Rabbit Cerebral Cortex 5HT 1a Receptors

Abstract

Selective 5HT 1a agonist binding to membranes from rabbit cerebral cortex was concentration-dependent and saturable; the Kd was 1.1 nM and Bmax of 480 fmols/mg protein. Scatchard as well as Hill plots were linear; the Hill coefficient was 0.96, suggesting a single, non-interacting binding site. Agonist binding was inhibited in a concentration-dependent fashion by gamma S GTP, a result consistent with the coupling of this binding site to the G protein signal transduction system. In competition experiments involving agonist and a series of agents with known affinities and specificities at 5HT 1a receptors, a rank order relationship was found consistent with this binding site being a 5HT 1a binding site. Direct comparisons of agonist and antagonist binding at rat cerebral cortex 5HT 1a receptors and cloned human 5HT 1a receptors also suggested that the rabbit binding site belongs to the 5HT 1a class. The only rank order anomalies were with methiothepin in rabbit cerebral cortex, where a comparatively high Ki was observed and with buspirone in cloned human 5HT 1a receptor, where a low Ki was determined; these anomalies bear further study in light of the comparative pharmacology of 5HT 1a receptors. Finally, the natural product parthenolide was tested for affinity in the rabbit, rat, and human systems, where it uniformly was unable to displace agonist, suggesting that the 5HT 1a receptor is not a target for this compound. Overall, these results suggest that a functional 5HT 1a receptor exists in rabbit cerebral cortex.