Abstract-The Ca 2ϩ -and voltage-dependent K ϩ (maxi-K) channel  1 -subunit mRNA is particularly abundant in cardiomyocytes but its functional role is unknown. This is intriguing because functional maxi-K channels are not found in cardiomyocyte plasmalemma, although they have been suggested to be in the inner mitochondrial membrane and participate in cardioprotection. We report here that  1 protein may interact with mitochondrial proteins and that the  1 -subunit gene (KCNMB1) is repressed by sustained hypoxia in dispersed cardiomyocytes as well as in heart intact tissue. The effect of hypoxia is time-and dose-dependent, is mimicked by addition of reactive oxygen species, and selectively requires hypoxia inducible factor-2␣ (Hif-2␣) stabilization. We have observed that adaptation to hypoxia exerts a protective role on cardiomyocytes subjected to ischemia and that, unexpectedly, this form of preconditioning absolutely depends on Hif-2␣. Interference of the  1 -subunit mRNA increases cardiomyocyte resistance to ischemia. Therefore, Hif-2␣-mediated  1 -subunit gene repression is a previously unknown mechanism that could participate in the gene expression program triggered by sustained hypoxia to prevent deleterious mitochondrial depolarization and ATP deficiency in cardiac cells. Key Words: hypoxia inducible factor-2␣ Ⅲ hypoxic preconditioning Ⅲ maxi-K channel  1 -subunit Ⅲ cardiomyocyte Ⅲ small interfering RNA
Background: Translational arrest is a classical cellular response to hypoxia, the underlying mechanisms of which are unknown. Results: Inhibitory phosphorylation of eukaryotic elongation factor 2 by acute hypoxia depends on oxygen-sensitive prolyl hydroxylases (PHDs).
Conclusion:The elongation phase of protein synthesis is regulated by PHDs. Significance: This work unravels a novel cellular process controlled by PHDs, potential pharmacological targets in several human diseases.
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