Calcium influx factor directly activates store-operated cation channels in vascular smooth muscle cells.

Recently, we described a novel 3-pS Ca(2+)-conducting channel that is activated by BAPTA and thapsigargin-induced passive depletion of intracellular Ca(2+) stores and likely to be a native store-operated channel in vascular smooth muscle cells (SMC). Neither Ca(2+) nor inositol 1,4,5-trisphosphate or other second messengers tested activated this channel in membrane patches excised from resting SMC. Here we report that these 3-pS channels are activated in inside-out membrane patches from SMC immediately upon application of Ca(2+) influx factor (CIF) extracted from mutant yeast, which has been previously shown to activate Ca(2+) influx in Xenopus oocytes and Ca(2+) release-activated Ca(2+) current in Jurkat cells. In bioassay experiments depletion of Ca(2+) stores in permeabilized human platelets resulted in the release of endogenous factor, which activated 3-pS channels in isolated inside-out membrane patches excised from SMC and exposed to permeabilized platelets. The same 3-pS channels in excised membrane patches were also activated by acid extracts of CIF derived from human platelets with depleted Ca(2+) stores, which also stimulated Ca(2+) influx upon injection into Xenopus oocytes. Specific high pressure liquid chromatography fractions of platelet extracts were found to have CIF activity when injected into oocytes and activate 3-pS channels in excised membrane patches. These data show for the first time that CIF produced by mammalian cells and yeast with depleted Ca(2+) stores directly activates native 3-pS cation channels, which in intact SMC are activated by Ca(2+) store depletion.