The mechanism of GABAB-mediated slowing of the activation phase of high voltage-activated Ca2+ channels in rat sensory neurons.

The mechanism underlying the slowed activation of the high voltage-activated Ca2+ current (HVA-ICa) in the presence of (-)-baclofen was studied in cultured neurons of rat dorsal root ganglia. The decay phase of the baclofen-sensitive component of HVA-ICa was described by a sum of two exponential functions. Although the inhibited portion in the amplitude of the baclofen-sensitive component of HVA-ICa was increased in a concentration-dependent manner, the two decay time constants remained unaffected regardless of the concentration of baclofen. Furthermore, the baclofen-sensitive component of HVA-ICa was largely inactivated by a depolarizing prepulse (-30 mV for 0.5 s). These results support the notion that the slowed activation of the HVA-ICa in the presence of baclofen is due to a preferential inhibition of the inactivating component of HVA-ICa rather than due to voltage-dependent unblocking of a single population of HVA-ICa.