The HIV-1 integrase (IN) plays a critical role in the viral lifecycle by integrating the viral DNA into the host chromosome. The catalytic function of IN has been exploited as a target, with five drugs acting as active site binders (IN strand transfer inhibitors, INSTIs). However, IN mutations conferring low-level resistance to INSTIs have been reported. Therefore, new IN inhibitors with different mechanisms of action are needed. The allosteric inhibition of IN, exerted by allosteric IN inhibitors (ALLINIs), is gaining interest. ALLINIs inhibit IN by inducing aberrant IN multimerization with different mechanisms. Furthermore, recent discoveries unveiled that IN has an under-studied yet equally vital second function. This involves IN binding to the RNA genome in virions, necessary for proper virion maturation. In this work, we describe a series of quinolinonyl derivatives as inhibitors of both the IN catalytic functions and IN-RNA interactions, which impair both early and late steps of viral replication.
Quinolinonyl Derivatives as Dual Inhibitors of the HIV-1 Integrase Catalytic Site and Integrase-RNA interactions / Patacchini, E.; Madia, V. N.; Albano, A.; Ruggieri, G.; Messore, A.; Ialongo, D.; Saccoliti, F.; Scipione, L.; Cosconati, S.; Koneru, P. C.; Haney, R.; Kvaratskhelia, M.; Di Santo, R.; Costi, R.. - In: ACS MEDICINAL CHEMISTRY LETTERS. - ISSN 1948-5875. - 15:9(2024), pp. 1533-1540. [10.1021/acsmedchemlett.4c00268]
Quinolinonyl Derivatives as Dual Inhibitors of the HIV-1 Integrase Catalytic Site and Integrase-RNA interactions
Patacchini E.;Madia V. N.;Albano A.;Messore A.;Ialongo D.;Saccoliti F.;Scipione L.;Di Santo R.;Costi R.
2024
Abstract
The HIV-1 integrase (IN) plays a critical role in the viral lifecycle by integrating the viral DNA into the host chromosome. The catalytic function of IN has been exploited as a target, with five drugs acting as active site binders (IN strand transfer inhibitors, INSTIs). However, IN mutations conferring low-level resistance to INSTIs have been reported. Therefore, new IN inhibitors with different mechanisms of action are needed. The allosteric inhibition of IN, exerted by allosteric IN inhibitors (ALLINIs), is gaining interest. ALLINIs inhibit IN by inducing aberrant IN multimerization with different mechanisms. Furthermore, recent discoveries unveiled that IN has an under-studied yet equally vital second function. This involves IN binding to the RNA genome in virions, necessary for proper virion maturation. In this work, we describe a series of quinolinonyl derivatives as inhibitors of both the IN catalytic functions and IN-RNA interactions, which impair both early and late steps of viral replication.File | Dimensione | Formato | |
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