Phosphate transport by capillaries of the blood-brain barrier.

Capillaries were isolated from bovine brain cortex and used for phosphate transport studies. The influx of phosphate through capillary membranes was studied by incubation with [32Pi]phosphate followed by a rapid filtration technique. Phosphate uptake by brain capillaries was mediated by a saturable high-affinity system which is independent of the sodium concentration in the incubation medium. The apparent half-saturation constant (Km) and maximal influx (Vmax) were estimated to 160 microM and 0.37 nmol/mg protein/30 s. Transport was inhibited by the phosphate analogues arsenate and phosphonoformic acid with apparent inhibition constants of 5 and 11 mM, respectively. The metabolic inhibitors cyanide and ouabain had no effect on the transport activity. Competition experiments showed that phosphate uptake was inhibited up to 41% by various anions (pyruvate, acetate, citrate, glutamate, and sulfate). In addition, phosphate uptake was significantly decreased by two selective inhibitors of anionic exchangers, 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid and 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid. Chloride was not a substrate of the phosphate carrier as the replacement of external chloride, by nitrate, thiocyanate, or gluconate, did not increase phosphate transport. Aminohippuric acid and N'-methylnicotinamide, two specific substrates of anionic and cationic drug exchangers, did not compete with the phosphate carrier of cerebral capillaries. However, trans-stimulation with bicarbonate increased phosphate transport by 28%, and this stimulation was inhibited by 1 mM 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid, suggesting that the carrier of the cerebral capillaries could exchange phosphate with bicarbonate.