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J. Biol. Chem., Vol. 261, Issue 6, 2660-2667, Feb, 1986
S Muallem, CJ Fimmel, SJ Pandol and G Sachs
Quin 2-loaded isolated rabbit gastric glands and purified peptic cells were
used to measure free cytosolic Ca2+ ([Ca2+]i) during hormone stimulation.
Rabbit gastric glands are composed of peptic and parietal cells with less
than 1% endocrine cells. Although both cell types responded to the same
hormones, they may be distinguished in terms of the source of Ca2+ bringing
about the change in [Ca2+]i. Experiments were designed to assign changes in
[Ca2+]i to either the peptic or parietal cells and to attempt to maintain
these distinctions in the mixed cell population of gastric glands. It was
shown that the peptide cholecystokinin octapeptide induced a rapid and
transient increase in [Ca2+]i of isolated peptic cells. This signal was
independent of medium Ca2+ and insensitive to the Ca2+ channel blockers
La3+ and nifedipine. In gastric glands, the Ca2+ outdependent increase in
(Ca2+)i (the secondary transient) was slower and dose dependently blocked
by La3+ and nifedipine. This allowed [Ca2+]i levels in the physiologically
more intact rabbit gastric glands to be dissected and correlated with
fluorescence changes of quin 2 in either cell type. The transient increase
in [Ca2+]i coincided with a burst of pepsin but not acid secretion. A
subsequent slower phase of pepsin secretion took place while the cells
restored near resting [Ca2+]i. Using a combination of the Ca2+ ionophore
A23187 and the protein kinase C activating phorbol ester
12-O-tetra-decanoylphorbol 13-acetate, the hormone response pattern of
pepsin secretion could be mimicked. The intracellular Ca2+ stores of the
peptic cells in the gastric gland remained depleted of Ca2+ until specific
antagonists were added. The reloading of intracellular stores required
medium Ca2+ although [Ca2+]i was maintained at resting level during the
entire reloading period. Hence, a specialized pathway of Ca2+ reloading is
postulated.
Regulation of free cytosolic Ca2+ in the peptic and parietal cells of the rabbit gastric gland
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