Dynamic Imaging of LDH Inhibition in Tumors Reveals Rapid In Vivo Metabolic Rewiring and Vulnerability to Combination Therapy

Nobu Oshima; Ryo Ishida; Shun Kishimoto; Kristin Beebe; Jeffrey Brender; Kazutoshi Yamamoto; Daniel J. Urban; Ganesha Rai; Michelle S. Johnson; Gloria A. Benavides; Giuseppe L. Squadrito; Dan Crooks; Joseph W. Jackson; Abhinav Joshi; Bryan T. Mott; Jonathan H. Shrimp; Michael A. Moses; Min-Jung Lee; Akira Yuno; Tobie D. Lee; Xin Hu; Tamara L. Anderson; Donna F. Kusewitt; Helen H. Hathaway; Ajit Jadhav; Didier Picard; Jane B. Trepel; James B. Mitchell; Gordon M. Stott; William Moore; Anton Simeonov; Larry A. Sklar; Jeffrey P. Norenberg; W. Marston Linehan; David J. Maloney; Chi V. Dang; Alex G. Waterson; Matthew D. Hall; Victor Darley‐Usmar; Murali C. Krishna; Leonard Μ. Neckers

doi:10.1016/j.celrep.2020.01.039

Dynamic Imaging of LDH Inhibition in Tumors Reveals Rapid In Vivo Metabolic Rewiring and Vulnerability to Combination Therapy

Nobu Oshima(National Cancer Institute), Ryo Ishida(National Cancer Institute), Shun Kishimoto(National Cancer Institute), Kristin Beebe(National Cancer Institute), Jeffrey Brender(National Cancer Institute), Kazutoshi Yamamoto(National Cancer Institute), Daniel J. Urban(National Institutes of Health), Ganesha Rai(National Institutes of Health), Michelle S. Johnson(University of Alabama at Birmingham), Gloria A. Benavides(University of Alabama at Birmingham), Giuseppe L. Squadrito(University of Alabama at Birmingham), Dan Crooks(National Cancer Institute), Joseph W. Jackson(National Cancer Institute), Abhinav Joshi(University of Geneva), Bryan T. Mott(National Institutes of Health), Jonathan H. Shrimp(National Institutes of Health), Michael A. Moses(National Cancer Institute), Min-Jung Lee(National Cancer Institute), Akira Yuno(National Cancer Institute), Tobie D. Lee(National Institutes of Health), Xin Hu(National Institutes of Health), Tamara L. Anderson(University of New Mexico), Donna F. Kusewitt(University of New Mexico), Helen H. Hathaway(University of New Mexico), Ajit Jadhav(National Institutes of Health), Didier Picard(University of Geneva), Jane B. Trepel(National Cancer Institute), James B. Mitchell(National Cancer Institute), Gordon M. Stott(Leidos (United States)), William Moore(Leidos (United States)), Anton Simeonov(National Institutes of Health), Larry A. Sklar(University of New Mexico), Jeffrey P. Norenberg(University of New Mexico), W. Marston Linehan(National Cancer Institute), David J. Maloney(National Institutes of Health), Chi V. Dang(The Wistar Institute), Alex G. Waterson(Vanderbilt University), Matthew D. Hall(National Institutes of Health), Victor Darley‐Usmar(University of Alabama at Birmingham), Murali C. Krishna(National Cancer Institute), Leonard Μ. Neckers(National Cancer Institute)

Cell Reports

February 1, 2020

10.1016/j.celrep.2020.01.039

Cited by 119Open Access

Full Text

Abstract

The reliance of many cancers on aerobic glycolysis has stimulated efforts to develop lactate dehydrogenase (LDH) inhibitors. However, despite significant efforts, LDH inhibitors (LDHi) with sufficient specificity and in vivo activity to determine whether LDH is a feasible drug target are lacking. We describe an LDHi with potent, on-target, in vivo activity. Using hyperpolarized magnetic resonance spectroscopic imaging (HP-MRSI), we demonstrate in vivo LDH inhibition in two glycolytic cancer models, MIA PaCa-2 and HT29, and we correlate depth and duration of LDH inhibition with direct anti-tumor activity. HP-MRSI also reveals a metabolic rewiring that occurs in vivo within 30 min of LDH inhibition, wherein pyruvate in a tumor is redirected toward mitochondrial metabolism. Using HP-MRSI, we show that inhibition of mitochondrial complex 1 rapidly redirects tumor pyruvate toward lactate. Inhibition of both mitochondrial complex 1 and LDH suppresses metabolic plasticity, causing metabolic quiescence in vitro and tumor growth inhibition in vivo.

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