P2X₇ pre-synaptic receptors in adult rat cerebrocortical nerve terminals: a role in ATP-induced glutamate release

Although growing evidence suggests that extracellular ATP might play roles in the control of astrocyte/neuron crosstalk in the CNS by acting on P2X₇ receptors, it is still unclear whether neuronal functions can be attributed to P2X₇ receptors. In the present paper, we investigate the location, pharmacological profile, and function of P2X₇ receptors on cerebrocortical nerve terminals freshly prepared from adult rats, by measuring glutamate release and calcium accumulation. The preparation chosen (purified synaptosomes) ensures negligible contamination of non-neuronal cells and allows exposure of 'nude' release-regulating pre-synaptic receptors. To confirm the results obtained, we also carried out specific experiments on human embryonic kidney 293 cells which had been stably transfected with rat P2X₇ receptors. Together, our findings suggest that (i) P2X₇ receptors are present in a subpopulation of adult rat cerebrocortical nerve terminals; (ii) P2X₇ receptors are localized on glutamatergic nerve terminals; (iii) P2X₇ receptors play a significant role in ATP-evoked glutamate efflux, which involves Ca²⁺-dependent vesicular release; and (iv) the P2X₇ receptor itself constitutes a significant Ca²⁺-independent mode of exit for glutamate.