Authors
Robert U Svensson, Seth J Parker, Lillian J Eichner, Matthew J Kolar, Martina Wallace, Sonja N Brun, Portia S Lombardo, Jeanine L Van Nostrand, Amanda Hutchins, Lilliana Vera, Laurie Gerken, Jeremy Greenwood, Sathesh Bhat, Geraldine Harriman, William F Westlin, H James Harwood Jr, Alan Saghatelian, Rosana Kapeller, Christian M Metallo, Reuben J Shaw
Publication date
2016/10
Journal
Nature medicine
Volume
22
Issue
10
Pages
1108-1119
Publisher
Nature Publishing Group US
Description
Continuous de novo fatty acid synthesis is a common feature of cancer that is required to meet the biosynthetic demands of a growing tumor. This process is controlled by the rate-limiting enzyme acetyl-CoA carboxylase (ACC), an attractive but traditionally intractable drug target. Here we provide genetic and pharmacological evidence that in preclinical models ACC is required to maintain the de novo fatty acid synthesis needed for growth and viability of non-small-cell lung cancer (NSCLC) cells. We describe the ability of ND-646—an allosteric inhibitor of the ACC enzymes ACC1 and ACC2 that prevents ACC subunit dimerization—to suppress fatty acid synthesis in vitro and in vivo. Chronic ND-646 treatment of xenograft and genetically engineered mouse models of NSCLC inhibited tumor growth. When administered as a single agent or in combination with the standard-of-care drug carboplatin, ND-646 markedly …
Scholar articles
RU Svensson, SJ Parker, LJ Eichner, MJ Kolar… - Nature medicine, 2016