Differentiated expression inXenopus oocytes of calcium channels from rat cerebellar and forebrain neurons

Calcium channels were expressed inXenopus laevis oocytes by means of matrix RNA (mRNA) extracted from the cerebellum (RNAc) and forebrain (RNAfb). In these oocytes, inward barium currents,I _Ba, evoked by 40 mM Ba²⁺ were investigated using a double microelectrode technique. Currents expressed after injection of both RNAc and RNAfb (further referred to as RNAc- and RNAfb-expressed currents) showed a voltage-dependent characteristic typical of high-threshold calcium channels of mammalian neurons. The threshold of activation was about –40 mV, the maximum amplitude was observed at +20 mV and reversal potential at +60 mV. In both groups of oocytes, no expression of low- or high-threshold calcium channels of other types was observed. Although in both cases the expression ofI _Ba had similar macrokinetics, characteristics of their stationary inactivation differed. The half-inactivation potential ranged between –32 and –16 mV, and the slope factor was 28 and 16.6 mV in RNAfb- and RNAc-injected oocytes, respectively. In both cases,I _Ba were insensitive to dihydropyridines; however their relation to other pharmacological agents was different. RNAfb-expressedI _Ba was completely blocked by Cd²⁺ (K _d=10 µM) and depressed up to 70% by -conotoxin (1 µM), being insensitive to either whole spider toxin fromAgelenopsis aperta venom or to its FTX fraction. On the contrary, RNAc-expressedI _Ba was more sensitive to Cd²⁺ (K _d=0.1 µM), stable to -conotoxin, and suppressed up to 75–90% by wholeA. aperta toxin in a dilution of 1:10000, and by FTX at a concentration of 0.5 µM. The findings allow us to suggest that the forebrain and cerebellum of mammals are the structures, whose mRNA differ and provide predominant expression of voltage-dependent calcium channels of N- and P-types, respectively.Neirofiziologiya/Neurophysiology, Vol. 26, No. 6, pp. 427–436, November–December, 1994.