Dopamine and serotonin effects on neurons of dorsal root ganglion isolated from rats

Abstract

The effects of 1×10−8−1×10−5 M dopamine (DA) and serotonin (HT) on membrane potential, input resistance (RM), and action potential (AP) when added to the superfusing fluid for 0.5 min were investigated in perfused dorsal root ganglia (DRG) neurons isolated from 30–36-day old rats during experiments using intracellular recording techniques. Application of DA induced reversible changes in membrane potential in 48 out of 52 test cells as compared with 38 out of 44 for HT. Distribution of different patterns of response to DA and HT was similar: depolarization was recorded in 64.6 and 73.7% and hyperpolarization in 16.7 and 15.8%; two-stage response occurred in 18.7 and 10.5% of responding cells, respectively. Both monoamines induced reversible change in the AP and RM pattern in a number of cells. Depolarization was accompanied by a decline and hyperpolarization by a rise in RM. Both substances were found to affect mainly those neurons with electrophysiological properties characteristic of small cells. The possibility of afferent spike train modulation at the level of primary sensory neurons is suggested.