New insights into the substrate inhibition of human 17β-hydroxysteroid dehydrogenase type 1

辅因子 氧化还原酶 变构调节 三元络合物 NAD+激酶 脱氢酶 立体化学 基质(水族馆) 化学 羟类固醇脱氢酶 生物化学 羟类固醇脱氢酶 还原酶 结合位点 雌酮 活动站点 生物 激素 生态学
作者
Tang Li,Xiaohui Song,Preyesh Stephen,Heng Yin,Sheng‐Xiang Lin
出处
期刊:The Journal of Steroid Biochemistry and Molecular Biology [Elsevier BV]
卷期号:228: 106246-106246 被引量:5
标识
DOI:10.1016/j.jsbmb.2023.106246
摘要

Human type 1 17β-hydroxysteroid dehydrogenase (17β-HSD1),a member of the short-chain dehydrogenase/reductase family, catalyzes the last step in the bioactivation of the most potent estrogen estradiol with high specificity and is thus involved in estrogen-dependent diseases. As an oxidoreductase, 17β-HSD1 can utilize both triphosphate and diphosphate cofactors in reaction at the molecular level, but more specific with triphosphate cofactor. The NADPH is much higher than NADP+ in living cells leading to preliminary reduction action. The enzyme also showed substrate-induced inhibition unprecedented in other members of 17β-HSDs. Our previous study elucidated the structural mechanism of substrate inhibition is due to the reversely bound estrone (E1) in the substrate-binding pocket of the enzyme resulting in a dead-end complex. However, the effect of the cofactor preference on the substrate inhibition of the enzyme is not yet clear. In the present study, we solved the ternary crystal structures of 17β-HSD1 in complex with E1 and cofactor analog NAD+ . Combined with molecular dynamics simulation using the enzyme with NADH/NADPH and different oriented E1 (normally oriented, E1N; reversely oriented, E1R), such ternary structure provides a complete picture of enzyme-substrate-cofactor interactions. The results reveal that different cofactors and substrate binding mode affect the allosteric effect between the two subunits of the enzyme. And the results from MD simulations confirmed that His221 plays a key role in the formation of dead-end complex in NADPH complex, and the absence of stable interaction between His221 and E1R in the NADH complex should be the main reason for its lack of substrate inhibition.
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