A pleiotropic hypoxia-sensitive EPAS1 enhancer is disrupted by adaptive alleles in Tibetans
OA Gray, J Yoo, DR Sobreira, J Jousma, D Witonsky… - Science …, 2022 - science.org
OA Gray, J Yoo, DR Sobreira, J Jousma, D Witonsky, NJ Sakabe, YJ Peng, NR Prabhakar…
Science Advances, 2022•science.orgIn Tibetans, noncoding alleles in EPAS1—whose protein product hypoxia-inducible factor
2α (HIF-2α) drives the response to hypoxia—carry strong signatures of positive selection;
however, their functional mechanism has not been systematically examined. Here, we report
that high-altitude alleles disrupt the activity of four EPAS1 enhancers in one or more cell
types. We further characterize one enhancer (ENH5) whose activity is both allele specific
and hypoxia dependent. Deletion of ENH5 results in down-regulation of EPAS1 and HIF-2α …
2α (HIF-2α) drives the response to hypoxia—carry strong signatures of positive selection;
however, their functional mechanism has not been systematically examined. Here, we report
that high-altitude alleles disrupt the activity of four EPAS1 enhancers in one or more cell
types. We further characterize one enhancer (ENH5) whose activity is both allele specific
and hypoxia dependent. Deletion of ENH5 results in down-regulation of EPAS1 and HIF-2α …
In Tibetans, noncoding alleles in EPAS1—whose protein product hypoxia-inducible factor 2α (HIF-2α) drives the response to hypoxia—carry strong signatures of positive selection; however, their functional mechanism has not been systematically examined. Here, we report that high-altitude alleles disrupt the activity of four EPAS1 enhancers in one or more cell types. We further characterize one enhancer (ENH5) whose activity is both allele specific and hypoxia dependent. Deletion of ENH5 results in down-regulation of EPAS1 and HIF-2α targets in acute hypoxia and in a blunting of the transcriptional response to sustained hypoxia. Deletion of ENH5 in mice results in dysregulation of gene expression across multiple tissues. We propose that pleiotropic adaptive effects of the Tibetan alleles in EPAS1 underlie the strong selective signal at this gene.
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