Interactions of the dimeric triad of HIV-1 aspartyl protease with inhibitors.

Drug design and discovery Pub Date : 2003-01-01
Peter P Mager, Erik De Clercq, Matheus Froeyen, Robert Reinhardt
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引用次数: 0

Abstract

Strong hydrogen-bonding forces between the Thr26 and Thr26' of the protease stabilize the internal cage of the dimeric triad of the aspartyl HIV-1 protease (Asp25Thr26Gly27 and Asp25' Thr26'Gly27', respectively). The interaction of reversible inhibitors of HIV-1 protease is based on (i) strong hydrogen-bonding forces between the main chain (--CONH--) oxygen atoms of Gly27 and/or Gly27' and hydrogen-bond donating moieties of a drug, and (ii) hydrogen bonds between the oxygen of the catalytic Asp25 and/or Asp25' carboxylates and aliphatic hydroxyl groups of a drug. The free entry of natural substrates into the active-site cavity is sterically hindered by inhibitors, so that the catalytic Asp carboxylates cannot interact with natural substrates. Irreversible inhibitors interact with the nucleophilic carboxylate moiety of Asp25 of HIV-1 protease by covalent bonding.

HIV-1天冬氨酸蛋白酶二聚体与抑制剂的相互作用。
蛋白酶的Thr26和Thr26'之间的强大氢键力稳定了天冬氨酸HIV-1蛋白酶(分别为Asp25Thr26Gly27和Asp25' Thr26' gly27 ')二聚体三聚体的内部笼。HIV-1蛋白酶的可逆抑制剂的相互作用是基于(i) Gly27和/或Gly27'的主链(- CONH-)氧原子与药物的氢键提供部分之间的强氢键力,以及(ii) Asp25和/或Asp25'羧基的催化氧与药物的脂肪羟基之间的氢键。天然底物自由进入活性位点空腔受到抑制剂的立体阻碍,因此具有催化作用的Asp羧酸盐不能与天然底物相互作用。不可逆抑制剂通过共价键与HIV-1蛋白酶Asp25的亲核羧酸基团相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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