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Am J Physiol Gastrointest Liver Physiol 259: G792-G801, 1990;
0193-1857/90 $5.00
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AJP - Gastrointestinal and Liver Physiology, Vol 259, Issue 5 792-G801, Copyright © 1990 by American Physiological Society

ARTICLES

Characterization of sustained [Ca2+]i increase in pancreatic acinar cells and its relation to amylase secretion

Y. Tsunoda, E. L. Stuenkel and J. A. Williams
Department of Physiology, University of Michigan, Ann Arbor 48109.

The sustained increase in cytosolic free Ca2+ concentration ([Ca2+]i) during maximal stimulation of rat pancreatic acini with carbamylcholine (10(-5) M) was investigated in individual acinar cells by microspectrofluorometric analysis of fura-2. After the large initial [Ca2+]i increase from intracellular stores, [Ca2+]i remained significantly elevated as long as the stimulus was applied. The amplitude of this plateau was dependent on the median Ca2+ concentration ([Ca2+]o) being 45-50 nM above prestimulation in medium with 1 mM [Ca2+]o increasing to 90 nM at 10 mM [Ca2+]o. This Ca2+ plateau was completely blocked by 2.5 mM Ni2+ and 0.25 mM La3+ but was unaffected by elevated K+ or the Ca2+ channel blocker D 600. Mn2+ was able to enter the cytosol after the cell stimulation as indicated by intracellular quenching of fura-2, indicating that acinar cells possess a Mn2(+)-permeable Ca2+ channel. Elimination of [Ca2+]o or addition of Ni2+ and Mn2+ to the medium reduced the level of sustained amylase secretion in a reversible manner under superfusion conditions. Increasing [Ca2+]i above the normal level by increasing [Ca2+]o had no effect on amylase secretion. The process for sustained Ca2+ entry was pH sensitive; decreasing extracellular pH (pHo) to 6.5-6.8 during the cell stimulation resulted in a reduction of the sustained [Ca2+]i plateau level and a decrease in sustained amylase secretion. By contrast, increasing pHo to 8.0 enhanced the level of the sustained [Ca2+]i in a Ni2(+)-sensitive manner but did not increase amylase release. Changes in cytosolic pH had only minimal effects on the sustained [Ca2+]i plateau. The results demonstrate a receptor-mediated Ca2+ entry mechanism, which results in a small increase in [Ca2+]i important in the maintenance of sustained amylase release.


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