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Literature DB >> 25129147

A genetic mechanism for Tibetan high-altitude adaptation.

Felipe R Lorenzo¹, Chad Huff², Mikko Myllymäki³, Benjamin Olenchock⁴, Sabina Swierczek⁵, Tsewang Tashi⁵, Victor Gordeuk⁶, Tana Wuren⁷, Ge Ri-Li⁷, Donald A McClain⁵, Tahsin M Khan⁸, Parvaiz A Koul⁹, Prasenjit Guchhait¹⁰, Mohamed E Salama¹¹, Jinchuan Xing¹², Gregg L Semenza¹³, Ella Liberzon¹⁴, Andrew Wilson¹⁵, Tatum S Simonson¹⁶, Lynn B Jorde¹⁷, William G Kaelin¹⁴, Peppi Koivunen³, Josef T Prchal¹⁸.

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.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

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Year: 2014 PMID： 25129147 PMCID： PMC4473257 DOI： 10.1038/ng.3067

Source DB: PubMed Journal: Nat Genet ISSN： 1061-4036 Impact factor: 38.330

38 in total

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7. Endemic polycythemia in Russia: mutation in the VHL gene.

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8. A novel erythrocytosis-associated PHD2 mutation suggests the location of a HIF binding groove.

Authors: Melanie J Percy; Paul W Furlow; Philip A Beer; Terence R J Lappin; Mary Frances McMullin; Frank S Lee
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9. Characterization of the human prolyl 4-hydroxylases that modify the hypoxia-inducible factor.

Authors: Maija Hirsilä; Peppi Koivunen; Volkmar Günzler; Kari I Kivirikko; Johanna Myllyharju
Journal: J Biol Chem Date: 2003-06-03 Impact factor: 5.157

10. The kinetics of hematopoietic stem cells during and after hypoxia. A model analysis.

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