Three types of cytoplasmic Ca2+ oscillations in stimulated pancreatic beta-cells.

Oscillations of cytoplasmic Ca2+ (Ca2+i) involved in cell regulation have recently attracted considerable attention. In the pancreatic beta-cells an intermediate concentration of glucose (11 mM) induces large oscillations of Ca2+i with periods of 2 to 6 min. Procedures stimulating insulin secretion further, such as raising glucose to 20-30 mM or adding carbachol, ATP, theophylline, glucagon, or forskolin, often changed these oscillations into a steady increase of Ca2+i. In addition, forskolin and glucagon triggered prominent 9- to 14-s Ca2+i spikes during the intervals of increased Cai2+, whereas carbachol and ATP initiated a series of rapid spikes of decreasing magnitude and increasing duration (6-11 s). All types of oscillations depended on the presence of extracellular Ca2+i, but carbachol and ATP also induced single Cai2+ transients in the absence of the cation. The results demonstrate hitherto unknown oscillations of Ca2+i in the pancreatic beta-cell which are dependent in different ways on Ca2+ entry.