Effects of Gabapentin on Calcium Transients in Neurons of the Rat Dorsal Root Ganglia

In our experiments on rat dorsal root ganglia (DRG) neurons, we studied the effects of an antiepileptic agent, gabapentin, on calcium transients evoked by depolarization of the membrane using the fluorescence calciumsensitive dye Fura-2/AM. Application of gabapentin to neurons with large-diameter somata practically did not change the characteristics of calcium transients. In mid-sized neurons, the amplitude of transients decreased, on average, by 27% with respect to the control, while in small-sized neurons the transients changed insignificantly (on average, less than by 7%). The mid-sized neurons were additionally subjected to the capsaicin test, which allowed us to differentiate primary nociceptive neurons of this group where TRPV1-type channels are expressed. In capsaicin-sensitive neurons, application of gabapentin led to a decrease in the amplitude of calcium transients, on average, by 37%, while such a decrease was only 16% in capsaicininsensitive neurons. Based on our own data and findings of other researchers on the ability of gabapentin to demonstrate affine binding with the accessory alpha(2)delta subunit of voltage-dependent calcium channels and also on the peculiarities of expression of these channels in somatosensory neurons of the corresponding types, we discuss the probable pattern of expression of subunits of the alpha(2)delta-1 subtype in DRG cells of different sizes. We demonstrated that the effects of gabapentin on calcium transients in nociceptive and hypothetically nonnociceptive mid-sized DRG neurons are selective (the effects in neurons involved in the sensation of acute pain are probably more intense).