Litcius/Paper detail

Active Components from Cassia abbreviata Prevent HIV-1 Entry by Distinct Mechanisms of Action

Yue Zheng, Xian‐Wen Yang, Dominique Schols, Mattia Mori, Bruno Botta, Andy Chevigné, Martin M. Mulinge, André Steinmetz, Jean‐Claude Schmit, Carole Seguin‐Devaux

2021International Journal of Molecular Sciences17 citationsDOIOpen Access PDF

Abstract

Cassia abbreviata is widely used in Sub-Saharan Africa for treating many diseases, including HIV-1 infection. We have recently described the chemical structures of 28 compounds isolated from an alcoholic crude extract of barks and roots of C. abbreviata, and showed that six bioactive compounds inhibit HIV-1 infection. In the present study, we demonstrate that the six compounds block HIV-1 entry into cells: oleanolic acid, palmitic acid, taxifolin, piceatannol, guibourtinidol-(4α→8)-epiafzelechin, and a novel compound named as cassiabrevone. We report, for the first time, that guibourtinidol-(4α→8)-epiafzelechin and cassiabrevone inhibit HIV-1 entry (IC50 of 42.47 µM and 30.96 µM, respectively), as well as that piceatannol interacts with cellular membranes. Piceatannol inhibits HIV-1 infection in a dual-chamber assay mimicking the female genital tract, as well as HSV infection, emphasizing its potential as a microbicide. Structure-activity relationships (SAR) showed that pharmacophoric groups of piceatannol are strictly required to inhibit HIV-1 entry. By a ligand-based in silico study, we speculated that piceatannol and norartocarpetin may have a very similar mechanism of action and efficacy because of the highly comparable pharmacophoric and 3D space, while guibourtinidol-(4α→8)-epiafzelechin and cassiabrevone may display a different mechanism. We finally show that cassiabrevone plays a major role of the crude extract of CA by blocking the binding activity of HIV-1 gp120 and CD4.

Topics & Concepts

Oleanolic acidPiceatannolEntry inhibitorMechanism of actionChemistryPharmacologyMaravirocCassiaVitexTraditional medicineHuman immunodeficiency virus (HIV)BiochemistryBiologyMedicineViral entryIn vitroViral replicationVirologyVirusAlternative medicinePathologyTraditional Chinese medicineResveratrolHIV Research and TreatmentCarbohydrate Chemistry and SynthesisToxin Mechanisms and Immunotoxins