生物
红细胞生成
缺氧(环境)
突变
错义突变
祖细胞
表型
遗传学
细胞生物学
突变体
分子生物学
基因
干细胞
内科学
氧气
贫血
化学
有机化学
医学
作者
Felipe Lorenzo,Chad D. Huff,Mikko Myllymäki,Benjamin A. Olenchock,Sabina Świerczek,Tsewang Tashi,Victor R. Gordeuk,Tana Wuren,Ri‐Li Ge,Donald A. McClain,Tahsin Khan,Parvaiz A Koul,Prasenjit Guchhait,Mohamed E. Salama,Jinchuan Xing,Gregg L. Semenza,Ella Liberzon,Andrew Wilson,Tatum S. Simonson,Lynn B. Jorde
出处
期刊:Nature Genetics
[Nature Portfolio]
日期:2014-08-17
卷期号:46 (9): 951-956
被引量:431
摘要
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 K(m) 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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