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Vol. 283, Issue 2, 426-433, 1997
Department of Pharmacology, School of Medicine, University of
Minnesota-Duluth Duluth, Minnesota
Natriuretic peptides are cyclized peptides produced by cardiovascular
and neural tissues. These peptides inhibit various secretory responses
such as the release of renin, aldosterone and autonomic neurotransmitters. This report tests the hypothesis that atrial natriuretic peptide reduces dopamine efflux from an adrenergic cell
line, rat pheochromocytoma cells, by suppressing intracellular calcium
concentrations. The L-type calcium channel inhibitor, nifedipine,
markedly suppressed dopamine release from depolarized PC12 cells,
suggesting that calcium entering through this channel was the
predominant stimulus for dopamine efflux. Atrial natriuretic peptide
maximally reduced depolarization-evoked dopamine release 20 ± 3%
at a concentration of 100 nM and this effect was abolished by
nifedipine, but not by pretreatment with the N-type calcium channel
inhibitor, 
-conotoxin, or an inhibitor of calcium-induced calcium
release, ryanodine. In cells loaded with Fura-2, atrial natriuretic
peptide both augmented depolarization-induced increases of
intracellular free calcium concentrations and accelerated the depolarization-induced quenching of the Fura-2 signal by manganese, findings consistent with enhanced conductivity of calcium channels. Dopamine efflux induced by either the calcium ionophore, A23187, or
staphylococcal 
toxin was attenuated by atrial natriuretic peptide.
Additionally, a natriuretic peptide interacting solely with the
natriuretic peptide C receptor in these cells, C-type natriuretic
peptide, also suppressed calcium-induced dopamine efflux in
permeabilized cells. These data are consistent with natriuretic
peptides attenuating catecholamine exocytosis in response to calcium
but inconsistent with the neuromodulatory effect resulting from a
reduction in intracellular calcium concentrations within pheochromocytoma cells.
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