Integrated Phenotypic and Activity-based Profiling Links Ces3 to Obesity and Diabetes

Overview

Journal Nat Chem Biol

Specialties Biochemistry
Biology
Chemistry

Date 2013 Dec 24

PMID 24362705

Citations 52

Authors

Eduardo Dominguez

Andrea Galmozzi

Jae Won Chang

Ku-Lung Hsu

Joanna Pawlak

Weiwei Li

Cristina Godio

Jason Thomas

David Partida

Sherry Niessen

Paul E OBrien

Aaron P Russell

Matthew J Watt

Daniel K Nomura

Benjamin F Cravatt

Enrique Saez

Affiliations

Soon will be listed here.

Abstract

Phenotypic screening is making a comeback in drug discovery as the maturation of chemical proteomics methods has facilitated target identification for bioactive small molecules. A limitation of these approaches is that time-consuming genetic methods or other means are often required to determine the biologically relevant target (or targets) from among multiple protein-compound interactions that are typically detected. Here, we have combined phenotypic screening of a directed small-molecule library with competitive activity-based protein profiling to map and functionally characterize the targets of screening hits. Using this approach, we identify carboxylesterase 3 (Ces3, also known as Ces1d) as a primary molecular target of bioactive compounds that promote lipid storage in adipocytes. We further show that Ces3 activity is markedly elevated during adipocyte differentiation. Treatment of two mouse models of obesity-diabetes with a Ces3 inhibitor ameliorates multiple features of metabolic syndrome, illustrating the power of the described strategy to accelerate the identification and pharmacologic validation of new therapeutic targets.

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