Pregnane X receptor knockout mitigates weight gain and hepatic metabolic dysregulation in female C57BL/6 J mice on a long-term high-fat diet.

Biomed Pharmacother

Department of Pharmaceutical Sciences, The University of Tennessee Health Science Center, 881 Madison Avenue, Memphis, TN 38163, USA; Julius L. Chambers Biomedical Biotechnology Research Institute, North Carolina Central University, Durham, NC 27707, USA. Electronic address:

Published: April 2024

AI Article Synopsis

  • Obesity is linked to chronic diseases, but pre-menopausal females show protection against weight gain from high-fat diets, with the pregnane X receptor (PXR) playing a key role.
  • A study over 52 weeks revealed that female wild-type (WT) mice had significant weight gain and liver damage from a high-fat diet (HFD), while PXR knockout (PXR-KO) mice did not, indicating protective metabolic mechanisms in PXR-KO mice.
  • Analysis showed that PXR-KO mice had elevated levels of anti-obesity and antioxidant genes, and their liver response to the HFD was less severe, suggesting that PXR deficiency may safeguard against obesity-related complications in long-term dietary studies.

Article Abstract

Obesity is a significant risk factor for several chronic diseases. However, pre-menopausal females are protected against high-fat diet (HFD)-induced obesity and its adverse effects. The pregnane X receptor (PXR, NR1I2), a xenobiotic-sensing nuclear receptor, promotes short-term obesity-associated liver disease only in male mice but not in females. Therefore, the current study investigated the metabolic and pathophysiological effects of a long-term 52-week HFD in female wild-type (WT) and PXR-KO mice and characterized the PXR-dependent molecular pathways involved. After 52 weeks of HFD ingestion, the body and liver weights and several markers of hepatotoxicity were significantly higher in WT mice than in their PXR-KO counterparts. The HFD-induced liver injury in WT female mice was also associated with upregulation of the hepatic mRNA levels of peroxisome proliferator-activated receptor gamma (Pparg), its target genes, fat-specific protein 27 (Fsp27), and the liver-specific Fsp27b involved in lipid accumulation, apoptosis, and inflammation. Notably, PXR-KO mice displayed elevated hepatic Cyp2a5 (anti-obesity gene), aldo-keto reductase 1b7 (Akr1b7), glutathione-S-transferase M3 (Gstm3) (antioxidant gene), and AMP-activated protein kinase (AMPK) levels, contributing to protection against long-term HFD-induced obesity and inflammation. RNA sequencing analysis revealed a general blunting of the transcriptomic response to HFD in PXR-KO compared to WT mice. Pathway enrichment analysis demonstrated enrichment by HFD for several pathways, including oxidative stress and redox pathway, cholesterol biosynthesis, and glycolysis/gluconeogenesis in WT but not PXR-KO mice. In conclusion, this study provides new insights into the molecular mechanisms by which PXR deficiency protects against long-term HFD-induced severe obesity and its adverse effects in female mice.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10983615PMC
http://dx.doi.org/10.1016/j.biopha.2024.116341DOI Listing

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