Abstract

The most compelling pharmacological evidence in support of benzodiazepine (BZD) receptor heterogeneity is derived from the study of the complex interactions of CL 218872 and propyl beta-carboline-3-carboxylate (PCC) with brain BZD receptors. In the present study, we provide evidence to support the hypothesis that intraregional BZD receptor heterogeneity in rat brain is a result of the different conformational states of a single receptor. This hypothesis is based upon the observation that CL 218872 and PCC lose the ability to effectively discriminate BZD receptor subtypes in rat cerebral cortex, hippocampus and pons-medulla at physiological temperature (37°C). Interestingly, both PCC and CL 218872 show higher affinity for BZD receptors in the cerebellum when compared to other brain regions at 37°C. This observation suggests that interregional BZD receptor heterogeneity occurs under physiologically relevant temperatures. We propose that distinct cerebellar and non-cerebellar type BZD receptors exist in vivo while marked differences in the affinity of the type I and type II BZD receptor subtypes postulated by Klepner et al. 1979 may only occur in vitro at 0°–4°C.

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