藏族人适应高海拔环境的遗传机制。

A genetic mechanism for Tibetan high-altitude adaptation.

作者信息

Lorenzo Felipe R, Huff Chad, Myllymäki Mikko, Olenchock Benjamin, Swierczek Sabina, Tashi Tsewang, Gordeuk Victor, Wuren Tana, Ri-Li Ge, McClain Donald A, Khan Tahsin M, Koul Parvaiz A, Guchhait Prasenjit, Salama Mohamed E, Xing Jinchuan, Semenza Gregg L, Liberzon Ella, Wilson Andrew, Simonson Tatum S, Jorde Lynn B, Kaelin William G, Koivunen Peppi, Prchal Josef T

机构信息

1] Department of Medicine, University of Utah School of Medicine and George E. Wahlin Veterans Administration Medical Center, Salt Lake City, Utah, USA. [2].

1] Eccles Institute of Human Genetics, University of Utah School of Medicine, Salt Lake City, Utah, USA. [2] Department of Epidemiology, University of Texas M.D. Anderson Cancer Center, Houston, Texas, USA. [3].

出版信息

Nat Genet. 2014 Sep;46(9):951-6. doi: 10.1038/ng.3067. Epub 2014 Aug 17.

DOI:10.1038/ng.3067

PMID:25129147

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4473257/

Abstract

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.

摘要

藏族人在高海拔地区不会出现血红蛋白浓度升高的情况。我们描述了一种存在于EGLN1基因中的高频错义突变，该基因编码脯氨酰羟化酶2（PHD2），这种突变促成了这种适应性反应。我们发现EGLN1基因中的一个变体c.[12C>G; 380G>C]在功能上对藏族人的高海拔表型有影响。PHD2会触发缺氧诱导因子（HIFs）的降解，而HIFs介导许多对缺氧的生理反应，包括红细胞生成。PHD2 p.[Asp4Glu; Cys127Ser]变体对氧气的米氏常数（K(m)）值较低，这表明它在缺氧条件下会促进HIF降解的增加。虽然缺氧会刺激野生型红系祖细胞的增殖，但在缺氧培养条件下，EGLN1基因中携带c.[12C>G; 380G>C]突变的祖细胞的增殖会受到显著损害。我们发现c.[12C>G; 380G>C]突变大约在8000年前起源于与适应高海拔相关的同一单倍型上。c.[12C>G; 380G>C]突变消除了缺氧诱导的以及HIF介导的红细胞生成增加，这为观察到的藏族人在高海拔地区免受红细胞增多症影响提供了一种分子机制。

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