Abstract
In this study we have used whole-cell, voltage-clamp procedures to determine the effects of angiotensin II (AII) on net outward current (I no) in neurons co-cultured from the hypothalamus and brainstem of 1-day-old rats. I no is the sum of all inward and outward membrane currents (minus Na +, which is blocked by tetrodotoxin) which occur during the repolarization phase of the action potential. We have determined that AII elicits two separate effects on I no in cultured neurons. AII caused a reversible and concentration (0.1 nM–10 μM)-dependent increase in I no. This effect is inhibited by the AT 2 receptor-selective antagonists, PD123177 and PD123319 (both 100 nM), but not by the AT 1-selective receptor blocker, DuP753 (Losartan; 100 nM), and so it is mediated by AT 2 receptors. In a smaller number of neurons AII induced a reversible and concentration (0.01 nM–10 μM)-dependent decrease in I no that was blocked by Losartan (100 nM) but not by PD123177 (100 nM). Thus the decrease in I no is mediated by AT 1 receptors. Additionally, some neurons displayed both AT 1- and AT 2 receptor-mediated effects on I no. Our results demonstrate two distinct actions of AII on membrane ionic currents in cultured neurons, effects that are mediated by different AII receptor subtypes.
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