Selective Inhibition of Fatty Acid Synthase for Lung Cancer Treatment

doi:10.1158/1078-0432.CCR-07-1186

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Published online first on December 3, 2007
[Clinical Cancer Research, 10.1158/1078-0432.CCR-07-1186]

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Cancer Therapy: Preclinical

Selective Inhibition of Fatty Acid Synthase for Lung Cancer Treatment

Hajime Orita ¹, Jonathan Coulter , Colleen Lemmon , Ellen Tully , Aravinda Vadlamudi , Susan M. Medghalchi , Francis P. Kuhajda , Edward Gabrielson ^*

¹ ¹Department of Pathology and Johns Hopkins Cancer Center, Johns Hopkins University School of Medicine; and ²FASgen, Inc., Baltimore, Maryland

^* To whom correspondence should be addressed. E-mail: egabriel{at}jhmi.edu.

Abstract

Purpose: Fatty acid synthase (FAS) is overexpressed in manyhuman cancers and is considered to be a promising target fortherapy. However, in vitro use of previous generations of FASinhibitors has been limited by severe, but reversible, anorexiain treated animals, which is thought to be related to a parallelstimulation of fatty acid oxidation by these agents. This studyinvestigated pharmacologic inhibition of FAS using C93, a rationallydesigned molecule that inhibits FAS activity without affectingfatty acid oxidation in preclinical models of lung cancer.

ExperimentalDesign: Activity of C93 on FAS and fatty acid oxidation wasevaluated in cultured non–small cell lung cancer (NSCLC)cells. Antineoplastic activity of the compound, given orallyor by i.p. injection, was evaluated in s.c. and orthotopic NSCLCxenografts.

Results: Our experiments confirm that C93 effectivelyinhibits FAS without stimulating fatty acid oxidation in lungcancer cells. More importantly, C93 significantly inhibits thegrowth of both s.c. and orthotopic xenograft tumors from humanNSCLC cell lines without causing anorexia and weight loss inthe treated animals.

Conclusions: We conclude that inhibitionof FAS can be achieved without parallel stimulation of fattyacid oxidation and that inhibition of tumor growth in vivo canbe achieved without anorexia and weight loss. Thus, this therapeuticstrategy holds promise for clinical treatment of cancers, includingnon–small cell lung cancer, the leading cause of cancermortality in the United States and Europe.

Key Words: fatty acid synthase, Lung cancer, New targets, Xenograft models

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