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Strategies and Chemical Design Approaches to Reduce the Potential for Formation of Reactive Metabolic Species

Argikar, Upendra, Mangold, James and Harriman, Shawn (2011) Strategies and Chemical Design Approaches to Reduce the Potential for Formation of Reactive Metabolic Species. Current Topics in Medicinal Chemistry.

Abstract

Metabolic activation of new chemical entities to reactive intermediates is routinely monitored in drug discovery and development. Reactive intermediates may bind to cellular macromolecules such as proteins, DNA and may eventually lead to cell death via necrosis, apoptosis or oxidative stress. The evidence that the ultimate outcome of metabolic activation is an adverse drug reaction manifested as in vivo toxicity, is at best circumstantial. However, understanding the process of bioactivation of structural alerts by trapping the reactive intermediates is critical to guide medicinal chemistry efforts in quest for safer and potent moelcues. This commentary provides a brief introduction to adverse drug reactions and mechanisms of reactive intermediate formation for various functional groups, followed by a review of chemical design approaches, examples of such strategies, possible isosteric replacements for structural alerts and rationalization of laboratory approaches to determine reactive intermediates, as a guide to today’s medicinal chemist.

Item Type: Article
Keywords: bioactivation, reative intermediates, structural alerts, isoseteres, chemical design approach, covlent protein binding
Date Deposited: 26 Apr 2016 23:46
Last Modified: 26 Apr 2016 23:46
URI: https://oak.novartis.com/id/eprint/3260

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