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Facilitation of rabbit _1B calcium channels: involvement of endogenous G subunits

Gary J. Stephens, Nicola L. Brice, Nicholas S. Berrow and Annette C. Dolphin

1. The _1B (N-type) calcium channel shows strong G protein modulation in the presence of G protein activators or G subunits. Using transient expression in COS-7 cells of _1B together with the accessory subunits ₂- and _2a, we have examined the role of endogenous G subunits in the tonic modulation of _1B, and compared this with modulation by exogenously expressed G subunits.

2. Prepulse facilitation of control _1B/₂-/_2a currents was always observed. This suggests the existence of tonic modulation of _1B subunits. To determine whether endogenous G is involved in the facilitation observed in control conditions, the ARK1 G-binding domain (amino acids 495-689) was overexpressed, in order to bind free G subunits. The extent of control prepulse-induced facilitation was significantly reduced, both in terms of current amplitude and the rate of current activation. In agreement with this, GDPS also reduced the control facilitation.

3. Co-expression of the G₁₂ subunit, together with the _1B/₂-/_2a calcium channel combination, resulted in a marked degree of depolarizing prepulse-reversible inhibition of the whole-cell I_Ca or I_Ba. Both slowing of current activation and inhibition of the maximum current amplitude were observed, accompanied by a depolarizing shift in the mid-point of the voltage dependence of activation. Activation of endogenous G subunits by dialysis with GTPS produced a smaller degree of prepulse-reversible inhibition.

4. The rate of reinhibition of _1B currents by activated G protein, following a depolarizing prepulse, was much faster with G₁₂ than for the decay of facilitation in control cells. Furthermore, ARK1 (495-689) co-expression markedly slowed the control rate of reinhibition, suggesting that the kinetics of reinhibition depend on the concentration of free endogenous or exogenously expressed G in the cells. In contrast, the rate of loss of inhibition during a depolarizing prepulse did not vary significantly between the different conditions examined.

5. These findings indicate that, in this system, the voltage-dependent facilitation of _1B that is observed under control conditions occurs as a result of endogenous free G binding to _1B.

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