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We have monitored L-type Ca2+ channel activity, local cytoplasmic Ca2+ transients, the distribution of insulin-containing secretory granules and exocytosis in individual mouse pancreatic B-cells. Subsequent to the opening of the Ca2+ channels, exocytosis is initiated with a latency < 100 ms. The entry of Ca2+ that precedes exocytosis is unevenly distributed over the cell and is concentrated to the region with the highest density of secretory granules. In this region, the cytoplasmic Ca2+ concentration is 5- to 10-fold higher than in the remainder of the cell reaching concentrations of several micromolar. Single-channel recordings confirm that the L-type Ca2+ channels are clustered in the part of the cell containing the secretory granules. This arrangement, which is obviously reminiscent of the 'active zones' in nerve terminals, can be envisaged as being favourable to the B-cell as it ensures that the Ca2+ transient is maximal and restricted to the part of the cell where it is required to rapidly initiate exocytosis whilst at the same time minimizing the expenditure of metabolic energy to subsequently restore the resting Ca2+ concentration.

Type

Journal article

Journal

EMBO J

Publication Date

03/01/1995

Volume

14

Pages

50 - 57

Keywords

Animals, Biological Transport, Calcium, Calcium Channels, Cell Compartmentation, Computer Simulation, Cytoplasmic Granules, Electric Conductivity, Exocytosis, Insulin, Islets of Langerhans, Membrane Potentials, Mice, Mice, Inbred Strains, Microscopy, Fluorescence, Microscopy, Video, Models, Biological, Patch-Clamp Techniques