A Small‐Molecule Inhibitor of Factor Inhibiting HIF Binding to a Tyrosine‐Flip Pocket for the Treatment of Obesity

A Small‐Molecule Inhibitor of Factor Inhibiting HIF Binding to a Tyrosine‐Flip Pocket for the Treatment of Obesity

In animals, limiting oxygen upregulates the hypoxia‐inducible factor (HIF) and promotes a metabolic shift towards glycolysis. Factor inhibiting HIF (FIH) is an asparaginyl hydroxylase that regulates HIF function by reducing its interaction with histone acetyl transferases. HIF levels are negatively...

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Veröffentlicht in:Angewandte Chemie 2024-10, Vol.136 (40), p.n/a
Hauptverfasser: Wu, Yue, Chen, Yafen, Corner, Thomas P., Nakashima, Yu, Salah, Eidarus, Li, Zhihong, Zhang, Linjian, Yang, Le, Tumber, Anthony, Sun, Zhuoli, Wen, Yukang, Zhong, Ailin, Yang, Fulai, Li, Xiang, Zhang, Zhihong, Schofield, Christopher J., Zhang, Xiaojin
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2-oxoglutarate dependent oxygenase
Animal models
Binding
chemical probe
FIH inhibition
Glycolysis
Histones
Hypoxia
hypoxia/HIF pathway
In vivo methods and tests
Metabolism
Obesity
Physiology
Substrate inhibition
Thermogenesis
Tyrosine
tyrosine-flip pocket
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container_end_page n/a
container_issue 40
container_start_page
container_title Angewandte Chemie
container_volume 136
creator Wu, Yue
Chen, Yafen
Corner, Thomas P.
Nakashima, Yu
Salah, Eidarus
Li, Zhihong
Zhang, Linjian
Yang, Le
Tumber, Anthony
Sun, Zhuoli
Wen, Yukang
Zhong, Ailin
Yang, Fulai
Li, Xiang
Zhang, Zhihong
Schofield, Christopher J.
Zhang, Xiaojin
description In animals, limiting oxygen upregulates the hypoxia‐inducible factor (HIF) and promotes a metabolic shift towards glycolysis. Factor inhibiting HIF (FIH) is an asparaginyl hydroxylase that regulates HIF function by reducing its interaction with histone acetyl transferases. HIF levels are negatively regulated by the HIF prolyl hydroxylases (PHDs) which, like FIH, are 2‐oxoglutarate (2OG) oxygenases. Genetic loss of FIH promotes both glycolysis and aerobic metabolism. FIH has multiple non‐HIF substrates making it challenging to connect its biochemistry with physiology. A structure–mechanism guided approach identified a highly potent in vivo active FIH inhibitor, ZG‐2291, the binding of which promotes a conformational flip of a catalytically important tyrosine, enabling the selective inhibition of FIH over other Jumonji C subfamily 2OG oxygenases. Consistent with genetic studies, ZG‐2291 promotes thermogenesis and ameliorates symptoms of obesity and metabolic dysfunction in ob/ob mice. The results reveal ZG‐2291 as a useful probe for the physiological functions of FIH and identify FIH inhibition as a promising strategy for obesity treatment. A tyrosine flip induced by ligand binding to factor inhibiting HIF (FIH) enables the development of the potent and selective FIH inhibitor ZG‐2291, a useful probe for the physiological functions of FIH. FIH inhibition is identified as a promising strategy for obesity treatment.
doi_str_mv 10.1002/ange.202410438
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Factor inhibiting HIF (FIH) is an asparaginyl hydroxylase that regulates HIF function by reducing its interaction with histone acetyl transferases. HIF levels are negatively regulated by the HIF prolyl hydroxylases (PHDs) which, like FIH, are 2‐oxoglutarate (2OG) oxygenases. Genetic loss of FIH promotes both glycolysis and aerobic metabolism. FIH has multiple non‐HIF substrates making it challenging to connect its biochemistry with physiology. A structure–mechanism guided approach identified a highly potent in vivo active FIH inhibitor, ZG‐2291, the binding of which promotes a conformational flip of a catalytically important tyrosine, enabling the selective inhibition of FIH over other Jumonji C subfamily 2OG oxygenases. Consistent with genetic studies, ZG‐2291 promotes thermogenesis and ameliorates symptoms of obesity and metabolic dysfunction in ob/ob mice. The results reveal ZG‐2291 as a useful probe for the physiological functions of FIH and identify FIH inhibition as a promising strategy for obesity treatment. A tyrosine flip induced by ligand binding to factor inhibiting HIF (FIH) enables the development of the potent and selective FIH inhibitor ZG‐2291, a useful probe for the physiological functions of FIH. 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subjects 2-oxoglutarate dependent oxygenase
Animal models
Binding
chemical probe
FIH inhibition
Glycolysis
Histones
Hypoxia
hypoxia/HIF pathway
In vivo methods and tests
Metabolism
Obesity
Physiology
Substrate inhibition
Thermogenesis
Tyrosine
tyrosine-flip pocket
title A Small‐Molecule Inhibitor of Factor Inhibiting HIF Binding to a Tyrosine‐Flip Pocket for the Treatment of Obesity
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