Effect of of ATP on Neurons of the Rat Intact Nodose Ganglion

Under intracellular recording, we studied the effect of ATP on nerve cells of the rat intact nodose ganglion. The resting membrane potential of the examined neurons was, on average, –60.3 ± 1.4 mV (n = 84); among such units, 88% were classified as C cells. Local application of 2 mM ATP to the surface of the ganglion using a modified laminar flow system led to depolarization of neurons by 7.1 ± 0.9 mV, on average (n = 19). A blocker of P2X receptors, PPADS (100 μM), suppressed these depolarization responses, decreasing their amplitude, on average, to 16 ± 3% (n = 3) of the initial value. The obtained data indicate that an overwhelming majority of neurons of the intact nodose ganglion possess functional P2X receptors on their membranes. The absence of the corresponding responses in a considerable part of neurons of intact spinal ganglia [13-15] was, apparently, determined by the fact that P2X receptors in the course of the described experiments had enough time to desensitize before ATP reached the effective concentration.