | – sequence: 1 givenname: Archana surname: Vijayakumar fullname: Vijayakumar, Archana organization: Gilead Sciences – sequence: 2 givenname: Ayse surname: Okesli‐Armlovich fullname: Okesli‐Armlovich, Ayse email: ayse.okesli‐armlovich@gilead.com organization: Gilead Sciences – sequence: 3 givenname: Ting surname: Wang fullname: Wang, Ting organization: Gilead Sciences – sequence: 4 givenname: Isabel surname: Olson fullname: Olson, Isabel organization: Gilead Sciences – sequence: 5 givenname: Minji surname: Seung fullname: Seung, Minji organization: Gilead Sciences – sequence: 6 givenname: Saritha surname: Kusam fullname: Kusam, Saritha organization: Gilead Sciences – sequence: 7 givenname: David surname: Hollenback fullname: Hollenback, David organization: Gilead Sciences – sequence: 8 givenname: Sangeetha surname: Mahadevan fullname: Mahadevan, Sangeetha organization: Gilead Sciences – sequence: 9 givenname: Bruno surname: Marchand fullname: Marchand, Bruno organization: Gilead Sciences – sequence: 10 givenname: Maria surname: Toteva fullname: Toteva, Maria organization: Gilead Sciences – sequence: 11 givenname: David G. surname: Breckenridge fullname: Breckenridge, David G. organization: Gilead Sciences – sequence: 12 givenname: James L. surname: Trevaskis fullname: Trevaskis, James L. organization: Gilead Sciences – sequence: 13 givenname: Jamie surname: Bates fullname: Bates, Jamie organization: Gilead Sciences |
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| CitedBy_id | crossref_primary_10_1080_14656566_2023_2206953 crossref_primary_10_1007_s40618_023_02216_y crossref_primary_10_1177_0976500X231213486 crossref_primary_10_1016_j_jhepr_2023_100874 |
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– volume: 29 start-page: 99 year: 2020 ident: hep42011-bib-0019-20241015 article-title: Thyromimetics as emerging therapeutic agents for nonalcoholic steatohepatitis: rationale for the development of resmetirom (MGL‐3196) publication-title: Expert Opin Investig Drugs doi: 10.1080/13543784.2020.1708899 – volume: 98 year: 2020 ident: hep42011-bib-0033-20241015 article-title: A randomised, double‐blind, placebo‐controlled, multi‐centre, dose‐range, proof‐of‐concept, 24‐week treatment study of lanifibranor in adult subjects with non‐alcoholic steatohepatitis: Design of the NATIVE study publication-title: Contemp Clin Trials – volume: 10 year: 2020 ident: hep42011-bib-0036-20241015 article-title: Saroglitazar in patients with non‐alcoholic fatty liver disease and diabetic dyslipidemia: a prospective, observational, real world study publication-title: Sci Rep – volume: 60 start-page: 265 year: 1977 ident: hep42011-bib-0010-20241015 article-title: A possible role for malonyl‐CoA in the regulation of hepatic fatty acid oxidation and ketogenesis publication-title: J Clin Invest doi: 10.1172/JCI108764 – volume: 73 year: 2020 ident: hep42011-bib-0030-20241015 article-title: Magnetic resonance imaging‐proton density fat fraction (MRI‐PDFF) to predict treatment response on NASH liver biopsy: a secondary analysis of the resmetirom randomized placebo‐controlled phase 2 clinical trial publication-title: J Hepatol |
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| SubjectTerms | Animal welfare Biomarkers Diet Fatty acids Laboratory animals Lipids Liver Metabolism Original Plasma Rodents Triglycerides |
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| Title | Combinations of an acetyl CoA carboxylase inhibitor with hepatic lipid modulating agents do not augment antifibrotic efficacy in preclinical models of NASH and fibrosis |
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