methylation

5 interactions related to methylation

vitamin b6 + vitamin b12

Vitamin B6 and vitamin B12 act as complementary coenzymes in one-carbon metabolism: B12 helps remethylate homocysteine back to methionine, while B6 routes excess homocysteine down the transsulfuration pathway to cysteine. Taken together, they support both arms of homocysteine handling. Combination B-vitamin regimens lower homocysteine more reliably than single nutrients, though trials have not consistently shown reduced cardiovascular events.

low
vitamin b6vitamin b12homocysteinemethylationb-complexsynergyone-carbon metabolismcardiovascular

vitamin b6 + folate

Vitamin B6 and folate both work inside one-carbon metabolism, the network that recycles homocysteine and supplies methyl groups. Folate (as 5-MTHF) remethylates homocysteine back to methionine, while B6 (as PLP) is the cofactor for serine hydroxymethyltransferase, which feeds the folate cycle, and for cystathionine beta-synthase, which clears excess homocysteine through the transsulfuration pathway. Folate carries the main homocysteine-lowering effect; B6's contribution shows up mainly after a protein (methionine) load rather than in fasting levels.

low
vitamin b6folatefolic acidhomocysteinemethylationone-carbon metabolismb-complexsynergy

choline + vitamin b12

Choline (via its metabolite betaine) and vitamin B12 feed the two parallel pathways that recycle homocysteine back into methionine: the choline-betaine-BHMT route and the folate-B12-methionine-synthase route. Adequate choline can help maintain methylation through the BHMT pathway when B12 or folate status is marginal, supporting healthy homocysteine and SAMe levels. This is a benign nutritional synergy, not a risky combination.

low
cholinevitamin b12betainehomocysteinemethylationbhmtliversynergy

alcohol + folate

Chronic alcohol use causes folate deficiency through several mechanisms: it inhibits the reduced folate carrier in the intestine (blocking absorption), reduces the liver's uptake and storage of folate, and increases urinary folate loss. Folate depletion in turn accelerates alcohol-induced liver injury and disrupts one-carbon metabolism and DNA methylation.

high
alcoholfolatefolic acidliver diseasedeficiencyabsorptionhomocysteinemethylation

vitamin b12 + folate

Vitamin B12 and folate are interdependent partners in the methionine cycle: the active form of folate (5-methyltetrahydrofolate) donates a methyl group, while vitamin B12 is the required cofactor for methionine synthase, the enzyme that converts homocysteine back to methionine. Adequate intake of both supports DNA synthesis, healthy red blood cells, and homocysteine balance. Taking high-dose folate alone is the key safety concern, because folate can correct B12-deficiency anemia while allowing nerve damage to progress unnoticed.

moderate
vitamin b12folatefolic acidhomocysteinemethylationanemiamethionine synthasesynergy