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Department of Medicine, University of Washington, and Veterans Affairs Puget Sound Health Care System, Seattle, Washington 98108
Extracellular
triphosphate nucleotides, such as ATP, may regulate various cellular
functions through specific cell surface receptors. We examine in this
report the different secretory effects of ATP and analogs on
nontransformed dog pancreatic duct epithelial cells (PDEC). We observed
that 1) ATP, UTP, adenosine
5'-O-(3-thiotriphosphate), and,
to a lesser extent, 
,
-methylene-ATP, but not adenosine, stimulated
125I
efflux from PDEC, suggesting a primary role for
P2Y2 receptors, 2) ATP-stimulated
125I
efflux was inhibited by 5-nitro-2-(3-phenylpropylamino)benzoic acid,
diphenylamine-2-carboxylate, and DIDS, suggesting mediation through
Ca2+-activated
Cl channels,
3) ATP stimulated an
86Rb+
efflux sensitive to BaCl2 and
charybdotoxin, thus likely occurring through
Ca2+-activated
K+ channels,
4) serosal or luminal addition of
UTP activated apical Cl
conductance and basolateral K+
conductance when nystatin-permeabilized PDEC were studied in an Ussing
chamber, suggesting the expression of
P2Y2 receptors on both sides of
the cell, 5) ATP stimulated mucin
secretion, and 6) ATP increases
intracellular Ca2+ concentration
([Ca2+]i).
In conclusion, ATP and UTP interact with
P2Y2 receptors on nontransformed
PDEC to increase
[Ca2+]i,
stimulate mucin secretion, and activate ion conductances; these
findings have implications for pancreatic exocrine function in both
health and disease, such as cystic fibrosis.
chloride channels; potassium channels; mucin; short-circuit current; cystic fibrosis; adenosine 5'-triphosphate
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