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具有高氧化稳定性的硼酸对HIV-1蛋白酶的抑制作用。

Inhibition of HIV-1 Protease by a Boronic Acid with High Oxidative Stability.

作者信息

Graham Brian J, Windsor Ian W, Raines Ronald T

机构信息

Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, United States.

出版信息

ACS Med Chem Lett. 2023 Jan 25;14(2):171-175. doi: 10.1021/acsmedchemlett.2c00464. eCollection 2023 Feb 9.

DOI:10.1021/acsmedchemlett.2c00464
PMID:36793428
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9923841/
Abstract

HIV-1 protease is an important target for pharmaceutical intervention in HIV infection. Extensive structure-based drug design led to darunavir becoming a key chemotherapeutic agent. We replaced the aniline group of darunavir with a benzoxaborolone to form BOL-darunavir. This analogue has the same potency as darunavir as an inhibitor of catalysis by wild-type HIV-1 protease and, unlike darunavir, does not lose potency as an inhibitor of the common D30N variant. Moreover, BOL-darunavir is much more stable to oxidation than is a simple phenylboronic acid analogue of darunavir. X-ray crystallography revealed an extensive network of hydrogen bonds between the enzyme and benzoxaborolone moiety, including a novel direct hydrogen bond from a main-chain nitrogen to the carbonyl oxygen of the benzoxaborolone moiety that displaces a water molecule. These data highlight the utility of benzoxaborolone as a pharmacophore.

摘要

HIV-1蛋白酶是HIV感染药物干预的重要靶点。广泛的基于结构的药物设计使达芦那韦成为一种关键的化疗药物。我们用苯并硼氧六环取代了达芦那韦的苯胺基团,形成了BOL-达芦那韦。作为野生型HIV-1蛋白酶催化作用的抑制剂,该类似物与达芦那韦具有相同的效力,并且与达芦那韦不同,作为常见D30N变体的抑制剂,它不会丧失效力。此外,BOL-达芦那韦比达芦那韦的简单苯基硼酸类似物对氧化更稳定。X射线晶体学揭示了酶与苯并硼氧六环部分之间广泛的氢键网络,包括从主链氮到苯并硼氧六环部分羰基氧的新型直接氢键,该氢键取代了一个水分子。这些数据突出了苯并硼氧六环作为药效团的效用。

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