Lactate Metabolism in Human Lung Tumors | Zendy

Brandon Faubert | Zendy; Kevin Y. Li | Zendy; Ling Cai | Zendy; Christopher T. Hensley | Zendy; Jiyeon Kim | Zendy; Lauren G. Zacharias | Zendy; Chendong Yang | Zendy; N. Quyen | Zendy; Sarah Doucette | Zendy; Daniel Burguete | Zendy; Hong Li | Zendy; Giselle Huet | Zendy; Qing Yuan | Zendy; Trevor Wigal | Zendy; Yasmeen M. Butt | Zendy; Min Ni | Zendy; José Torrealba | Zendy; Dwight Oliver | Zendy; Robert E. Lenkinski | Zendy; Craig R. Malloy | Zendy; Jason Wachsmann | Zendy; Jamey D. Young | Zendy; Kemp H. Kernstine | Zendy; Ralph J. DeBerardinis | Zendy

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Lactate Metabolism in Human Lung Tumors

Author(s) -

Brandon Faubert,

Kevin Y. Li,

Ling Cai,

Christopher T. Hensley,

Jiyeon Kim,

Lauren G. Zacharias,

Chendong Yang,

N. Quyen,

Sarah Doucette,

Daniel Burguete,

Hong Li,

Giselle Huet,

Qing Yuan,

Trevor Wigal,

Yasmeen M. Butt,

Min Ni,

José Torrealba,

Dwight Oliver,

Robert E. Lenkinski,

Craig R. Malloy,

Jason Wachsmann,

Jamey D. Young,

Kemp H. Kernstine,

Ralph J. DeBerardinis

Publication year - 2017

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2017.09.019

Subject(s) - biology , citric acid cycle , in vivo , metabolism , tricarboxylic acid , glycolysis , biochemistry , lactate dehydrogenase , metabolite , carbohydrate metabolism , medicine , endocrinology , microbiology and biotechnology , enzyme

Cancer cells consume glucose and secrete lactate in culture. It is unknown whether lactate contributes to energy metabolism in living tumors. We previously reported that human non-small-cell lung cancers (NSCLCs) oxidize glucose in the tricarboxylic acid (TCA) cycle. Here, we show that lactate is also a TCA cycle carbon source for NSCLC. In human NSCLC, evidence of lactate utilization was most apparent in tumors with high 18 fluorodeoxyglucose uptake and aggressive oncological behavior. Infusing human NSCLC patients with 13 C-lactate revealed extensive labeling of TCA cycle metabolites. In mice, deleting monocarboxylate transporter-1 (MCT1) from tumor cells eliminated lactate-dependent metabolite labeling, confirming tumor-cell-autonomous lactate uptake. Strikingly, directly comparing lactate and glucose metabolism in vivo indicated that lactate's contribution to the TCA cycle predominates. The data indicate that tumors, including bona fide human NSCLC, can use lactate as a fuel in vivo.

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