Abstract
1. Simultaneous measurements of membrane potential and tension were performed to investigate the intracellular mechanisms of neuropeptide Y (NPY) in rat mesenteric small arteries. 2. NPY (0.1 microM) depolarized arterial smooth muscle cells from -55 to -47 mV and increased wall tension by 0.22 N m-1, representing 11% of the contraction elicited by a high-potassium solution. Isoprenaline (1 microM) and acetylcholine (1 microM) evoked hyperpolarizations of 11 and 17 mV, respectively. NPY inhibited the isoprenaline-induced effects on membrane potential without affecting those of acetylcholine. 3. Forskolin evoked sustained concentration-dependent hyperpolarizations of small mesenteric arteries. NPY (0.1 microM) inhibited the responses to 1 microM forskolin, but did not alter the stable hyperpolarization elicited by the specific activator of protein kinase A (PKA) SP-5,6-DCl-cBIMPS (0.1 mM). Forskolin increased the cyclic AMP (cAMP) content of the arteries 21-fold, and NPY inhibited the forskolin-evoked increase in cAMP levels by 91%. 4. The hyperpolarization produced by 1 microM forskolin was not affected by either charybdotoxin (0.1 microM) or 4-aminopyridine (0.5 mM), but glibenclamide (5 microM) inhibited the hyperpolarization by 70%. Glibenclamide also inhibited the hyperpolarization evoked by SP-5,6-DCl-cBIMPS by 59%. 5. Neither depolarization nor contraction caused by NPY were significantly affected by either glibenclamide (5 microM) or nifedipine (1 microM), but they were reduced by gadolinium (10 microM). However, the blocking effect of NPY on forskolin-elicited hyperpolarization was not affected by gadolinium. 6. Charybdotoxin (0.1 microM) and 4-aminopyridine (0.5 mM) strongly enhanced the depolarization and contraction caused by NPY (0.1 microM), and nifedipine (1 microM) prevented the enhanced responses to NPY in the presence of charybdotoxin. 7. These findings suggest that NPY acts through at least two different intracellular mechanisms in mesenteric small arteries: a depolarization of arterial smooth muscle which is probably due to activation of non-selective cation channels, and a marked inhibition of adenylate cyclase activity, which in turn inhibits the hyperpolarization produced by cAMP accumulation in these arteries.
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