The structural basis for glycerol permeation by human AQP7
Li Zhang, Deqiang Yao, Ying Xia, Fu Zhou, Qing Zhang, Qian Wang, An Qin, Jie Zhao, Dianfan Li, Yan Li, Lu Zhou, Yu Cao
Journal:Science Bulletin
IF:9.51
DOI:10.1016/j.scib.2020.12.006
PMID:36654284
Published:2020-12-09
research field:分子生物学细胞生物学结构生物学生物物理学
Abstract
Human glycerol channel aquaporin 7 (AQP7) conducts glycerol release from adipocyte and enters the cells in pancreatic islets, muscles, and kidney tubules, and thus regulates glycerol metabolism in those tissues. Compared with other human aquaglyceroporins, AQP7 shows a less conserved “NPA” motif in the center cavity and a pair of aromatic residues at Ar/R selectivity filter. To understand the structural basis for the glycerol conductance, we crystallized the human AQP7 and determined the structure at 3.7 Å. A substrate binding pocket was found near the Ar/R filter where a glycerol molecule is bound and stabilized by R229. Glycerol uptake assay on human AQP7 as well as AQP3 and AQP10 demonstrated strong glycerol transportation activities at the physiological condition . The human AQP7 structure, in combination with the molecular dynamics simulation thereon, reveals a fully closed conformation with its permeation pathway strictly confined by the Ar/R filter at the exoplasmic side and the gate at the cytoplasmic side, and the binding of glycerol at the Ar/R filter plays a critical role in controlling the glycerol flux by driving the dislocation of the residues at narrowest parts of glycerol pathway in AQP7.
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