Determination of folate transport pathways in cultured rat proximal tubule cells

Abstract

Deficiency of the vitamin folic acid has recently been linked with increased incidence of neural tube defects and of cardiovascular disease, through elevated plasma homocysteine levels. The kidney has an important role in conserving folate to counteract development of deficiency. Urinary folate excretion is regulated by the degree of reabsorption of folate by the proximal tubule cell. To evaluate an in vitro model for studies of the regulation of urinary folate excretion, the present studies examined the transport of 5-methyltetrahydrofolate (5-CH 3-H 4PteGlu), the primary form of folate in the glomerular filtrate, by normal rat proximal tubule (RPT) cells in confluent monolayer cultures. Specific binding of 5-CH 3-H 4PteGlu to the apical membrane was saturable ( K D=27 nM), but intracellular transport was not saturated up to 100 nM concentrations. 5-CH 3-H 4PteGlu transport was decreased 50% by concentrations of folic acid that completely blocked 5-CH 3-H 4PteGlu binding by the apical folate receptor. Probenecid (10 mM), an anion exchange (reduced folate carrier) inhibitor, reduced 5CH 3-H 4PteGlu transport by 50% without significantly affecting binding. Aspirin (3 mM) did not alter 5-CH 3-H 4PteGlu transport, but significantly enhanced the inhibition due to probenecid. Similarly, indomethacin (5 μM) potentiated the inhibition of 5-CH 3-H 4PteGlu transport by probenecid. These data suggest that RPT cells take up 5-CH 3-H 4PteGlu by both the folate receptor and the reduced folate carrier, implying a role for both pathways in regulating urinary folate excretion.