Ca2+ signalling in cultured smooth muscle cells from human bladder.

It has been suggested that the isolation and culture of human detrusor smooth muscle cells may provide useful insights into the physiology of the intact detrusor muscle. In the present paper, data are presented from cultured human bladder smooth muscle cells isolated from small, routinely available biopsies. Since the initiation of contractions involves a rise in intracellular Ca2+, this study has focused on the mechanisms involved in the rise of Ca2+ in cultured cells. Exposure of cells to bathing solutions with elevated K+ concentrations resulted in an increase in Ca2+ consistent with the presence of voltage-activated Ca2+ channels. Agonists, including carbachol, histamine and ATP, also activated repetitive transient increases in Ca2+ in the presence and absence of external Ca2+. Spontaneous Ca2+ transients were recorded in 31% of cells isolated from normal bladders. Such spontaneous and agonist-induced oscillations were not abolished in depolarized cells, suggesting that the mechanisms underlying the oscillations are not dependent on the cyclical operation of voltage-operated Ca2+ channels. However, the spontaneous activity was inhibited by the Ca2+ blocker verapamil, pointing to the presence of Ca2+ channels. The operation of an IP3-sensitive Ca2+ release mechanism was examined using saponin-permeabilized cells, which demonstrated that IP3 increased the rate of 45Ca2+ efflux. The conclusion from this study is that many of the mechanisms described in the intact tissue are operational in cultured cells.