GLUCOSE INDUCES OSCILLATIONS OF CYTOPLASMIC CA2-CELLS WITHOUT PARTICIPATION OF THE THAPSIGARGIN-SENSITIVE STORE(, SR2+ AND BA2+ IN PANCREATIC BETA)

Individual pancreatic beta-cells were used to study the glucose effect s on the handling of Ca2+, Sr(2+)and Ba2+. In extracellular medium con taining one of these ions, single beta-cells responded to 11 mM glucos e with large amplitude oscillations in cytoplasmic Ca2+, Sr2+ or Ba2with indistinguishable average frequencies (0.30-0.33/min). The oscill ations disappeared after hyperpolarization with 400 mu M diazoxide. Un der such hyperpolarization, glucose stimulated the sequestration of Ca 2+ and Sr2+ but not of Ba2+ in the inositol 1,4,5-trisphosphate sensit ive pool repetitively mobilized by consecutive exposures to 100 mu M c arbachol. A 2-3 min exposure to 100 nM of the intracellular Ca2+-ATPas e inhibitor thapsigargin also mobilized Ca2+ and Sr2+ and irreversibly abolished subsequent release by carbachol. However, thapsigargin did not prevent the large amplitude oscillations in Ca2+, Sr2+ or Ba2+ und er non-hyperpolarizing conditions although the frequency of the Ca2+ o scillations was almost doubled, The results indicate that the slow osc illatory behavior of glucose-stimulated individual beta-cells does not depend on inositol 1,4,5-trisphosphate mediated release of intracellu lar Ca2+.