V1a‐ and V2‐type vasopressin receptors mediate vasopressin‐induced Ca2+ responses in isolated rat supraoptic neurones

Abstract

1 The pharmacological profile of receptors activated by vasopressin (AVP) in freshly dissociated supraoptic magnocellular neurones was investigated using specific V_1a- and V₂-type AVP receptor agonists and antagonists. 2 In 97 % of AVP-responding neurones (1–3000 nm) V_1a or V₂ receptor type agonists (F-180 and dDAVP, respectively) elicited dose-dependent [Ca²⁺]_i transients that were suppressed by removal of external Ca²⁺. 3 The [Ca²⁺]_i response induced by 1 μm F-180 or dDAVP was selectively blocked by 10 nm of V_1a and V₂ antagonists (SR 49059 and SR 121463A, respectively). The response to V_1a agonist was maintained in the presence of the V₂ antagonist, and the V₂ agonist-induced response persisted in the presence of the V_1a antagonist. 4 The [Ca²⁺]_i response induced by 1 μm AVP was partially (61 %) blocked by 10 nm SR 121463A. This blockade was increased by a further 31 % with the addition of 10 nm SR 49059. Similarly, the AVP-induced response was partially (47 %) decreased by SR 49059, and a further inhibition of 33 % was achieved in the presence of SR 121463A. 5 We demonstrate that AVP acts on the magnocellular neurones via two distinct types of AVP receptors that exhibit the pharmacological profiles of V_1a and V₂ types. However, since V₂ receptor mRNA is not expressed in the supraoptic nucleus (SON), and since V_1b receptor transcripts are observed in the SON, we propose that the V₂ receptor agonist and antagonist act on a ‘V₂-like’ receptor or a new type of AVP receptor that remains to be elucidated. The possibility that V₂ ligands act on the V_1b receptor cannot be excluded.