Abstract
The processes by which cells sense and respond to ambient oxygen concentration are fundamental to cell survival and function, and they commonly target gene regulatory events. To date, however, little is known about the link between the microRNA pathway and hypoxia signaling. Here, we show in vitro and in vivo that chronic hypoxia impairs Dicer (DICER1) expression and activity, resulting in global consequences on microRNA biogenesis. We show that von Hippel-Lindau-dependent down-regulation of Dicer is key to the expression and function of hypoxia-inducible factor α (HIF-α) subunits. Specifically, we show that EPAS1/HIF-2α is regulated by the Dicer-dependent microRNA miR-185, which is down-regulated by hypoxia. Full expression of hypoxia-responsive/HIF target genes in chronic hypoxia (e.g. VEGFA, FLT1/VEGFR1, KDR/VEGFR2, BNIP3L, and SLC2A1/GLUT1), the function of which is to regulate various adaptive responses to compromised oxygen availability, is also dependent on hypoxia-mediated down-regulation of Dicer function and changes in post-transcriptional gene regulation. Therefore, functional deficiency of Dicer in chronic hypoxia is relevant to both HIF-α isoforms and hypoxia-responsive/HIF target genes, especially in the vascular endothelium. These findings have relevance to emerging therapies given that we show that the efficacy of RNA interference under chronic hypoxia, but not normal oxygen availability, is Dicer-dependent. Collectively, these findings show that the down-regulation of Dicer under chronic hypoxia is an adaptive mechanism that serves to maintain the cellular hypoxic response through HIF-α- and microRNA-dependent mechanisms, thereby providing an essential mechanistic insight into the oxygen-dependent microRNA regulatory pathway.
Highlights
Functional relationships between the microRNA and cellular hypoxia response pathways are unknown
Results revealed that 360 microRNAs exhibited detectable expression above background in HUVEC, and we were able to confirm the majority of microRNAs reported previously by others as the most highly expressed in endothelial cells under basal conditions
We have found for the first time that the microRNA pathway is functionally integrated with the cellular hypoxia response pathway, especially in the vascular endothelium
Summary
Functional relationships between the microRNA and cellular hypoxia response pathways are unknown. These gene expression changes are dependent in major part on HIF isoforms and result in alterations to the endothelial phenotype that can result in endothelial activation and dysfunction It has been known for some time that the post-transcriptional regulation of hypoxia-responsive/HIF target genes, especially mRNA stabilization, is a key component of an integrated hypoxic response, especially in the vascular endothelium. Full expression of hypoxia-responsive/HIF target genes in chronic hypoxia (e.g. VEGFA, VEGFR1, VEGFR2, BNIP3L, and GLUT1), the function of which is to regulate various adaptive responses to compromised oxygen availability, is dependent on the hypoxia-mediated down-regulation of Dicer function and changes in post-transcriptional gene regulation These findings add important conceptual and mechanistic insight into the interaction between two very important cellular pathways, namely the microRNA pathway and the cellular hypoxia response pathway
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