Korolev S P, Tashlitskiĭ V N, Smolov M A, Gromyko A V, Zhuze A L, Agapkina Iu Iu, Gottikh M B
Mol Biol (Mosk). 2010 Jul-Aug;44(4):718-27.
HIV-1 integrase is responsible for one of the key steps of the viral replication, integration of the viral cDNA into the host cell genome. Integration inhibition leads to complete block of the virus replication. In this study inhibition of integration by dimeric bisbenzimidazoles DBBI(7) with heptamethylene and DBBI(8) with tri(ethylene glycol) spacers was examined, and it was learned out that IC50 for DBBI(7) was about 0.03 microM, and IC50 for DBBI(8) was about 10 microM. By using cross-linking assays, it was shown that both compounds impeded a proper disposition of DNA-substrate at the active centre of integrase. Dissociation constants for complexes between either DBBI and DNA-substrate of integrase were determined. Calculated Kd values were 270 nM and 140 nM for complexes formed by DBBI(7) and DBBI(8), respectively. Therefore, inhibition of integration does not directly result from the binding of DBBIs with DNA. The dependence of initial rates of enzymatic reaction on the DNA-substrate concentration in presence of different concentrations of inhibitors was found, and inhibition constants were determined. All the data obtained allow us to suppose that the different inhibition activity of DBBI(7) and DBBI(8) results from the different mechanism of their binding: DBBI(7) is a competitive inhibitor of integrase whereas DBBI(8) is assumed to show a more complex mechanism of inhibition.
HIV-1整合酶负责病毒复制的关键步骤之一,即将病毒cDNA整合到宿主细胞基因组中。整合抑制会导致病毒复制完全受阻。在本研究中,检测了带有庚亚甲基的二聚双苯并咪唑DBBI(7)和带有三(乙二醇)间隔基的DBBI(8)对整合的抑制作用,结果发现DBBI(7)的IC50约为0.03微摩尔,DBBI(8)的IC50约为10微摩尔。通过交联分析表明,这两种化合物都阻碍了DNA底物在整合酶活性中心的正确排列。测定了DBBI与整合酶DNA底物之间复合物的解离常数。DBBI(7)和DBBI(8)形成的复合物的计算Kd值分别为270 nM和140 nM。因此,整合抑制并非直接源于DBBIs与DNA的结合。研究了在不同浓度抑制剂存在下酶促反应初始速率对DNA底物浓度的依赖性,并测定了抑制常数。所有获得的数据使我们推测,DBBI(7)和DBBI(8)不同的抑制活性源于它们不同的结合机制:DBBI(7)是整合酶的竞争性抑制剂,而DBBI(8)被认为表现出更复杂的抑制机制。
