Your search keyword '"Faure, Adrien"' showing total 2 results

1. Wars1 downregulation in hepatocytes induces mitochondrial stress and disrupts metabolic homeostasis.

Author

Pontanari F, Demagny H, Faure A, Li X, Benegiamo G, Jalil A, Perino A, Auwerx J, and Schoonjans K

Subjects

Animals, Mice, Mitochondria metabolism, Unfolded Protein Response physiology, Tryptophan-tRNA Ligase metabolism, Tryptophan-tRNA Ligase genetics, Stress, Physiological physiology, Mitochondria, Liver metabolism, Male, Homeostasis, Hepatocytes metabolism, Down-Regulation

Abstract

Several laboratories, including ours, have employed the Slc25a47 tm1c(EUCOMM)Hmgu mouse model to investigate the role of SLC25A47, a hepatocyte-specific mitochondrial carrier, in regulating hepatic metabolism and systemic physiology. In this study, we reveal that the hepatic and systemic phenotypes observed following recombination of the Slc25a47-Wars1 locus in hepatocytes are primarily driven by the unexpected downregulation of Wars1, the cytosolic tryptophan aminoacyl-tRNA synthetase located adjacent to Slc25a47. While the downregulation of Wars1 predictably affects cytosolic translation, we also observed a significant impairment in mitochondrial protein synthesis within hepatocytes. This disturbance in mitochondrial function leads to an activation of the mitochondrial unfolded protein response (UPR mt ), a critical component of the mitochondrial stress response (MSR). Our findings clarify the distinct roles of Slc25a47 and Wars1 in maintaining both systemic and hepatic metabolic homeostasis. This study sheds new light on the broader implications of aminoacyl-tRNA synthetases in mitochondrial physiology and stress responses., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2025

2. Asparagine protects pericentral hepatocytes during acute liver injury.

Author

Sun Y, Demagny H, Faure A, Pontanari F, Jalil A, Bresciani N, Yildiz E, Korbelius M, Perino A, and Schoonjans K

Subjects

Animals, Mice, Amino Acids, Liver, Asparagine, Hepatocytes

Abstract

The nonessential amino acid asparagine can only be synthesized de novo by the enzymatic activity of asparagine synthetase (ASNS). While ASNS and asparagine have been implicated in the response to numerous metabolic stressors in cultured cells, the in vivo relevance of this enzyme in stress-related pathways remains unexplored. Here, we found ASNS to be expressed in pericentral hepatocytes, a population of hepatic cells specialized in xenobiotic detoxification. ASNS expression was strongly enhanced in 2 models of acute liver injury: carbon tetrachloride (CCl4) and acetaminophen. We found that mice with hepatocyte-specific Asns deletion were more prone to pericentral liver damage than their control littermates after toxin exposure. This phenotype could be reverted by i.v. administration of asparagine. Unexpectedly, the stress-induced upregulation of ASNS involved an ATF4-independent, noncanonical pathway mediated by the nuclear receptor, liver receptor homolog 1 (LRH-1; NR5A2). Altogether, our data indicate that the induction of the asparagine-producing enzyme ASNS acts as an adaptive mechanism to constrain the necrotic wave that follows toxin administration and provide proof of concept that i.v. delivery of asparagine can dampen hepatotoxin-induced pericentral hepatocellular death.

Published

2023