Examination of the substrate stoichiometry of the intestinal Na⁺/phosphate cotransporter

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Abstract

The substrate stoichiometry of the intestinal Na⁺/phosphate cotransporter was examined using two measures of Na⁺-dependent phosphate uptake: initial rates of uptake with [³²P] phosphate and phosphate-induced membrane depolarization using the potential-sensitive dye diSC₃(5). Isotopic phosphate measures electrogenic and electroneutral Na⁺-dependent phosphate uptake, while phosphate-induced membrane depolarization measures electrogenic phosphate uptake. Using these measures of Na-dependent phosphate uptake, three parameters were compared: substrate affinity; phenylglyoxal sensitivity and labeling; and inhibiton by mono- and di-fluorophosphates. Na⁺/phosphate cotransport was found to have similar Na⁺ activations (apparentK _0.5's of 28 and 25mm), apparentK _m's for phosphate (100 and 410 mgr

m), andK _0.5's for inhibition by phenylglyoxal (70 and 90 mgr

m) using isotopic phosphate, uptake and membrane depolarization, respectively. Only difluorophosphate inhibited Na⁺-dependent phosphate uptake below 1mm at pH 7.4.

Difluorophosphate also protected a 130-kDa polypeptide from FITC-PG labeling in the presence of Na⁺ with apparentK _0.5 for phosphate of 200 mgr

m; similar to the apparentK _m for phosphate uptake, andK _0.5 for phosphate protection against FITC-PG inhibition of Na⁺-dependent phosphate uptake and FITC-PG labeling of the 130-kDa polypeptide. These results indicate that the intestinal Na⁺/phosphate cotransporter is electrogenic at pH 7.4, that H₂PO ₄ ^– is the transport-competent species, and that the 130-kDa polypeptide is an excellent candidate for the intestinal Na⁺/phosphate cotransporter.

Key Words brush-border membranes - symport - membrane potential - fluorescence

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Examination of the substrate stoichiometry of the intestinal Na+/phosphate cotransporter

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Examination of the substrate stoichiometry of the intestinal Na⁺/phosphate cotransporter