Vitamin C selectively kills <i>KRAS</i> and <i>BRAF</i> mutant colorectal cancer cells by targeting GAPDH

Jihye Yun(Cornell University), Edouard Mullarky(Harvard University), Changyuan Lu(Cornell University), Kaitlyn Bosch(Cornell University), Adam Kavalier(Cornell University), Keith Rivera(Cold Spring Harbor Laboratory), Jatin Roper(Tufts Medical Center), Iok In Christine Chio(Cold Spring Harbor Laboratory), Ευγενία Γιαννοπούλου(Cornell University), Carlo Rago(Howard Hughes Medical Institute), Ashlesha Muley(Cornell University), John M. Asara(Beth Israel Deaconess Medical Center), Jihye Paik(Cornell University), Olivier Elemento(Cornell University), Zhengming Chen(Cornell University), Darryl Pappin(Cold Spring Harbor Laboratory), Lukas E. Dow(Cornell University), Nickolas Papadopoulos(Howard Hughes Medical Institute), Steven S. Gross(Cornell University), Lewis C. Cantley(Cornell University)
Science
November 5, 2015
10.1126/science.aaa5004
Cited by 905

Abstract

More than half of human colorectal cancers (CRCs) carry either KRAS or BRAF mutations and are often refractory to approved targeted therapies. We found that cultured human CRC cells harboring KRAS or BRAF mutations are selectively killed when exposed to high levels of vitamin C. This effect is due to increased uptake of the oxidized form of vitamin C, dehydroascorbate (DHA), via the GLUT1 glucose transporter. Increased DHA uptake causes oxidative stress as intracellular DHA is reduced to vitamin C, depleting glutathione. Thus, reactive oxygen species accumulate and inactivate glyceraldehyde 3-phosphate dehydrogenase (GAPDH). Inhibition of GAPDH in highly glycolytic KRAS or BRAF mutant cells leads to an energetic crisis and cell death not seen in KRAS and BRAF wild-type cells. High-dose vitamin C impairs tumor growth in Apc/Kras(G12D) mutant mice. These results provide a mechanistic rationale for exploring the therapeutic use of vitamin C for CRCs with KRAS or BRAF mutations.

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