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Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 1573-4064
ISSN (Online): 1875-6638

SAR Analysis of New Dual Targeting Fluoroquinolones. Implications of the Benzenesulfonyl Group

Author(s): Marcelo J. Nieto, Adriana B. Pierini, Nidhi Singh, Christopher R. McCurdy, Ruben H. Manzo and aria R. Mazzieri

Volume 8, Issue 3, 2012

Page: [349 - 360] Pages: 12

DOI: 10.2174/157340612800786633

Price: $65

Abstract

When a benzenesulfonyl moiety (BS) was bound to the N-piperazinyl ring of antibacterial fluoroquinolones (AMFQs) norfloxacin (NOR) or ciprofloxacin (CIP), the resulting benzenesulfonyl-fluoroquinolone (BSFQs) analogs showed an improved in vitro activity against Gram-positive strains. A bioisosterical replacement of the sulfonyl group for a carbonyl group led to the benzenecarboxamide-fluoroquinolones (BCFQs) that showed a similar trend in the antibacterial activity and spectrum. The BSFQs and BCFQs are considered members of the "dual targeting" fluoroquinolones, targeting both DNA gyrase and topoisomerase IV. To disclose the real contribution of the BS/BC moiety in anti-staphylococcal activity, a 3D-QSAR analysis that included calculation of theoretical molecular descriptors and pharmacophore generation was performed. Previous and present QSAR results have confirmed the positive influence on activity of small electron donating p-substituent on the BS or BC moiety. The generated phamacophore model showed that both phenyl and SO2/CO groups are involved in the interaction with receptor. We postulate that the enhanced potency of BSFQs against Staphylococcus aureus compared to CIP and NOR could be caused by the presence of the BS moiety that resulted in enhanced binding to DNA gyrase of Sa. Additionally, their greater ability to enter bacterial cells by diffusion and a reduced susceptibility to FQ-specific efflux pumps could also make a contribution.

Keywords: Benzenesulfonyl group, conformational analysis, fluoroquinolones, pharmacophore, QSAR, Staphylococcus, spectrum, benzenecarboxamide, bioisosterical, topoisomerase


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