Abstract
Unlike most cells, cancer cells activate hypoxia inducible factor-1 (HIF-1) to use glycolysis even at normal oxygen levels, or normoxia. Therefore, HIF-1 is an attractive target in cancer therapy. However, the regulation of HIF-1 during normoxia is not well characterised, although Mint3 was recently found to activate HIF-1 in cancer cells and macrophages by suppressing the HIF-1 inhibitor, factor inhibiting HIF-1 (FIH-1). In this study, we analysed Mint3-binding proteins to investigate the mechanism by which Mint3 regulates HIF-1. Yeast two-hybrid screening using Mint3 as bait identified N-terminal EF-hand calcium binding protein 3 (NECAB3) as a novel factor regulating HIF-1 activity via Mint3. NECAB3 bound to the phosphotyrosine-binding domain of Mint3, formed a ternary complex with Mint3 and FIH-1, and co-localised with Mint3 at the Golgi apparatus. Depletion of NECAB3 decreased the expression of HIF-1 target genes and reduced glycolysis in normoxic cancer cells. NECAB3 mutants that binds Mint3 but lacks an intact monooxygenase domain also inhibited HIF-1 activation. Inhibition of NECAB3 in cancer cells by either expressing shRNAs or generating a dominant negative mutant reduced tumourigenicity. Taken together, the data indicate that NECAB3 is a promising new target for cancer therapy.
Highlights
Unlike most cells, cancer cells activate hypoxia inducible factor-1 (HIF-1) to use glycolysis even at normal oxygen levels, or normoxia
We characterised N-terminal EF-hand calcium binding protein 3 (NECAB3) further, as it has been reported to bind APBA2, which belongs to the Mint family, and to localise it like Mint[3] to the Golgi apparatus[26,27]
To confirm interaction between Mint[3] and NECAB3, FLAG-tagged NECAB3 was co-expressed with Myc-tagged Mint[3], factor inhibiting HIF-1 (FIH-1), or membrane type-1 matrix metalloproteinase (MT1-MMP) in mammalian 293FT cells
Summary
Cancer cells activate hypoxia inducible factor-1 (HIF-1) to use glycolysis even at normal oxygen levels, or normoxia. The regulation of HIF-1 during normoxia is not well characterised, Mint[3] was recently found to activate HIF-1 in cancer cells and macrophages by suppressing the HIF-1 inhibitor, factor inhibiting HIF-1 (FIH-1). Prolyl hydroxylase promotes proteasomal degradation while FIH-1 inhibits transcriptional activity without affecting HIFα levels by preventing HIFα from binding to transcriptional co-factor p300/CBP2. Both enzymes are inactivated in hypoxic conditions to activate HIF-1. Mint[3] depletion in cancer cells reduces expression of HIF-1 target genes, glycolysis, and tumourigenicity[14,15]
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