Abstract
This report addresses the functional role of His residues in the proton-coupled folate transporter (PCFT; SLC46A1), which mediates intestinal folate absorption. Of ten His residues, only H247A and H281A mutations altered function. The folic acid influx Kt at pH 5.5 for H247A was downward arrow 8.4-fold. Although wild type (WT)-PCFT Ki values varied among the folates, Ki values were much lower and comparable for H247-A, -R, -Q, or -E mutants. Homology modeling localized His247 to the large loop separating transmembrane domains 6 and 7 at the cytoplasmic entrance of the translocation pathway in hydrogen-bond distance to Ser172. The folic acid influx Kt for S172A-PCFT was decreased similar to H247A. His281 faces the extracellular region in the seventh transmembrane domain. H281A-PCFT results in loss-of-function due to approximately 12-fold upward arrow in the folic acid influx Kt. When the pH was decreased from 5.5 to 4.5, the WT-PCFT folic acid influx Kt was unchanged, but the Kt decreased 4-fold for H281A. In electrophysiological studies in Xenopus oocytes, both WT-PCFT- and H281A-PCFT-mediated folic acid uptake produced current and acidification, and both exhibited a low level of folate-independent proton transport (slippage). Slippage was markedly increased for the H247A-PCFT mutant. The data suggest that disruption of the His247 to Ser172 interaction results in a PCFT conformational alteration causing a loss of selectivity, increased substrate access to a high affinity binding pocket, and proton transport in the absence of a folate gradient. The His281 residue is not essential for proton coupling but plays an important role in PCFT protonation, which, in turn, augments folate binding to the carrier.