Abstract
It is now established that the mitochondrial production of formate is a major process in the endogenous generation of folate-linked one-carbon groups. We have developed an in vivo approach involving the constant infusion of [(13)C]formate until isotopic steady state is attained to measure the rate of endogenous formate production in rats fed on either a folate-replete or folate-deficient diet. Formate was produced at a rate of 76 μmol·h(-1)·100 g of body weight(-1) in the folate-replete rats, and this was decreased by 44% in folate-deficient rats. This decreased formate production was confirmed in isolated rat liver mitochondria where formate production from serine, the principal precursor of one-carbon groups, was decreased by 85%, although formate production from sarcosine and dimethylglycine (choline metabolites) was significantly increased. We attribute this unexpected result to the demonstrated production of formaldehyde by sarcosine dehydrogenase and dimethylglycine dehydrogenase from their respective substrates in the absence of tetrahydrofolate and subsequent formation of formate by formaldehyde dehydrogenase. Comparison of formate production with the ingestion of dietary formate precursors (serine, glycine, tryptophan, histidine, methionine, and choline) showed that ∼75% of these precursors were converted to formate, indicating that formate is a significant, although underappreciated end product of choline and amino acid oxidation. Ingestion of a high protein diet did not result in increased production of formate, suggesting a regulation of the conversion of these precursors at the mitochondrial level to formate.
Highlights
The mitochondrial production of formate is critical to the generation of one-carbon groups
Because formate is not elevated in vitamin B6-deficient rats, we have suggested that formate levels may provide a means of discriminating between hyperhomocysteinemia brought about by defects in homocysteine remethylation and that brought about by a defect in homocysteine transsulfuration
Formate Production by Isolated Rat Liver Mitochondria—To confirm the finding that de novo formate production was decreased in folate deficiency, we examined formate production by isolated liver mitochondria from rats fed either a folatereplete or folate-deficient diet
Summary
The glycine cleavage system is a mitochondrial enzyme complex that links the oxidation of glycine to the generation of 5,10-methylene-THF, from which the mitochondria produce formate. We have recently shown that both plasma and urinary formate are markedly elevated in rats made deficient in either folate or vitamin B12. Because formate is not elevated in vitamin B6-deficient rats, we have suggested that formate levels may provide a means of discriminating between hyperhomocysteinemia brought about by defects in homocysteine remethylation (folate or vitamin B12 deficiency) and that brought about by a defect in homocysteine transsulfuration (vitamin B6 deficiency). Despite this interest in formate, very little is known about whole-body formate metabolism. We report an improved enzymatic assay for plasma formate
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