Maternal Western diet exposure increases periportal fibrosis beginning in utero in nonhuman primate offspring

Michael J. Nash; Evgenia Dobrinskikh; Sean A. Newsom; Ilhem Messaoudi; Rachel C. Janssen; Kjersti M. Aagaard; Carrie E. McCurdy; Maureen Gannon; Paul Kievit; Jacob E. Friedman; Stephanie R. Wesolowski

doi:10.1172/jci.insight.154093

Maternal Western diet exposure increases periportal fibrosis beginning in utero in nonhuman primate offspring

Michael J. Nash
, Evgenia Dobrinskikh
, Sean A. Newsom
, Ilhem Messaoudi
, Rachel C. Janssen
, Kjersti M. Aagaard
, Carrie E. McCurdy
, Maureen Gannon
, Paul Kievit
, Jacob E. Friedman
, Stephanie R. Wesolowski

Producción científica: Article › revisión exhaustiva

24 Citas (Scopus)

Resumen

Maternal obesity affects nearly one-third of pregnancies and is a major risk factor for nonalcoholic fatty liver disease (NAFLD) in adolescent offspring, yet the mechanisms behind NAFLD remain poorly understood. Here, we demonstrate that nonhuman primate fetuses exposed to maternal Western-style diet (WSD) displayed increased fibrillar collagen deposition in the liver periportal region, with increased ACTA2 and TIMP1 staining, indicating localized hepatic stellate cell (HSC) and myofibroblast activation. This collagen deposition pattern persisted in 1-year-old offspring, despite weaning to a control diet (CD). Maternal WSD exposure increased the frequency of DCs and reduced memory CD4+ T cells in fetal liver without affecting systemic or hepatic inflammatory cytokines. Switching obese dams from WSD to CD before conception or supplementation of the WSD with resveratrol decreased fetal hepatic collagen deposition and reduced markers of portal triad fibrosis, oxidative stress, and fetal hypoxemia. These results demonstrate that HSCs and myofibroblasts are sensitive to maternal WSD-associated oxidative stress in the fetal liver, which is accompanied by increased periportal collagen deposition, indicative of early fibrogenesis beginning in utero. Alleviating maternal WSD-driven oxidative stress in the fetal liver holds promise for halting steatosis and fibrosis and preventing developmental programming of NAFLD.

Idioma original	English
Número de artículo	e154093
Publicación	JCI insight
Volumen	6
N.º	24
DOI	https://doi.org/10.1172/jci.insight.154093
Estado	Published - dic 22 2021

Nota bibliográfica

Publisher Copyright:
© 2021, Nash et al.

Financiación

We thank Kevin Grove for helpful oversight of these studies. We thank David Gius for providing the Ac-MnSOD (K68) antibody. We thank the Advanced Fluorescent Microscopy Core at the Anschutz Medical Campus for their expertise and use of their equipment and the Anschutz Medical Campus Metabolomics Core for their contributions to the manuscript. Funding was received from National Institute of Diabetes and Digestive and Kidney Diseases grants R24-DK090964 (to JEF, KMA, and PK), F30-DK122672 (to MJN), and R01-DK108910 (to SRW) and University of Colorado Nutrition Obesity Research Center grant P30-DK048520 (to JEF). Microscopy experiments were performed in the Advanced Light Microscopy Core at University of Colorado Anschutz Medical Campus, supported in part by Rocky Mountain Neurological Disorders Core grant P30-NS048154 and by Diabetes Research Center grant P30-DK116073. We thank Kevin Grove for helpful oversight of these studies. We thank David Gius for providing the Ac-MnSOD (K68) antibody. We thank the Advanced Fluorescent Microscopy Core at the Anschutz Medical Campus for their expertise and use of their equipment and the Anschutz Medical Campus Metabolo-mics Core for their contributions to the manuscript. Funding was received from National Institute of Diabetes and Digestive and Kidney Diseases grants R24-DK090964 (to JEF, KMA, and PK), F30-DK122672 (to MJN), and R01-DK108910 (to SRW) and University of Colorado Nutrition Obesity Research Center grant P30-DK048520 (to JEF). Microscopy experiments were performed in the Advanced Light Microscopy Core at University of Colorado Anschutz Medical Campus, supported in part by Rocky Mountain Neurological Disorders Core grant P30-NS048154 and by Diabetes Research Center grant P30-DK116073.

Financiadores	Número del financiador
Anschutz Medical Campus Metabolomics Core
Rocky Mountain Neurological Disorders Core	P30-NS048154
University of Colorado Nutrition Obesity Research Center	P30-DK048520
National Institute of Diabetes and Digestive and Kidney Diseases	F30-DK122672, R24-DK090964, R01-DK108910
Institute of Neurological Disorders and Stroke National Advisory Neurological Disorders and Stroke Council	P30NS048154
Michigan Diabetes Research Center	P30-DK116073

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ASJC Scopus subject areas

General Medicine

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title = "Maternal Western diet exposure increases periportal fibrosis beginning in utero in nonhuman primate offspring",

abstract = "Maternal obesity affects nearly one-third of pregnancies and is a major risk factor for nonalcoholic fatty liver disease (NAFLD) in adolescent offspring, yet the mechanisms behind NAFLD remain poorly understood. Here, we demonstrate that nonhuman primate fetuses exposed to maternal Western-style diet (WSD) displayed increased fibrillar collagen deposition in the liver periportal region, with increased ACTA2 and TIMP1 staining, indicating localized hepatic stellate cell (HSC) and myofibroblast activation. This collagen deposition pattern persisted in 1-year-old offspring, despite weaning to a control diet (CD). Maternal WSD exposure increased the frequency of DCs and reduced memory CD4+ T cells in fetal liver without affecting systemic or hepatic inflammatory cytokines. Switching obese dams from WSD to CD before conception or supplementation of the WSD with resveratrol decreased fetal hepatic collagen deposition and reduced markers of portal triad fibrosis, oxidative stress, and fetal hypoxemia. These results demonstrate that HSCs and myofibroblasts are sensitive to maternal WSD-associated oxidative stress in the fetal liver, which is accompanied by increased periportal collagen deposition, indicative of early fibrogenesis beginning in utero. Alleviating maternal WSD-driven oxidative stress in the fetal liver holds promise for halting steatosis and fibrosis and preventing developmental programming of NAFLD.",

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doi = "10.1172/jci.insight.154093",

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AU - Newsom, Sean A.

AU - Messaoudi, Ilhem

AU - Janssen, Rachel C.

AU - Aagaard, Kjersti M.

AU - McCurdy, Carrie E.

AU - Gannon, Maureen

AU - Kievit, Paul

AU - Friedman, Jacob E.

AU - Wesolowski, Stephanie R.

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AB - Maternal obesity affects nearly one-third of pregnancies and is a major risk factor for nonalcoholic fatty liver disease (NAFLD) in adolescent offspring, yet the mechanisms behind NAFLD remain poorly understood. Here, we demonstrate that nonhuman primate fetuses exposed to maternal Western-style diet (WSD) displayed increased fibrillar collagen deposition in the liver periportal region, with increased ACTA2 and TIMP1 staining, indicating localized hepatic stellate cell (HSC) and myofibroblast activation. This collagen deposition pattern persisted in 1-year-old offspring, despite weaning to a control diet (CD). Maternal WSD exposure increased the frequency of DCs and reduced memory CD4+ T cells in fetal liver without affecting systemic or hepatic inflammatory cytokines. Switching obese dams from WSD to CD before conception or supplementation of the WSD with resveratrol decreased fetal hepatic collagen deposition and reduced markers of portal triad fibrosis, oxidative stress, and fetal hypoxemia. These results demonstrate that HSCs and myofibroblasts are sensitive to maternal WSD-associated oxidative stress in the fetal liver, which is accompanied by increased periportal collagen deposition, indicative of early fibrogenesis beginning in utero. Alleviating maternal WSD-driven oxidative stress in the fetal liver holds promise for halting steatosis and fibrosis and preventing developmental programming of NAFLD.

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Maternal Western diet exposure increases periportal fibrosis beginning in utero in nonhuman primate offspring

Resumen

Nota bibliográfica

Financiación

ODS de las Naciones Unidas

ASJC Scopus subject areas

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