Decay kinetics of calcium currents in rat sensory neurones: analysis at two internal free calcium concentrations

Abstract

The patch-clamp technique in whole-cell configuration was, used to investigate the kinetics of decay of calcium currents in rat sensory neurones. Whole-cell recording permitted control of the internal medium, particularly of the internal free calcium concentration, which was maintained at either 10⁻⁹ M or 10⁻⁶ M using a high concentration of Ca buffer. The inactivation decay of the total Ca current elicited above −10 mV was found to be faster at pCa 6 than at pCa 9. The total current contained three exponential components which were tentatively identified as the three types of Ca currents (ICa_T, ICa_N and ICa_S). Kinetic analyses indicated that the control of the inactivation process by internal Ca results from an effect on both high-threshold Ca currents, ICa_N, and ICa_S. The inactivation kinetics reported in the literature presents a large variability depending on the cell type. We propose that this variability may result from differences in the capacity of those cells to control their internal Ca.