alpha-Adrenoceptor activation of a chloride conductance in rat iris arterioles

Changes in membrane potential associated with alpha-adrenoceptor-mediated contraction of rat iris arterioles after nerve stimulation (10 Hz, 1 s) have been measured with conventional intracellular recording techniques. Two different types of intracellular responses were recorded. Cells that show a depolarization are proposed to represent the arteriolar smooth muscle cells because the characteristics of the depolarization are correlated with those of the contraction. Cells that show no response or a small hyperpolarization in response to nerve stimulation are proposed to represent the endothelial cells of the arteriole. Both the depolarization and the contraction were abolished by tetrodotoxin (1 I-IM), benextramine (10 mu M), and prazosin (0.1 mM), indicating that they result from nerve-mediated activation of alpha-adrenoceptors. A small but significant part of the contraction (30%) and the depolarization (11%) was nifedipine sensitive (10 mu M) Caffeine (1 mM) abolished the contraction and reduced the depolarization by one-half. Reducing the external chloride concentration also abolished the contraction and reduced the depolarization by 90%. Flufenamic acid (250 mM) abolished both the contraction and the depolarization. It is suggested that, in iris arterioles, the activation of synaptic oc-adrenoceptors leads to the release of intracellular calcium that activates both the chloride channels in the cell membrane leading to depolarization and the intracellular contractile apparatus leading to vasoconstriction.