Extreme Vulnerability of IDH1 Mutant Cancers to NAD+ Depletion

Authors :: Hiroaki Wakimoto
Andrew S. Chi
Timothy He
Tracy T. Batchelor
Nina Lelic
Kensuke Tateishi
Lajos Kemény
Sudhandra Sundaram
Robert E. Gerszten
Keith T. Flaherty
Dmitri Wiederschain
Yardena Samuels
Xu Shi
Shota Tanaka
Elisabeth Roider
Fares Nigim
Olivier Bedel
Daniel P. Cahill
Franziska Loebel
Quan H Ho
A. John Iafrate
David E. Fisher
Gejing Deng
Yiyun Zhang
Dan Zhao
Mara V.A. Koerner
Jing-Ruey J. Yeh
Bailin Zhang
William T. Curry
Source :: Cancer cell. 28(6)
Publication Year :: 2015
Abstract: Heterozygous mutation of IDH1 in cancers modifies IDH1 enzymatic activity, reprogramming metabolite flux and markedly elevating 2-hydroxyglutarate (2-HG). Here, we found that 2-HG depletion did not inhibit growth of several IDH1 mutant solid cancer types. To identify other metabolic therapeutic targets, we systematically profiled metabolites in endogenous IDH1 mutant cancer cells after mutant IDH1 inhibition and discovered a profound vulnerability to depletion of the coenzyme NAD+. Mutant IDH1 lowered NAD+ levels by downregulating the NAD+ salvage pathway enzyme nicotinate phosphoribosyltransferase (Naprt1), sensitizing to NAD+ depletion via concomitant nicotinamide phosphoribosyltransferase (NAMPT) inhibition. NAD+ depletion activated the intracellular energy sensor AMPK, triggered autophagy, and resulted in cytotoxicity. Thus, we identify NAD+ depletion as a metabolic susceptibility of IDH1 mutant cancers.