Prostaglandin action on transmitter release of adrenergic neuroeffector junctions.

Abstract

The results presented here indicate that 1. The inhibitory action of the endoperoxides on NE release can be at least partly explained in terms of formation of degradation products, presumably mainly PGE2. 2. PGA2 is less active and the PG analogue 16,16-dimethyl-PGE2 more active than PGEs on transmitter release from adrenergic nerves. 3. PGF2alpha seems to enhance vascular responses to renal nerve activity solely by a postjunctional action. 4. PG synthesis inhibition augments NE turnover in a number of rat organs, thereby increasing the probability of PGs being involved in the control of adrenergic neurotransmission in vivo. 5. Prolongation of the duration of the impulse and action potential counteracts the effect of PGE on NE release, thereby strengthening the view that PGs operate on NE release from adrenergic nerve terminals by interfering with Ca2+ influx.