Properties of cloned rat alpha1A calcium channels transiently expressed in the COS-7 cell line.

The rat brain alpha1A calcium channel clone has been expressed in COS-7 cells together with the neuronal accessory subunits beta1b and alpha2-delta. From reverse transcriptase polymerase chain reaction (RT-PCR), immunocytochemistry and electrophysiology experiments, we have obtained no evidence that these cells contain any endogenous calcium channels. Transfected cells were identified by co-expression of a cDNA for the reporter Green Fluorescent Protein. From immunocytochemical evidence, a high degree of co-expression was obtained between Green Fluorescent Protein and individual calcium channel subunits. When all three calcium channel subunits (alpha1, alpha2-delta and beta1b) were co-expressed, evidence was obtained that all subunits were present at the cell membrane. Voltage-dependent calcium currents were observed between 24 and 72 h after transfection with the three calcium channel subunits. The current density for the combination alpha1A/alpha2-delta/beta1b was 4.19 +/- 0.69 pA.pF(-1) and the current produced was slowly inactivating. The time constant of inactivation of the maximum I(Ba) was 332 +/- 46 ms (n = 5). The voltage-dependence of activation and steady-state inactivation had voltages of half activation and inactivation of 9.5 +/- 2.5 mV and -30.4 +/- 1.5 mV respectively, and there was little overlap between the two curves. The alpha1A current was completely blocked by 100 microM Cd2+ and was also blocked by omega-conotoxin MVIIC (500 nM). Dose-inhibition curves and analysis of k(on) and k(off) for omega-agatoxin IVA both revealed apparent K(D) values of approximately 11 nM for alpha1A currents, with a k(on) of 7.8 x 10(4) M(-1).s(-1). The results suggest that alpha1A expressed in these cells has some resemblance to the P type component of calcium current observed in native neurons, although it shows a somewhat greater degree of inactivation than native P current, more similar to the Q type current component. It also has an affinity for omega-agatoxin IVA 2-5 fold lower than reported for P current, but approximately 9-fold higher than reported for Q current.

Importance of the different beta subunits in the membrane expression of the alpha1A and alpha2 calcium channel subunits: studies using a depolarization-sensitive alpha1A antibody.

The plasma membrane expression of the rat brain calcium channel subunits alpha1A, alpha2-delta and the beta subunits beta1b, beta2a, beta3b and beta4 was examined by transient expression in COS-7 cells. Neither alpha1A nor alpha2-delta localized to the plasma membrane, either alone or when coexpressed. However, coexpression of alpha1A or alpha2-delta/alpha1A with any of the beta subunits caused alpha1A and alpha2 to be targetted to the plasma membrane. The alpha1A antibody is directed against an exofacial epitope at the mouth of the pore, which is not exposed unless cells are depolarized, both for native alpha1A channels in dorsal root ganglion neurons and for alpha1A expressed with a beta subunit. This subsidiary result provides evidence that either channel opening or inactivation causes a conformational change at the mouth of the pore of alpha1A. Immunostaining for alpha1A was obtained in depolarized non-permeabilized cells, indicating correct orientation in the membrane only when it was coexpressed with a beta subunit. In contrast, beta1b and beta2a were associated with the plasma membrane when expressed alone. However, this is not a prerequisite to target alpha1A to the membrane since beta3 and beta4 alone showed no differential localization, but did direct the translocation of alpha1A to the plasma membrane, suggesting a chaperone role for the beta subunits.