西亚试剂：The prevalence of folate-remedial MTHFR enzyme variants in

发布时间：2025-08-05

The prevalence of folate-remedial MTHFR enzyme variants in humans

Nicholas J. Marini^*,, Jennifer Gin^*, Janet Ziegle, Kathryn Hunkapiller Keho, David Ginzinger^,, Dennis A. Gilbert, and Jasper Rine^*,

*Department of Molecular and Cellular Biology, California Institute for Quantitative Biosciences, Stanley Hall, University of California, Berkeley, CA 94720-3220; and Applied Biosystems, Inc., 850 Lincoln Centre Drive, Foster City, CA 94404

Communicated by Bruce N. Ames, University of California, Berkeley, CA, March 24, 2008 (received for review November 20, 2007)

Abstract

Studies of rare, inborn metabolic diseases establish that the s of some mutations in vitamin-dependent enzymes can be suppressed by supplementation of the cognate vitamin, which restores function of the defective enzyme. To determine whether polymorphisms exist that more subtly affect enzymes yet are augmentable in the same way, we sequenced the coding region of a prototypical vitamin-dependent enzyme, methylenetetrahydrofolate reductase (MTHFR), from 564 individuals of diverse ethnicities. All nonsynonymous changes were evaluated in functional in vivo assays in Saccharomyces cerevisiae to identify enzymatic defects and folate remediability of impaired alleles. We identified 14 nonsynonymous changes: 11 alleles with minor allele frequencies <1% and 3 common alleles (A222V, E429A, and R594Q). Four of 11 low-frequency alleles affected enzyme function, as did A222V. Of the five impaired alleles, four could be restored to normal functionality by elevating intracellular folate levels. All five impaired alleles mapped to the N-terminal catalytic domain of the enzyme, whereas changes in the C-terminal regulatory domain had little effect on activity. Impaired activity correlated with the phosphorylation state of MTHFR, with more severe mutations resulting in lower abundance of the phosphorylated protein. Significantly, diploid yeast heterozygous for mutant alleles were impaired for growth, particularly with lower folate supplementation. These results suggested that multiple less-frequent alleles, in aggregate, might significantly contribute to metabolic dysfunction. Furthermore, vitamin remediation of mutant enzymes may be a common phenomenon in certain domains of proteins.

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