Open AccessBeluga whale pVHL enhances HIF-2α activity via inducing HIF-2α proteasomal degradation under hypoxia
Author(s) -
Jianling Bi,
Bo Hu,
Jing Wang,
Xing Liu,
Jinsong Zheng,
Ding Wang,
Wuhan Xiao
Publication year - 2017
Publication title -
oncotarget
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.373
H-Index - 127
ISSN - 1949-2553
DOI - 10.18632/oncotarget.15038
Subject(s) - whale , hypoxia (environmental) , beluga whale , hydrobiology , biology , medicine , endocrinology , aquatic environment , chemistry , ecology , arctic , oxygen , organic chemistry
Aquatic mammals, such as cetaceans experience various depths, with accordingly diverse oxygenation, thus, cetaceans have developed adaptations for hypoxia, but mechanisms underlying this tolerance to low oxygen are unclear. Here we analyzed VHL and HIF-2α, in the hypoxia signaling pathway. Variations in VHL are greater than HIF-2α between cetaceans and terrestrial mammals, and beluga whale VHL (BW-VHL) promotes HIF-2α degradation under hypoxia. BW-VHL catalyzes BW-HIF-2α to form K48-linked poly-ubiquitin chains mainly at the lysine 429 of BW-HIF-2α (K429) and induces BW-HIF-2α for proteasomal degradation. W100 within BW-VHL is a key site for BW-VHL functionally and BW-VHL enhances transcriptional activity of BW-HIF-2α under hypoxia. Our data therefore reveal that BW-VHL has a unique function that may contribute to hypoxic adaptation.