アイテム詳細

要旨

The uptake of l-glutamic acid into brush-border membrane vesicles isolated from rat renal proximal tubules is Na⁺-dependent. In contrast to Na⁺-dependent uptake of d-glucose, pre-equilibration of the vesicles with K⁺ stimulates l-glutamic acid uptake. Imposition of a K⁺ gradient ([K_i⁺] > [K_o⁺] ) further enhances Na⁺-dependent l-glutamic acid uptake, but leaves K⁺-dependent glucose transport unchanged. If K⁺ is present only at the outside of the vesicles, transport is inhibited. Intravesicular Rb⁺ and, to a lesser extent, Cs⁺ can replace intravesicular K⁺ to stimulate l-glutamic acid uptake. Changes in membrane potential incurred by the imposition of an H⁺-diffusion potential or anion replacement markedly affect Na⁺-dependent glutamic acid uptake only in the presence of K⁺. Experiments with a potential-sensitive cyanine dye also indicate that, in the presence of intravesicular K⁺ a charge movement is involved in Na⁺-dependent transport of l-glutamic acid.
The data indicate that Na⁺-dependent l-glutamic acid transport can be additionally energized by a K⁺ gradient. Furthermore, intravesicular K⁺ renders Na⁺-dependent l-glutamic acid transport sensitive to changes in the transmembrane electrical potential difference.