Browsing by Author "Levy, Jordan L."
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Item Autophagy-related 7 (ATG7) regulates food intake and liver health during asparaginase exposure(Elsevier, 2025) Zalma, Brian A.; Ibrahim, Maria; Rodriguez-Polanco, Flavio C.; Bhavsar, Chintan T.; Rodriguez, Esther M.; Cararo-Lopes, Eduardo; Farooq, Saad A.; Levy, Jordan L.; Wek, Ronald C.; White, Eileen; Anthony, Tracy G.; Biochemistry and Molecular Biology, School of MedicineAmino acid starvation by the chemotherapy agent asparaginase is a potent activator of the integrated stress response (ISR) in the liver and can upregulate autophagy in some cell types. We hypothesized that autophagy-related 7 (ATG7), a protein that is essential for autophagy and an ISR target gene, was necessary during exposure to asparaginase to maintain liver health. We knocked down Atg7 systemically (Atg7Δ/Δ) or in hepatocytes only (ls-Atg7KO) in mice before exposure to pegylated asparaginase for 5 days. Intact mice injected with asparaginase lost body weight due to reduced food intake and increased energy expenditure. Systemic Atg7 ablation reduced liver protein synthesis and increased liver injury in vehicle-injected mice but did not further reduce liver protein synthesis, exacerbate steatosis or liver injury, or alter energy expenditure following 5 days of asparaginase exposure. Atg7Δ/Δ mice were unexpectantly protected from asparaginase-induced anorexia and weight loss. This protection corresponded with reduced phosphorylation of hepatic GCN2 and blunted increases in ISR gene targets including growth differentiation factor 15 (GDF15), a negative regulator of food intake. Interestingly, asparaginase elevated serum GDF15 and reduced food intake in ls-Atg7KO mice, similar to intact mice. Liver triglycerides and production of the hepatokine fibroblast growth factor 21, another ISR gene target, were suppressed in asparaginase-exposed Atg7Δ/Δ and ls-Atg7KO mice. This work identifies a bidirectional relationship between autophagy and the ISR in the liver during asparaginase, affecting food intake and liver health.Item GCN2 is required to maintain core body temperature in mice during acute cold(American Physiological Society, 2023) Levy, Jordan L.; Mirek, Emily T.; Rodriguez, Esther M.; Zalma, Brian; Burns, Jeffrey; Jonsson, William O.; Sampath, Harini; Staschke, Kirk A.; Wek, Ronald C.; Anthony, Tracy G.; Biochemistry and Molecular Biology, School of MedicineNonshivering thermogenesis in rodents requires macronutrients to fuel the generation of heat during hypothermic conditions. In this study, we examined the role of the nutrient sensing kinase, general control nonderepressible 2 (GCN2) in directing adaptive thermogenesis during acute cold exposure in mice. We hypothesized that GCN2 is required for adaptation to acute cold stress via activation of the integrated stress response (ISR) resulting in liver production of FGF21 and increased amino acid transport to support nonshivering thermogenesis. In alignment with our hypothesis, female and male mice lacking GCN2 failed to adequately increase energy expenditure and veered into torpor. Mice administered a small molecule inhibitor of GCN2 were also profoundly intolerant to acute cold stress. Gcn2 deletion also impeded liver-derived FGF21 but in males only. Within the brown adipose tissue (BAT), acute cold exposure increased ISR activation and its transcriptional execution in males and females. RNA sequencing in BAT identified transcripts that encode actomyosin mechanics and transmembrane transport as requiring GCN2 during cold exposure. These transcripts included class II myosin heavy chain and amino acid transporters, critical for maximal thermogenesis during cold stress. Importantly, Gcn2 deletion corresponded with higher circulating amino acids and lower intracellular amino acids in the BAT during cold stress. In conclusion, we identify a sex-independent role for GCN2 activation to support adaptive thermogenesis via uptake of amino acids into brown adipose. NEW & NOTEWORTHY: This paper details the discovery that GCN2 activation is required in both male and female mice to maintain core body temperature during acute cold exposure. The results point to a novel role for GCN2 in supporting adaptive thermogenesis via amino acid transport and actomyosin mechanics in brown adipose tissue.Item Physiologic Responses to Dietary Sulfur Amino Acid Restriction in Mice Are Influenced by Atf4 Status and Biological Sex(Oxford University Press, 2021-04-08) Jonsson, William O.; Margolies, Nicholas S.; Mirek, Emily T.; Zhang, Qian; Linden, Melissa A.; Hill, Cristal M.; Link, Christopher; Bithi, Nazmin; Zalma, Brian; Levy, Jordan L.; Pettit, Ashley P.; Miller, Joshua W.; Hine, Christopher; Morrison, Christopher D.; Gettys, Thomas W.; Miller, Benjamin F.; Hamilton, Karyn L.; Wek, Ronald C.; Anthony, Tracy G.; Biochemistry and Molecular Biology, School of MedicineBackground: Dietary sulfur amino acid restriction (SAAR) improves body composition and metabolic health across several model organisms in part through induction of the integrated stress response (ISR). Objective: We investigate the hypothesis that activating transcription factor 4 (ATF4) acts as a converging point in the ISR during SAAR. Methods: Using liver-specific or global gene ablation strategies, in both female and male mice, we address the role of ATF4 during dietary SAAR. Results: We show that ATF4 is dispensable in the chronic induction of the hepatokine fibroblast growth factor 21 while being essential for the sustained production of endogenous hydrogen sulfide. We also affirm that biological sex, independent of ATF4 status, is a determinant of the response to dietary SAAR. Conclusions: Our results suggest that auxiliary components of the ISR, which are independent of ATF4, are critical for SAAR-mediated improvements in metabolic health in mice.