Inhibition of post-ganglionic motor transmission in vas deferens by indirectly acting sympathomimetic drugs.

1. Using field stimulation with short trains of pulses (< 10 per train), the post-ganglionic motor transmission in the mammalian vas deferens has been further analysed pharmacologically.2. In preparations taken from guinea-pigs, rats and rabbits the effects of the indirectly sympathomimetic drugs, tyramine and cocaine, could be explained entirely on the basis of the actions of released, endogenous noradrenaline.3. Tyramine produced a contraction in vasa taken from normal rats but not from normal guinea-pigs. The tyramine contraction was due to release of endogenous noradrenaline because it was not seen in preparations taken from reserpinized rats and because it was abolished in normal vasa by phenoxybenzamine or phentolamine, thus denying the supposed inaccessibility, to alpha-blockers, of the motor alpha-adrenoceptors activated by endogenous noradrenaline.4. Phenoxybenzamine or phentolamine failed to block post-ganglionic motor transmission in rat and in guinea-pig vasa.5. Tyramine strongly inhibited motor transmission in vasa taken from normal but not from reserpinized guinea-pigs.6. Tyramine produced inhibition of motor transmission in phenoxybenzamine-treated preparations taken from normal but not from reserpinized rats.7. Cocaine inhibited motor transmission in guinea-pig and in rat vasa. This effect was not due to a local anaesthetic or to a smooth-muscle depressant action because it did not occur in preparations taken from reserpinized animals.8. The inhibitory effect of tyramine or cocaine was not abolished by beta-adrenoceptor blockade with propranolol.9. Whereas reserpinization abolished the tyramine- and cocaine-inhibitions, it did not affect the inhibitory actions of noradrenaline or of PGE(2).10. Indomethacin and sodium meclofenamate, which suppress prostaglandin synthesis, did not affect the twitch-inhibiting actions of noradrenaline, tyramine or cocaine.11. These results provide further support for the conclusion that post-ganglionic motor transmission to the vas deferens is non-adrenergic in these species and assign to endogenously released noradrenaline an inhibitory role upon motor transmission.