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本文引用的文献

1
Neuronal HIF-1α in the nucleus tractus solitarius contributes to ventilatory acclimatization to hypoxia.孤束核中的神经元 HIF-1α 有助于通气对低氧的适应。
J Physiol. 2020 May;598(10):2021-2034. doi: 10.1113/JP279331. Epub 2020 Apr 1.
2
Structure, Function, and Regulation of the Hsp90 Machinery.热休克蛋白 90 机器的结构、功能和调控。
Cold Spring Harb Perspect Biol. 2019 Sep 3;11(9):a034017. doi: 10.1101/cshperspect.a034017.
3
The earliest human occupation of the high-altitude Tibetan Plateau 40 thousand to 30 thousand years ago.距今 4 万至 3 万年前,人类最早开始在高海拔的青藏高原地区活动。
Science. 2018 Nov 30;362(6418):1049-1051. doi: 10.1126/science.aat8824.
4
Remodeling Ancestral Phenotypic Plasticity in Local Adaptation: A New Framework to Explore the Role of Genetic Compensation in the Evolution of Homeostasis.重塑局部适应中的祖先表型可塑性:探索遗传补偿在稳态进化中作用的新框架。
Integr Comp Biol. 2018 Dec 1;58(6):1098-1110. doi: 10.1093/icb/icy117.
5
HIF-2α is essential for carotid body development and function.低氧诱导因子 2α 对于颈动脉体的发育和功能至关重要。
Elife. 2018 Apr 19;7:e34681. doi: 10.7554/eLife.34681.
6
Human Genetic Adaptation to High Altitudes: Current Status and Future Prospects.人类对高海拔的遗传适应:现状与未来展望
Quat Int. 2017 Dec 15;461:4-13. doi: 10.1016/j.quaint.2016.09.045. Epub 2016 Oct 6.
7
Endothelial HIF-2α contributes to severe pulmonary hypertension due to endothelial-to-mesenchymal transition.内皮细胞 HIF-2α 通过内皮细胞向间充质转化导致严重肺动脉高压。
Am J Physiol Lung Cell Mol Physiol. 2018 Feb 1;314(2):L256-L275. doi: 10.1152/ajplung.00096.2017. Epub 2017 Oct 26.
8
Evolutionary history of Tibetans inferred from whole-genome sequencing.从全基因组测序推断藏族人的进化史。
PLoS Genet. 2017 Apr 27;13(4):e1006675. doi: 10.1371/journal.pgen.1006675. eCollection 2017 Apr.
9
Genetic signatures of high-altitude adaptation in Tibetans.藏族人高原适应的遗传特征。
Proc Natl Acad Sci U S A. 2017 Apr 18;114(16):4189-4194. doi: 10.1073/pnas.1617042114. Epub 2017 Apr 3.
10
Gain-of-function EGLN1 prolyl hydroxylase (PHD2 D4E:C127S) in combination with EPAS1 (HIF-2α) polymorphism lowers hemoglobin concentration in Tibetan highlanders.功能获得性EGLN1脯氨酰羟化酶(PHD2 D4E:C127S)与EPAS1(缺氧诱导因子-2α)多态性共同作用可降低藏族高原居民的血红蛋白浓度。
J Mol Med (Berl). 2017 Jun;95(6):665-670. doi: 10.1007/s00109-017-1519-3. Epub 2017 Feb 23.

藏人,一个具有功能丧失特性的等位基因。

Tibetan , an allele with loss-of-function properties.

机构信息

Department of Pathology and Laboratory Medicine, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA 19104.

Department of Ultrasound, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, 430022 Wuhan, China.

出版信息

Proc Natl Acad Sci U S A. 2020 Jun 2;117(22):12230-12238. doi: 10.1073/pnas.1920546117. Epub 2020 May 15.

DOI:10.1073/pnas.1920546117
PMID:32414920
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7275716/
Abstract

Tibetans have adapted to the chronic hypoxia of high altitude and display a distinctive suite of physiologic adaptations, including augmented hypoxic ventilatory response and resistance to pulmonary hypertension. Genome-wide studies have consistently identified compelling genetic signatures of natural selection in two genes of the Hypoxia Inducible Factor pathway, and The product of the former induces the degradation of the product of the latter. Key issues regarding Tibetan are whether it is a gain-of-function or loss-of-function allele, and how it might contribute to high-altitude adaptation. Tibetan PHD2 possesses two amino acid changes, D4E and C127S. We previously showed that in vitro, Tibetan PHD2 is defective in its interaction with p23, a cochaperone of the HSP90 pathway, and we proposed that Tibetan is a loss-of-function allele. Here, we report that additional PHD2 mutations at or near Asp-4 or Cys-127 impair interaction with p23 in vitro. We find that mice with the Tibetan allele display augmented hypoxic ventilatory response, supporting this loss-of-function proposal. This is phenocopied by mice with a mutation in that abrogates the PHD2:p23 interaction. haploinsufficiency, but not the Tibetan allele, ameliorates hypoxia-induced increases in right ventricular systolic pressure. The Tibetan allele is not associated with hemoglobin levels in mice. We propose that Tibetans possess genetic alterations that both activate and inhibit selective outputs of the HIF pathway to facilitate successful adaptation to the chronic hypoxia of high altitude.

摘要

藏人已经适应了高原的慢性缺氧环境,表现出独特的一系列生理适应性,包括增强的低氧通气反应和对肺动脉高压的抵抗力。全基因组研究一致在缺氧诱导因子通路的两个基因中发现了引人注目的自然选择遗传特征,前者的产物诱导后者的产物降解。关于藏人 的关键问题是它是功能获得性还是功能丧失性等位基因,以及它如何促进高原适应。藏人 PHD2 拥有两个氨基酸变化,D4E 和 C127S。我们之前表明,在体外,藏人 PHD2 与其 HSP90 通路共伴侣 p23 的相互作用存在缺陷,我们提出藏人 是一个功能丧失性等位基因。在这里,我们报告在 Asp-4 或 Cys-127 附近或附近的其他 PHD2 突变会损害体外与 p23 的相互作用。我们发现,携带藏人 等位基因的小鼠表现出增强的低氧通气反应,支持这种功能丧失性假说。这与消除 PHD2:p23 相互作用的突变小鼠类似。PHD2 单倍不足,但不是藏人 等位基因,可改善低氧诱导的右心室收缩压升高。藏人 等位基因与小鼠的血红蛋白水平无关。我们提出,藏人拥有既能激活又能抑制 HIF 通路选择性输出的遗传改变,以促进对高原慢性缺氧的成功适应。