POSTER COMMUNICATION

The electrical and mechanical basis of co-transmission in some vascular and non-vascular smooth muscles

1. The intracellularly-recorded electrical and mechanical responses to field stimulation of intramural nerves in three sympathetically-innervated smooth muscles--the mouse vas deferens, the rabbit ear artery and the rabbit mesenteric bed preparation were investigated. 2. In each tissue there was evidence for co-transmission involving noradrenaline (NA) and adenosine 5'-triphosphate (ATP) or a closely related nucleotide. 3. The electrical response in each tissue consisted of excitatory junction potentials (ejps) which were abolished by alpha, beta-methylene ATP (alpha, beta MeATP, 1-10 X 10(-6) M), suggesting that they were mediated by ATP. Only in the rabbit ear artery was there an additional electrical event mediated by NA. This took the form of a small slow membrane depolarization which followed the ejps and which was antagonized by either of the alpha-adrenoreceptor blocking agents phentolamine (1 X 10(-6) M) or prazosin (1 X 10(-7) M). 4. In the mouse vas deferens and rabbit mesenteric artery, both transmitter substances (NA and ATP) played a role in the contractile response to field stimulation. In the rabbit ear artery, NA alone appeared to mediate the contractile event. 5. Contractile responses to nerve-released ATP were accompanied by a membrane potential change, whereas those to NA appeared to be mediated largely by a voltage-independent mechanism. 6. In the mouse vas deferens, the ejps and action potentials evoked by field stimulation appeared to be mediated by a discrete increase in permeability to Na+ and K+. 7. In the mouse vas deferens, local application of bradykinin (1-100 X 10(-7) M) produced a small, slow membrane hyperpolarization. VIP (1-100 X 10(-7) M), neuropeptide Y (1-100 X 10(-7) M), substance P (1-100 X 10(-7) M), somatostatin (1-100 X 10(-7) M), leu-enkephalin (1-100 X 10(-7) M), metenkephalin (1-100 X 10(-7) M) and bombesin (1-100 X 10(-7) M), similarly applied, each produced no significant change in membrane potential. None of these peptides appear to be the transmitter mediating the ejp in this tissue.