COMPARATIVE INVESTIGATIONS OF ALPHA-AND BETA-EFFECTS ON THE LONGITUDINAL AND CIRCULAR MUSCLES OF THE PREGNANT RAT MYOMETRIUM

Abstract

Comparative effects of noradrenaline (10-8-10-6 g/ml) and isoprenaline (10-10-10-6 g/ml) on electrical and contractile activity were investigated in longitudinal and circular muscle strips of rat myometrium (13-19 days pregnant). When recorded with an intracellular microelectrode, spike potentials of longitudinal muscle discharged spontaneously in bursts. Treatment with either noradrenaline or isoprenaline hyperpolarized the membrane and increased membrane conductance, causing the cessation of spontaneous activity. Slow potential was dominant in the circular muscle, and it became prolonged after treatment with noradrenaline, leading to an increase in tension. Isoprenaline reduced the duration of the slow potential and depressed the contraction. The minimal concentration of isoprenaline needed to suppress the spontaneous activity in circular muscle was much higher than in longitudinal muscle. The excitatory effect of noradrenaline on circular muscle was antagonized by treatment with phentolamine, and the inhibitory effect of catecholamines on both longitudinal and circular muscles by propranolol. .alpha.-Adrenoceptor appears predominant in circular muscle, while .beta.-adrenoceptor in longitudinal muscle in rat myometrium during late-pregnancy.