Abstract
P142 We have recently reported that a cGMP-dependent mechanism as well as a cGMP-independent activation of K Ca channels secondary to a fall in 20-HETE contributes to the vasodilator response to NO in the cerebral circulation. The present study examines the mechanism for the cGMP-dependent component of the vasodilator response to NO in rat middle cerebral arteries (MCA). Administration of a NO donor, dose-dependently, increased the diameter of serotonin preconstricted MCA to 69.3±5.8% of control (n=6). 8-Br-cGMP (10 -8 to 10 -4 M) mimicked the effect of NO and increased the diameter of MCA to 58.7±3.6% of control (n=6). Blockade of K Ca channels with IBTX (10 -7 M, n=6) or depolarization with a 80 mM K + media (n=6)reduced the vasodilator response of MCA to NO by 70±6%, but they had little effect on the vasodilator response to 8-Br-cGMP. This suggests that activation of K + channels contribute to the vasodilator response to NO in MCA, but not the response to 8-Br-cGMP. We therefore examined the effects of NO and cGMP on Ca 2+ -induced contraction of rat MCAs permeablized with α-toxin (10 μg/ml) and ionomycin (10 μM). Elevations in bath Ca 2+ , from 10 -8 to 10 -5 M, decreased the diameter of these vessels by 60.9±3.7%. A NO donor, DEA-NONOate (10 -6 M, n=6)and 8-Br-cGMP (10 -4 M, n=6) both attenuated the vasoconstrictor response to elevations in bath Ca 2+ by 60%. Inhibition of guanylyl cyclase with ODQ (10 -5 M) prevented the effects of the NO donor, but not 8-Br-cGMP. These results indicate that the cGMP, PKG-dependent component of the vasodilator response of NO in rat MCA is mediated by desensitization of the contractile mechanism to calcium rather than activation of K + channels.
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