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NADPH metabolism determines the leukemogenic capacity and drug resistance of AML cells.

Cell reports (2022-04-07)
Chiqi Chen, Xiaoyun Lai, Yaping Zhang, Li Xie, Zhuo Yu, Sijia Dan, Yu Jiang, Weicai Chen, Ligen Liu, Yi Yang, Dan Huang, Yuzheng Zhao, Junke Zheng
ABSTRACT

The mechanism by which redox metabolism regulates the fates of acute myeloid leukemia (AML) cells remains largely unknown. Using a highly sensitive, genetically encoded fluorescent sensor of nicotinamide adenine dinucleotide phosphate (NADPH), iNap1, we find three heterogeneous subpopulations of AML cells with different cytosolic NADPH levels in an MLL-AF9-induced murine AML model. The iNap1-high AML cells have enhanced proliferation capacities both in vitro and in vivo and are enriched for more functional leukemia-initiating cells than iNap1-low counterparts. The iNap1-high AML cells prefer localizing in the bone marrow endosteal niche and are resistant to methotrexate treatment. Furthermore, iNap1-high human primary AML cells have enhanced proliferation abilities both in vitro and in vivo. Mechanistically, the MTHFD1-mediated folate cycle regulates NADPH homeostasis to promote leukemogenesis and methotrexate resistance. These results provide important clues for understanding mechanisms by which redox metabolism regulates cancer cell fates and a potential metabolic target for AML treatments.

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Sigma-Aldrich
NAD/NADH Quantitation Kit, sufficient for 100 colorimetric tests
Sigma-Aldrich
LY345899, ≥95% (HPLC)