Stable and functional expression of the calcium channel alpha 1 subunit from smooth muscle in somatic cell lines.

Abstract

Voltage-activated calcium channels are membrane spanning proteins that allow the controlled entry of Ca2+ into the cytoplasm of cells. The principal channel forming subunit of an L-type calcium channel is the alpha 1 subunit. Transfection of Chinese hamster ovary (CHO) cells with complementary DNA encoding the calcium channel alpha 1 subunit from smooth muscle led to the expression of functional calcium channels which bind calcium channel blockers and show the voltage-dependent activation and slow inactivation and unitary current conductance characteristic of calcium channels in smooth muscle. The currents mediated by these channels are sensitive towards dihydropyridine-type blockers and agonists indicating that the calcium channel blocker receptor sites were present in functional form. The smooth muscle alpha 1 subunit cDNA alone is sufficient for stable expression of functional calcium channels with the expected kinetic and pharmacological properties in mammalian somatic cells.