Activation of HIF-prolyl Hydroxylases by R59949, an Inhibitor of the Diacylglycerol Kinase

Silvia Martín-Puig,Mónica Feijoo-Cuaresma,Gemma Olmos,Manuel O. Landazuri,Maria C. Castellanos,Bárbara Acosta-Iborra,Julián Aragonés,Elisa Temes

doi:10.1074/jbc.m414694200

Abstract

Hypoxia-inducible factors (HIF) are heterodimeric (alpha/beta) transcription factors that play a fundamental role in cellular adaptation to low oxygen tension. In the presence of oxygen, the HIF-alpha subunit becomes hydroxylated at specific prolyl residues by prolyl hydroxylases. This post-translational modification is recognized by the von Hippel-Lindau (VHL) protein, which targets HIF-alpha for degradation. In the absence of oxygen, HIF-alpha hydroxylation is compromised and this subunit is stabilized. We have previously shown that the hypoxia-induced accumulation of HIF-alpha protein is strongly impaired by the inhibitor of diacylglycerol kinase, R59949. Here, we have investigated the mechanisms through which this inhibitor exerts its effect. We found that R59949 inhibits the accumulation of HIF-1/2alpha protein without affecting the expression of their mRNAs. We also determined that R59949 could only block the accumulation of HIF-alpha in the presence of VHL protein. In agreement with this, the binding of VHL to endogenous HIF-alpha was significantly enhanced after R59949 treatment, even under hypoxic conditions. In addition, we found that R59949 could stimulate prolyl hydroxylase both at 21% O2 as well as at 1% O2. Taken together, these results reveal that R59949 is an activator of HIF prolyl hydroxylases. This is of particular interest when we consider that, to date, mainly inhibitors of these enzymes have been described.

Highlights

In the absence of oxygen, von Hippel-Lindau (VHL) cannot recognize Hypoxia-inducible factors (HIF)-␣ subunits and as a consequence, hypoxia-inducible transcription factors (HIFs) activity is concomitantly induced
R59949 Inhibits the Accumulation of HIF Protein without Affecting Its mRNA Levels—We previously reported that R59949 inhibits the accumulation and the transcriptional activity of HIF-1␣ in cells maintained in atmospheres containing 1% oxygen [27]
Total protein extracts were obtained, and in parallel, total RNA was isolated and analyzed by quantitative Reverse Transcription (RT)-PCR. The accumulation of both HIF-1␣ (293-T and UMRC 3.4) and HIF-2␣ (786-O-WT10) protein subunits was induced in conditions of hypoxia, and the levels of these proteins was diminished in the presence of R59949 (Fig. 1, upper panels)

Summary

Introduction

In the absence of oxygen, VHL cannot recognize HIF-␣ subunits and as a consequence, HIF activity is concomitantly induced. R59949 Inhibits the Accumulation of HIF Protein without Affecting Its mRNA Levels—We previously reported that R59949 inhibits the accumulation and the transcriptional activity of HIF-1␣ in cells maintained in atmospheres containing 1% oxygen [27]. The accumulation of both HIF-1␣ (293-T and UMRC 3.4) and HIF-2␣ (786-O-WT10) protein subunits was induced in conditions of hypoxia, and the levels of these proteins was diminished in the presence of R59949 (Fig. 1, upper panels).

Results

Conclusion