IV-1 integrase (IN) is an attractive and validated target for the development of novel therapeutics against AIDS. Significant efforts have been devoted to the identification of IN inhibitors using various methods. In this context, through virtual screening of the NCI database and structure-based drug design strategies, we identified several pharmacophoric fragments and incorporated them on various aromatic or heteroaromatic rings. In addition, we designed and synthesized a series of 5-aryl(heteroaryl)-isoxazole-3-carboxylic acids as biological isosteric analogues of beta-diketo acid containing inhibitors of HIV-1 IN and their derivatives. Further computational docking studies were performed to investigate the mode of interactions of the most active ligands with the IN active site. Results suggested that some of the tested compounds could be considered as lead compounds and suitable for further optimization
Design of novel bioisosteres of β-diketo acid inhibitors of HIV-1 integrase / Sechi, Mario*; Sannia, Luciano; Carta, Fabrizio; Palomba, Michele; Dallocchio, Roberto; Dessì, Alessandro; Derudas, Massimiliano; Zawahir, Zahrah; Neamati, Nouri. - In: ANTIVIRAL CHEMISTRY & CHEMOTHERAPY. - ISSN 0956-3202. - ELETTRONICO. - 16:(2005), pp. 41-61. [10.1177/095632020501600105]
Design of novel bioisosteres of β-diketo acid inhibitors of HIV-1 integrase
Carta, Fabrizio;
2005
Abstract
IV-1 integrase (IN) is an attractive and validated target for the development of novel therapeutics against AIDS. Significant efforts have been devoted to the identification of IN inhibitors using various methods. In this context, through virtual screening of the NCI database and structure-based drug design strategies, we identified several pharmacophoric fragments and incorporated them on various aromatic or heteroaromatic rings. In addition, we designed and synthesized a series of 5-aryl(heteroaryl)-isoxazole-3-carboxylic acids as biological isosteric analogues of beta-diketo acid containing inhibitors of HIV-1 IN and their derivatives. Further computational docking studies were performed to investigate the mode of interactions of the most active ligands with the IN active site. Results suggested that some of the tested compounds could be considered as lead compounds and suitable for further optimization
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