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A Bioinorganic Approach to Fragment-Based Drug Discovery Targeting Metalloenzymes
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https://doi.org/10.1021/acs.accounts.7b00242Abstract
Metal-dependent enzymes (i.e., metalloenzymes) make up a large fraction of all enzymes and are critically important in a wide range of biological processes, including DNA modification, protein homeostasis, antibiotic resistance, and many others. Consequently, metalloenzymes represent a vast and largely untapped space for drug development. The discovery of effective therapeutics that target metalloenzymes lies squarely at the interface of bioinorganic and medicinal chemistry and requires expertise, methods, and strategies from both fields to mount an effective campaign. In this Account, our research program that brings together the principles and methods of bioinorganic and medicinal chemistry are described, in an effort to bridge the gap between these fields and address an important class of medicinal targets. Fragment-based drug discovery (FBDD) is an important drug discovery approach that is particularly well suited for metalloenzyme inhibitor development. FBDD uses relatively small but diverse chemical structures that allow for the assembly of privileged molecular collections that focus on a specific feature of the target enzyme. For metalloenzyme inhibition, the specific feature is rather obvious, namely, a metal-dependent active site. Surprisingly, prior to our work, the exploration of diverse molecular fragments for binding the metal active sites of metalloenzymes was largely unexplored. By assembling a modest library of metal-binding pharmacophores (MBPs), we have been able to find lead hits for many metalloenzymes and, from these hits, develop inhibitors that act via novel mechanisms of action. A specific case study on the use of this strategy to identify a first-in-class inhibitor of zinc-dependent Rpn11 (a component of the proteasome) is highlighted. The application of FBDD for the development of metalloenzyme inhibitors has raised several other compelling questions, such as how the metalloenzyme active site influences the coordination chemistry of bound fragments, how one can identify the best fragments for a given metalloenzyme, and many others. Among the most significant, and concerning, questions for metalloenzyme inhibition are those that reside around issues of specificity and whether metalloenzyme inhibitors can be as selective and specific as other small molecule inhibitors (i.e., compounds that inhibit enzymes that do not utilize a metal at their active site). This also leads to the question of whether metalloenzyme inhibitors might interfere more broadly with the metallome. Efforts to address these and related questions are discussed, with the expectation that our findings will illuminate some of these topics, alleviate some of these concerns, and encourage greater interest in this important, undervalued class of drug targets.
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