痛风
运输机
高尿酸血症
基础(线性代数)
药理学
化学
尿酸
内科学
医学
生物化学
基因
数学
几何学
作者
Yang Suo,Justin G. Fedor,Han Zhang,Kalina Tsolova,Xiaoyu Shi,Kedar Sharma,Shweta Kumari,Mario J. Borgnia,Peng Zhan,Wonpil Im,Seok‐Yong Lee
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2024-09-12
被引量:5
标识
DOI:10.1101/2024.09.11.612563
摘要
Abstract Hyperuricemia is a condition when uric acid, a waste product of purine metabolism, accumulates in the blood 1 . Untreated hyperuricemia can lead to crystal formation of monosodium urate in the joints, causing a painful inflammatory disease known as gout. These conditions are associated with many other diseases and affect a significant and increasing proportion of the population 2–4 . The human urate transporter 1 (URAT1) is responsible for the reabsorption of ∼90% of uric acid in the kidneys back into the blood, making it a primary target for treating hyperuricemia and gout 5 . Despite decades of research and development, clinically available URAT1 inhibitors have limitations because the molecular basis of URAT1 inhibition by gout drugs remains unknown 5 . Here we present cryo-electron microscopy structures of URAT1 alone and in complex with three clinically relevant inhibitors: benzbromarone, lesinurad, and the novel compound TD-3. Together with functional experiments and molecular dynamics simulations, we reveal that these inhibitors bind selectively to URAT1 in inward-open states. Furthermore, we discover differences in the inhibitor dependent URAT1 conformations as well as interaction networks, which contribute to drug specificity. Our findings illuminate a general theme for URAT1 inhibition, paving the way for the design of next-generation URAT1 inhibitors in the treatment of gout and hyperuricemia.
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