Vasopressin reduces release from vasopressin-neurons and oxytocin-neurons by acting on V2-like receptors.

The effects of arginine vasopressin (AVP), and of the V2-AVP receptor agonist 1-deamino[8-D-arginine] vasopressin (DDAVP) on release from the vasopressin-neurons and oxytocin-neurons of Long-Evans rats were evaluated using specific radioimmunoassays for rat neurophysins. AVP (1 microgram, 1 nmol) or DDAVP (25 ng, 25 pmol) was administered i.p. to animals 1 h before they received an i.v. infusion of 18% saline at 10 microliters/100 g b. wt./min for 60 min. Both AVP and DDAVP decreased the responsiveness (slope) but not the sensitivity threshold of vasopressin-neurons to acute changes in plasma osmolality. Since the amounts of the peptides giving comparable decreases in responsiveness were directly related to their antidiuretic potencies, it is most probable that this influence is mediated through V2-like receptors. However, while ruling out a significant contribution of V1-type receptors, the data do not exclude involvement of other vasopressin receptors (e.g. V3-type receptors). Both AVP and DDAVP also appeared to have an inhibitory effect on release from oxytocin-neurons, but in this case they significantly altered sensitivity threshold but not responsiveness to acute changes in plasma osmolality. Because AVP produced a shift in sensitivity threshold larger than that by DDAVP when the peptides were used in amounts related to their antidiuretic potencies, our results suggest that the feedback influence of AVP on oxytocin-neurons is largely, although not entirely, exercised through V2-like receptors.