Assessment of Hypoxia Inducible Factor Levels in Cancer Cell Lines upon Hypoxic Induction Using a Novel Reporter Construct

Wenyu Zhou,Travis Biechele,Marshall S Horwitz,Hannele Ruohola-Baker,Timothy L Dosey,Randall T Moon,Gangjian Qin

doi:10.1371/journal.pone.0027460

Wenyu Zhou, Travis Biechele + Show 5 more

Open Access

https://doi.org/10.1371/journal.pone.0027460

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Journal: PLoS ONE	Publication Date: Nov 23, 2011
Citations: 80	License type: CC BY 4.0

Affiliation: University of Washington

Abstract

Hypoxia Inducible Factor (HIF) signaling pathway is important for tumor cells with limited oxygen supplies, as it is shown to be involved in the process of proliferation and angiogenesis. Given its pivotal role in cancer biology, robust assays for tracking changes in HIF expression are necessary for understanding its regulation in cancer as well as developing therapies that target HIF signaling. Here we report a novel HIF reporter construct containing tandem repeats of minimum HIF binding sites upstream of eYFP coding sequence. We show that the reporter construct has an excellent signal to background ratio and the reporter activity is HIF dependent and directly correlates with HIF protein levels. By utilizing this new construct, we assayed HIF activity levels in different cancer cell lines cultured in various degrees of hypoxia. This analysis reveals a surprising cancer cell line specific variation of HIF activity in the same level of hypoxia. We further show that in two cervical cancer cell lines, ME180 and HeLa, the different HIF activity levels observed correlate with the levels of hsp90, a cofactor that protects HIF against VHL-independent degradation. This novel HIF reporter construct serves as a tool to rapidly define HIF activity levels and therefore the therapeutic capacity of potential HIF repressors in individual cancers.

Highlights

Hypoxia is well known to fundamentally regulate many aspects of cell biology
We further reveal that in two cervical cancer cell lines, the differences in hypoxia inducible factor (HIF) activity levels correlate with the level of the HIF cofactor, Hsp90, which protects HIF against von Hippel-Lindau (VHL)-independent degradation
To determine whether higher levels of hsp90 in ME180 could be causal for higher HIF activity, we reduced hsp90 binding to HIF1a in ME180 by incubating cells with 17-allylamino-demethoxygeldamycin (17-AAG) in 2% hypoxic conditions. 17-AAG inhibits ATP binding to hsp90, thereby preventing the interaction of hsp90 and its target protein [39]

Summary

Introduction

Most of the effects of hypoxia involve the hypoxia inducible factor (HIF), a highly conserved and crucial oxygen regulated heterodimeric transcription factor composed of an alpha (a) and a beta (b) subunit. Both of these subunits belong to the PERARNT-SIM (PAS) group in basic-helix-loop-helix (bHLH) family of transcription factors [1]. Many other pathways can affect HIF stabilization [6,7] Cofactors, such as PACF P300/ CBP associated factor [8] and hsp90 [9,10], help facilitate HIF stabilization and enhance HIF activities. Hsp has shown to protect HIFa against VHL-independent degradation that can occur in hypoxia [11]

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