pH-dependent pyridoxine transport by SLC19A2 and SLC19A3: Implications for absorption in acidic microclimates
Takahiro Yamashiro, Tomoya Yasujima, Hamid M. Said, Hiroaki Yuasa
Abstract
of 37.8 and 18.5 μm, for SLC19A2 and SLC19A3, respectively, and inhibited by the pyridoxine analogs pyridoxal and pyridoxamine as well as thiamine. We also found that silencing the endogenous SLC19A3, but not SLC19A2, of Caco-2 cells with gene-specific siRNAs lead to a significant reduction in carrier-mediated pyridoxine uptake. These results show that SLC19A2 and SLC19A3 are capable of recognizing/transporting pyridoxine, favoring acidic conditions for operation, and suggest a possible role for these transporters in pyridoxine transport mainly in tissues with an acidic environment like the small intestine, which has an acidic surface microclimate.
Topics & Concepts
PyridoxinePyridoxamineTransfectionThiamineChemistryVitaminHEK 293 cellsPyridoxalBiochemistryInternal medicinePharmacologyEndocrinologyMedicineEnzymeReceptorGeneAlcoholism and Thiamine DeficiencyMetabolism and Genetic DisordersFolate and B Vitamins Research