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The evolution of folate supplementation - from one size for all to personalized, precision, poly-paths

Journal

JOURNAL OF TRANSLATIONAL INTERNAL MEDICINE
Volume 11, Issue 2, Pages 128-137

Publisher

SCIENDO
DOI: 10.2478/jtim-2023-0087

Keywords

folate; homocysteine; 5-methyltetrahydrofolate; vitamin D; precision nutrition

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Folate is essential for physiological functions, and low levels increase the risk of cardiovascular diseases and neural tube defects. Folic acid is the most commonly used supplement, but its conversion to biologically active tetrahydrofolate depends on enzymes and cofactors, affecting its efficacy. The use of 5-methyltetrahydrofolate as an alternative folate supplement is increasing due to its direct usage and participation in one-carbon metabolism. Calcitriol intake promotes folate bioavailability and has synergistic effects in homocysteine clearance, enhancing our understanding of folate's critical roles and metabolism regulation.
Folate is a crucial nutrient that supports physiological functions. Low folate levels is a risk factor for several diseases, including cardiovascular diseases and neural tube defects. The most used folate supplement is folic acid, a synthetic oxidative form, and folic acid grain fortification is a success story of public health. However, the metabolic conversion of folic acid to bioactive tetrahydrofolate requires several enzymes and cofactors. Therefore, these factors influence its bioavailability and efficacy. In contrast, 5-methyltetrahydrofolate is used directly and participates in one-carbon metabolism, and the use of 5-methyltetrahydrofolate as an alternative folate supplement has increased. The metabolism of 5-methyltetrahydrofolate is primarily dependent on the transmembrane transporter, reduced folate carrier (RFC), and the RFC gene SLC19A1 variant is a functional polymorphism that affects folate status indexes. Recent studies demonstrated that the expression of RFC and cystathionine beta-synthase, another enzyme required for homocysteine clearance, increases significantly by supplementation with calcitriol (vitamin D3), suggesting that calcitriol intake promotes the bioavailability of folate and has synergistic effects in homocysteine clearance. The advancements in biomedical and cohort studies and clinical trials have enhanced our understanding of the critical roles of folate and the regulation of one-carbon metabolism. We anticipate that the field of folate supplementation is poised to evolve from one size for all to personalized, precision, poly-paths (3Ps), which is a critical measure to meet individual needs, maximize health benefits, and minimize side effects.

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