Methionine synthase is essential for cancer cell proliferation in physiological folate environments
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Folate metabolism can be an effective target for cancer treatment. However, standard cell culture conditions utilize folic acid, a non-physiological folate source for most tissues. We find that the enzyme that couples folate and methionine metabolic cycles, methionine synthase, is required for cancer cell proliferation and tumour growth when 5-methyl tetrahydrofolate (THF), the major folate found in circulation, is the extracellular folate source. In such physiological conditions, methionine synthase incorporates 5-methyl THF into the folate cycle to maintain intracellular levels of the folates needed for nucleotide production. 5-methyl THF can sustain intracellular folate metabolism in the absence of folic acid. Therefore, cells exposed to 5-methyl THF are more resistant to methotrexate, an antifolate drug that specifically blocks folic acid incorporation into the folate cycle. Together, these data argue that the environmental folate source has a profound effect on folate metabolism, determining how both folate cycle enzymes and antifolate drugs impact proliferation.
Date issued
2021Department
Massachusetts Institute of Technology. Department of BiologyJournal
Nature Metabolism
Publisher
Springer Science and Business Media LLC
Citation
Sullivan, Mark R, Darnell, Alicia M, Reilly, Montana F, Kunchok, Tenzin, Joesch-Cohen, Lena et al. 2021. "Methionine synthase is essential for cancer cell proliferation in physiological folate environments." Nature Metabolism, 3 (11).
Version: Author's final manuscript