Folate Transport Proteins Mediate the Bidirectional Transport of 5-Methyltetrahydrofolate in Cultured Human Proximal Tubule Cells , ,

Abstract

Although reabsorption across the apical (AP) membrane of the renal proximal tubule cell plays a vital role in the conservation of plasma 5-methyltetrahydrofolate, basolateral (BL) membrane–directed secretory pathways may also be important in regulating the urinary excretion of folate. Folate transport proteins, folate receptor and the reduced folate carrier have been implicated in the renal conservation of folate across the AP membrane, but their role in BL membrane–directed folate transport has not been studied. 5-Methyltetrahydrofolate transport across the AP and BL membranes of human proximal tubule cells was studied in cells grown on membrane inserts to allow optimum differentiation of AP and BL domains. Colchicine, an inhibitor of vesicular-mediated endocytosis, inhibited AP binding and AP-directed transport without affecting BL transport. Probenecid, an inhibitor of anion exchange, did not affect binding, but inhibited both AP and BL-directed transport with a greater effect on BL transport. Folic acid abolished AP binding of 5-methyltetrahydrofolate, but diminished AP-mediated transport by only 50%. These data suggest that both the folate receptor and the reduced folate carrier participate in AP uptake of folates by human kidney cells, but that BL-mediated uptake occurs primarily by the reduced folate carrier. Folate transport from the secretory direction occurred as readily as that from the reabsorptive direction, indicating that altered secretion could mediate excess urinary folate excretion.