Two high voltage-activated calcium currents are present in isolation in adult rat spinal neurons.

In neurons enzymatically isolated from adult rat dorsal root ganglia and used during the following 24 hours, the Ca2+ currents were investigated with the whole-cell patch-clamp technique. In contrast to the neonatal neurons, the salient feature of these adult neurons is the well separated (in the voltage-range) activation and inactivation properties of each recorded current. The low-threshold T-, the high-threshold inactivating N-, and the long-lasting L-currents have a threshold for activation at -60, -45 and -10 mV, and a 50% inactivation at -75, -45 and -5 mV respectively. The N and L currents were poorly affected by 100 microM Ni, a known blocker of T channels and completely blocked by 100 microM Cd2+. Frequently we could find neurons with only one type of current present. We conclude that adult sensory neurons are a better preparation for studying, in isolation, the physiological relevance of the three types of Ca2+ channels.