Adrenergic transmissions in the guinea‐pig mesenteric artery and their cholinergic modulations.

Abstract

Neuromuscular transmission in the guinea pig mesenteric artery and the effects of acetylcholine (ACh) on transmission were investigated by the micro-electrode method. The membrane potential, length and time constant of the smooth muscle of the mesenteric artery were -69.6 .+-. 1.9 mV, 0.81 .+-. 0.15 mm and 129 .+-. 42 ms, respectively. Perivascular nerve stimulation produced an excitatory junction potential (EJP), and repetitive stimulation produced facilitation. When the amplitude of an EJP reached threshold, a spike was evoked. Very rarely, miniature EJP were recorded. The amplitude histogram showed a skew distribution. Increases in the stimulus intensity enlarged the amplitude of EJP as a stepwise manner. These results indicate multiple innervation to the muscle cells. The time constant of the falling phase of an EJP was consistently larger than that of the muscle membrane. ACh, in concentrations < 10-8 M, suppressed the EJP amplitude without change in membrane potential and resistance of the muscle membrane, but accelerated facilitation. These ACh actions were suppressed by pre-treatment with atropine. ACh suppressed neither the conduction velocity of excitation of adrenergic nerves nor the number of nerves contributing to the generation of an EJP. Apparently pre- and post-junctional muscarinic receptors possess different sensitivities to ACh, and a low concentration of ACh (< 10-8 M) solely suppressed the release of noradrenaline [norepinephrine] by activating the pre-junctional muscarinic receptors.