ATP is an important neuronal and astroglial signaling molecule in the brain. In the present study, brain slices were prepared from the prefrontal cortex (PFC) of Wistar rats and 2 lines of mice. P2X₇ receptor immunoreactivity was colocalized with astro- and microglial but not neuronal markers. Whole-cell patch-clamp recordings showed that, in astroglial cells, dibenzoyl-ATP (BzATP) and ATP caused inward currents, near the resting membrane potential. The inactivity of α,β-methylene ATP, as well as the potency increases of BzATP and ATP in a low divalent cation (X²(+))-containing superfusion medium suggested the involvement of P2X₇ receptors. This idea was corroborated by the inhibition of these current responses by PPADS, Brilliant Blue G, A 438079, and calmidazolium. Ivermectin, trinitrophenyl-adenosine-5'-triphosphate, and cyclopentyl-dipropylxanthine did not alter the agonist effects. The reversal potential of BzATP was near 0 mV, indicating the opening of cationic receptor channels. In a low X²(+) superfusion medium, ATP-induced current responses in PFC astroglial cells of wild-type mice but not of the P2X₇ knockouts. Hence, cortical astroglia of rats and mice possess functional P2X₇ receptors. These receptors may participate in necrotic/apoptotic or proliferative reactions after stimulation by large quantities of ATP released by central nervous system injury.
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