Accumulation of tetrahydrofolates in human plasma after leucovorin administration.

Reduced folates in plasma after i.v. and oral leucovorin administration were estimated by a ternary complex assay based on the incorporation of CH2FH4 into a stable complex with Lactobacillus casei thymidylate synthase and [3H]FdUMP. Each of the reduced folates, CH2FH4, FH4, and 5CH3FH4, could be quantitatively recovered from plasma by this approach even in the presence of high concentrations of the parent compound leucovorin. Examination of the accumulation kinetics of these reduced folates showed that after i.v. administration of 20 mg D,L-leucovorin to a healthy volunteer, FH4 and, to a lesser extent, CH2FH4 accumulated to maximal levels very early (less than 15 min), with a subsequent depletion that had a half-life of approximately 30 min. Accumulation of FH4 reached a peak level that was 12% of the maximal level of 5CH3FH4 achieved and more than 3 times greater than the pretreatment level of this common, circulating reduced folate form. Similar accumulation patterns were observed in a female patient with metastatic colonic cancer who was undergoing methotrexate (MTX)/fluorouracil therapy followed by i.v. leucovorin (15 mg). FH4 also accumulated, but to a lesser extent and over a longer period of time, when the same dose of leucovorin given orally. When several similar doses of leucovorin were given prior to the experimental dose, greater accumulation and duration of the FH4 response was observed. We propose that accumulation of FH4 and CH2FH4 could provide a circulating source of the reduced folate thought to be the active form for both high-dose MTX with leucovorin rescue and enhancement of fluorouracil activity.