Manjunath Moger scite author profile

As part of Drugs for Neglected Diseases initiative's lead optimization program for the development of new chemical entities to treat visceral leishmaniasis (VL), a series of aminothiazoles were synthesized and screened for in vitro efficacy, solubility and microsomal stability. The primary aim of identifying a lead structure with sub-micromolar activity was achieved. Out of 43 compounds synthesized, 16 compounds showed in vitro activity at less than 1 μM against VL. Compound 32 showed excellent antileishmanial potency (IC50 = 3 nM) and had all the acceptable properties except for metabolic instability. Blocking the metabolic soft spots in compound 32, where the 4-methoxy pyridine substituent was replaced by 5-ethoxy group, led to compound 36 (IC50 = 280 nM) with improved stability. To understand the disposition of 36, in vivo pharmacokinetic study was conducted in a mouse model. Compound 36 showed high clearance (91 mL/min/kg); short half-life (0.48 h) after intravenous administration (1 mg/kg) and exposure (AUC0-24) following oral administration was 362 ng h/mL with absolute bioavailability of 8%. To summarize, 43 analogs were synthesized out of which 15 compounds showed very potent sub-nanomolar efficacy in in vitro systems but the liability of metabolic instability seemed to be the major challenge for this chemical class and remains to be addressed.

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Rational selection of structurally diverse natural product scaffolds with favorable ADME properties for drug discovery

Samiulla

Vaidyanathan

Arun

et al. 2005

Mol Divers

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Natural product analogs are significant sources for therapeutic agents. To capitalize efficiently on the effective features of naturally occurring substances, a natural product-based library production platform has been devised at Aurigene for drug lead discovery. This approach combines the attractive biological and physicochemical properties of natural product scaffolds, provided by eons of natural selection, with the chemical diversity available from parallel synthetic methods. Virtual property analysis, using computational methods described here, guides the selection of a set of natural product scaffolds that are both structurally diverse and likely to have favorable pharmacokinetic properties. The experimental characterization of several in vitro ADME properties of twenty of these scaffolds, and of a small set of designed congeners based upon one scaffold, is also described. These data confirm that most of the scaffolds and the designed library members have properties favorable to their utilization for creating libraries of lead-like molecules.

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Synthesis and antiproliferative properties of isoxazole analogs containing dibenzosuberane moiety

Moger¹,

Pradhan²,

Singh³

et al. 2016

Med Chem Res

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A convenient and mild one pot synthesis of cyclopentenone derivatives

Moger¹,

Pradhan²,

Hindupur³

et al. 2014

Tetrahedron Letters

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Manjunath Moger

Design, synthesis and biological evaluation of 2-substituted quinolines as potential antileishmanial agents

Aminothiazoles: Hit to lead development to identify antileishmanial agents

Rational selection of structurally diverse natural product scaffolds with favorable ADME properties for drug discovery

Synthesis and antiproliferative properties of isoxazole analogs containing dibenzosuberane moiety

A convenient and mild one pot synthesis of cyclopentenone derivatives

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