HIF1 and ID1 Interplay Confers Adaptive Survival to HIF1α-Inhibition

Hao Geng; Hyun Kyung Ko; Janet Pittsenbarger; Christopher T. Harvey; Changhui Xue; Qiong Liu; Sadie Wiens; Sushant K. Kachhap; Tomasz M. Beer; David Z. Qian

doi:10.3389/fcell.2021.724059

HIF1 and ID1 Interplay Confers Adaptive Survival to HIF1α-Inhibition

Hao Geng, Hyun Kyung Ko, Janet Pittsenbarger, Christopher T. Harvey, Changhui Xue, Qiong Liu, Sadie Wiens, Sushant K. Kachhap, Tomasz M. Beer, David Z. Qian

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Hypoxia is a universal pathological feature of solid tumors. Hypoxic tumor cells acquire metastatic and lethal phenotypes primarily through the activities of hypoxia-inducible factor 1 alpha (HIF1α). Therefore, HIF1α is considered as a promising therapeutic target. However, HIF inhibitors have not proven to be effective in clinical testing. The underlying mechanism is unclear. We report that oncogenic protein ID1 is upregulated in hypoxia by HIF1α shRNA or pharmacological inhibitors. In turn, ID1 supports tumor growth in hypoxia in vitro and in xenografts in vivo, conferring adaptive survival response and resistance. Mechanistically, ID1 proteins interfere HIF1-mediated gene transcription activation, thus ID1 protein degradation is accelerated by HIF1α-dependent mechanisms in hypoxia. Inhibitions of HIF1α rescues ID1, which compensates the loss of HIF1α by the upregulation of GLS2 and glutamine metabolism, thereby switching the metabolic dependency of HIF1α -inhibited cells from glucose to glutamine.

Original language	English (US)
Article number	724059
Journal	Frontiers in Cell and Developmental Biology
Volume	9
DOIs	https://doi.org/10.3389/fcell.2021.724059
State	Published - Nov 8 2021

Keywords

HIF1
ID1
hypoxia
resistance
targeted-treatment

ASJC Scopus subject areas

Developmental Biology
Cell Biology

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10.3389/fcell.2021.724059

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title = "HIF1 and ID1 Interplay Confers Adaptive Survival to HIF1α-Inhibition",

abstract = "Hypoxia is a universal pathological feature of solid tumors. Hypoxic tumor cells acquire metastatic and lethal phenotypes primarily through the activities of hypoxia-inducible factor 1 alpha (HIF1α). Therefore, HIF1α is considered as a promising therapeutic target. However, HIF inhibitors have not proven to be effective in clinical testing. The underlying mechanism is unclear. We report that oncogenic protein ID1 is upregulated in hypoxia by HIF1α shRNA or pharmacological inhibitors. In turn, ID1 supports tumor growth in hypoxia in vitro and in xenografts in vivo, conferring adaptive survival response and resistance. Mechanistically, ID1 proteins interfere HIF1-mediated gene transcription activation, thus ID1 protein degradation is accelerated by HIF1α-dependent mechanisms in hypoxia. Inhibitions of HIF1α rescues ID1, which compensates the loss of HIF1α by the upregulation of GLS2 and glutamine metabolism, thereby switching the metabolic dependency of HIF1α -inhibited cells from glucose to glutamine.",

keywords = "HIF1, ID1, hypoxia, resistance, targeted-treatment",

author = "Hao Geng and Ko, {Hyun Kyung} and Janet Pittsenbarger and Harvey, {Christopher T.} and Changhui Xue and Qiong Liu and Sadie Wiens and Kachhap, {Sushant K.} and Beer, {Tomasz M.} and Qian, {David Z.}",

note = "Funding Information: This study was supported by a NIH/NCI grant to DQ, R01CA207377. The Affymetrix cDNA microarray analysis was performed at the OHSU Gene Profiling Shared Resource, supported by the OHSU Knight Cancer Institute NCI Cancer Center Support Grant, P30CA069533. Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Geng, Ko, Pittsenbarger, Harvey, Xue, Liu, Wiens, Kachhap, Beer and Qian.",

year = "2021",

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day = "8",

doi = "10.3389/fcell.2021.724059",

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AU - Geng, Hao

AU - Ko, Hyun Kyung

AU - Pittsenbarger, Janet

AU - Harvey, Christopher T.

AU - Xue, Changhui

AU - Liu, Qiong

AU - Wiens, Sadie

AU - Kachhap, Sushant K.

AU - Beer, Tomasz M.

AU - Qian, David Z.

N1 - Funding Information: This study was supported by a NIH/NCI grant to DQ, R01CA207377. The Affymetrix cDNA microarray analysis was performed at the OHSU Gene Profiling Shared Resource, supported by the OHSU Knight Cancer Institute NCI Cancer Center Support Grant, P30CA069533. Publisher Copyright: © Copyright © 2021 Geng, Ko, Pittsenbarger, Harvey, Xue, Liu, Wiens, Kachhap, Beer and Qian.

PY - 2021/11/8

Y1 - 2021/11/8

N2 - Hypoxia is a universal pathological feature of solid tumors. Hypoxic tumor cells acquire metastatic and lethal phenotypes primarily through the activities of hypoxia-inducible factor 1 alpha (HIF1α). Therefore, HIF1α is considered as a promising therapeutic target. However, HIF inhibitors have not proven to be effective in clinical testing. The underlying mechanism is unclear. We report that oncogenic protein ID1 is upregulated in hypoxia by HIF1α shRNA or pharmacological inhibitors. In turn, ID1 supports tumor growth in hypoxia in vitro and in xenografts in vivo, conferring adaptive survival response and resistance. Mechanistically, ID1 proteins interfere HIF1-mediated gene transcription activation, thus ID1 protein degradation is accelerated by HIF1α-dependent mechanisms in hypoxia. Inhibitions of HIF1α rescues ID1, which compensates the loss of HIF1α by the upregulation of GLS2 and glutamine metabolism, thereby switching the metabolic dependency of HIF1α -inhibited cells from glucose to glutamine.

AB - Hypoxia is a universal pathological feature of solid tumors. Hypoxic tumor cells acquire metastatic and lethal phenotypes primarily through the activities of hypoxia-inducible factor 1 alpha (HIF1α). Therefore, HIF1α is considered as a promising therapeutic target. However, HIF inhibitors have not proven to be effective in clinical testing. The underlying mechanism is unclear. We report that oncogenic protein ID1 is upregulated in hypoxia by HIF1α shRNA or pharmacological inhibitors. In turn, ID1 supports tumor growth in hypoxia in vitro and in xenografts in vivo, conferring adaptive survival response and resistance. Mechanistically, ID1 proteins interfere HIF1-mediated gene transcription activation, thus ID1 protein degradation is accelerated by HIF1α-dependent mechanisms in hypoxia. Inhibitions of HIF1α rescues ID1, which compensates the loss of HIF1α by the upregulation of GLS2 and glutamine metabolism, thereby switching the metabolic dependency of HIF1α -inhibited cells from glucose to glutamine.

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HIF1 and ID1 Interplay Confers Adaptive Survival to HIF1α-Inhibition

Abstract

Keywords

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