Alpha 2-adrenergic, kappa-opiate, and P1-purinergic autoreceptors have mutually antagonistic effects: a new regulatory mechanism?

Rat cortical synaptosomes prepared on four-step discontinuous Percoll density gradients were loaded with the fluorescent Ca2+-indicator fura-2 to allow measurement of the intrasynaptosomal free calcium concentration ([Ca2+]i). When P1-purinergic, alpha 2-adrenergic, or kappa-opiate agonists were incubated with these synaptosomes for 1 min, there was a highly significant, dose-dependent reduction in [Ca2+]i. The effects of these agonists were blocked by inclusion of appropriate specific antagonists. When alpha 2-adrenergic and P1-purinergic agonists were coincubated, a mutual antagonism of their effects was observed, and, in fact, an increase rather than a decrease in [Ca2+]i was apparent. This mutual antagonism was reversed by addition of either a P1-purinergic or a alpha 2-adrenergic antagonist. Parallel studies in which kappa-opiate and P1-purinergic agonists were coincubated also demonstrated a mutual antagonism between the individual effects that was reversed by prior inclusion of either a kappa-opiate or P1-purinergic antagonist. As these mutually antagonistic effects have been observed between alpha 2-adrenergic, kappa-opiate, and P1-purinergic receptor-mediated events, we suggest that this may be a general phenomenon and may be a regulatory mechanism at nerve endings.