Felipe Lorenzo scite author profile

Tibetans have lived at very high altitudes for thousands of years, and they have a distinctive suite of physiological traits that enable them to tolerate environmental hypoxia. These phenotypes are clearly the result of adaptation to this environment, but their genetic basis remains unknown. We report genome-wide scans that reveal positive selection in several regions that contain genes whose products are likely involved in high-altitude adaptation. Positively selected haplotypes of EGLN1 and PPARA were significantly associated with the decreased hemoglobin phenotype that is unique to this highland population. Identification of these genes provides support for previously hypothesized mechanisms of high-altitude adaptation and illuminates the complexity of hypoxia-response pathways in humans.

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SomaticHIF2AGain-of-Function Mutations in Paraganglioma with Polycythemia

Zhuang

et al. 2012

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SUMMARY Hypoxia inducible factors (HIFs) are transcription factors controlling energy, iron metabolism, erythropoiesis, and development, and, when dysregulated, contribute to tumorigenesis, cancer progression, and invasion. However, HIFα mutations have not previously been identified in any cancer. Here we report two novel somatic gain-of-function HIF2α mutations in two patients, one presenting with a paraganglioma and a second with both paraganglioma and somatostatinoma. Both mutations were shown to confer increased HIF2α activity and protein half-life. While germline mutations of regulators of HIFα, including VHL and EGLN1, have been reported in pheochromocytomas/paragangliomas, this is the first report of a somatic gain-of-function mutation in HIF.

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A genetic mechanism for Tibetan high-altitude adaptation

Lorenzo¹,

Huff²,

Myllymäki³

et al. 2014

Nat Genet

351

320

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Tibetans do not exhibit increased hemoglobin concentration at high altitude. We describe a high-frequency missense mutation in the EGLN1 gene, which encodes prolyl hydroxylase 2 (PHD2), that contributes to this adaptive response. We show that a variant in EGLN1, c.[12C>G; 380G>C], contributes functionally to the Tibetan high-altitude phenotype. PHD2 triggers the degradation of hypoxia-inducible factors (HIFs), which mediate many physiological responses to hypoxia, including erythropoiesis. The PHD2 p.[Asp4Glu; Cys127Ser] variant exhibits a lower Km value for oxygen, suggesting that it promotes increased HIF degradation under hypoxic conditions. Whereas hypoxia stimulates the proliferation of wild-type erythroid progenitors, the proliferation of progenitors with the c.[12C>G; 380G>C] mutation in EGLN1 is significantly impaired under hypoxic culture conditions. We show that the c.[12C>G; 380G>C] mutation originated ~8,000 years ago on the same haplotype previously associated with adaptation to high altitude. The c.[12C>G; 380G>C] mutation abrogates hypoxia-induced and HIF-mediated augmentation of erythropoiesis, which provides a molecular mechanism for the observed protection of Tibetans from polycythemia at high altitude.

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A novel EPAS1/HIF2A germline mutation in a congenital polycythemia with paraganglioma

et al. 2012

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Congenital polycythemias have diverse etiologies, including mutations in the hypoxia sensing pathway. These include HIF2A at exon 12, VHL gene (Chuvash polycythemia), and PHD2 mutations, which in one family was also associated with recurrent pheochromocytoma/paraganglioma (PHEO/PGL). Over the past two decades, we have studied seven unrelated patients with sporadic congenital polycythemia who subsequently developed PHEO/PGL with, until now, no discernible molecular basis. We now report a polycythemic patient with a novel germline HIF2AF374Y (exon 9) mutation, inherited from his mother, who developed PHEO/PGL. We show that this is a gain-of-function mutation and demonstrate no loss-of-heterozygosity or additional somatic mutation of HIF2A in the tumor, indicating HIF2AF374Y may be predisposing rather than causative of PHEO/PGL. This report, in view of 2 other concomitantly reported PHEO/PGL patients with somatic mutations of HIF2A and polycythemia, underscores the PHEO/PGL promoting potential of mutations of HIF2A that alone are not sufficient for PHEO/PGL development.

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Felipe Lorenzo

Genetic Evidence for High-Altitude Adaptation in Tibet

SomaticHIF2AGain-of-Function Mutations in Paraganglioma with Polycythemia

A genetic mechanism for Tibetan high-altitude adaptation

A novel EPAS1/HIF2A germline mutation in a congenital polycythemia with paraganglioma

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