Cell membrane depolarization induced by intraluminal injection of lysine was entirely independent of the presence of Na+ in Triturus proximal tubule, confirming our previous observation. The amplitude of the depolarization conformed to Michaelis-Menten kinetics regardless of the presence or absence of Na+ in the perfusion solutions. pH of the intraluminal solution had no effect on the electrical response in its range from 5.5 to 8.5. In a Na+-free medium, particularly in a Tris-substituted medium, the depolarization induced by a constant concentration of lysine gradually decreased in its size when injection followed by washout of lysine was repetitively tested. The addition of Na+ to the peritubular side after extinction of the responsiveness resulted in a significant restoration of the voltage response to intraluminal lysine. In addition, influx of Na+ from the peritubular fluid into the cells was significantly greater in lysine-loaded tubules than in nonloaded tubules as indicated by a greater rate of increase in intracellular Na+ activity in the presence of ouabain. The data strongly suggest that lysine enters the cells via an electrogenic uniport mechanism and leaves the cells via Na+:amino acid exchange transport mechanism.
Dopamine (DA) has been shown to be an endogenous catecholamine that promotes natriuresis by activating tubular DA receptors, but its role on natriuresis appears to be equivocal, and the precise mechanisms and signaling pathway of multiple DA's receptor subtypes are not yet clarified. We used low dose of DA intravenously in saline (S) volume-expanded dogs to see the alterations in natriuresis. The results showed that there is a critical dose that induces no enhancement of natriuresis of volume expansion, and that the lower and higher doses of DA produced relatively larger natriuresis. Pretreatment of metoclopramide (MCP) in this settings caused even higher and significant increases of natriuresis. In conclusion, DA seems to determine tonically the level of natriuresis in saline-expanded dogs. DA may exert a dual effect on signal transduction pathways such that one leading to antinatriuresis with high affinity and the other to natriuresis with low affinity signaling cascades for DA. MCP may block the antinatriuretic limb of the signaling pathway.
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