The effect of overexpression of auxiliary Ca2+ channel subunits on native Ca2+ channel currents in undifferentiated mammalian NG108-15 cells

1. High voltage activated (HVA) Ca2+ channels are composed of a pore-forming alpha 1 subunit and the accessory beta and alpha 2-delta subunits. However, the subunit composition of low voltage activated (LVA), or T-type, Ca2+ channels has yet to be elucidated. We have examined whether native calcium channels in NG108-15 mouse neuroblastoma x rat glioma hyrbrid cells, which express predominantly LVA currents when undifferentiated, are modulated by overexpression of accessory calcium channel subunits. 2. Endogenous alpha 1A, B, C, D and E, and low levels of beta and alpha 2-delta subunit protein were demonstrated in undifferentiated NG108-15 cells. 3. The alpha 2-delta, beta 2a or beta 1b accessory subunits were overexpressed by transfection of the cDNAs into these cells, and the effect examined on the endogenous Ca2+ channel currents. Heterologous expression, particularly of alpha 2-delta but also of beta 2a subunits dearly affected the profile of these currents. Both subunits induced a sustained component in the currents evoked by depolarizing voltages above -30 mV, and alpha 2-delta additionally caused a depolarization in the voltage dependence of current activation, suggesting that it also affected the native T-type currents. In contrast, beta 1b overexpression had no effect on the endogenous Ca2+ currents, despite immunocytochemical evidence for its expression in the transfected cells. 4. These results suggest that in NG108-15 cells, overexpression of the Ca2+ channel accessory subunits alpha 2-delta and beta 2a induce a sustained component of HVA current, and alpha 2-delta also influences the voltage dependence of activation of the LVA current. It is possible that native T-type alpha 1 subunits are not associated with beta subunits.