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Vol. 288, Issue 3, 1031-1036, March 1999
Departments of
Pharmacology (T.O., K.A., N.T.) and
Dermatology
(M.Uc., M.Ue.), Shiga University of Medical Science, Seta, Ohtsu, Japan
Mechanisms underlying vasodilatation to nerve stimulation by electrical
pulses and nicotine were analyzed in isolated canine small labial
arteries. Transmural electrical stimulation (5 and 20 Hz) produced a
contraction followed by a relaxation in labial arterial strips denuded
of the endothelium, partially contracted with prostaglandin
F2
. The contraction was abolished by prazosin or
combined treatment with 
, 
-methylene ATP. In the treated strips,
neurogenic relaxation was abolished by
NG-nitro-L-arginine
(L-NA), a nitric oxide (NO) synthase inhibitor, and
restored by L-arginine. The D-enantiomers were
without effect. Nicotine (10
4 M) also relaxed
the arteries, in which the contractile response was abolished by
prazosin and ,-methylene ATP. The relaxant response was
attenuated but not abolished by L-NA; the inhibition was
reversed by L-arginine. The remaining relaxation by
nicotine was abolished by calcitonin gene-related peptide (CGRP)-[8 to 37], a CGRP1 receptor antagonist. Relaxations elicited by
a lower concentration of nicotine (2 × 105
M) sufficient to produce similar magnitudes of response to
those induced by 5-Hz electrical nerve stimulation were also inhibited partially by L-NA. Histochemical study with the
NADPH-diaphorase method demonstrated positively stained nerve fibers
and bundles in the arterial wall, suggesting the presence of neuronal
NO synthase. It is concluded that the relaxation induced by electrical
nerve stimulation of small labial arteries is mediated exclusively by NO synthesized from L-arginine in nerve terminals,
whereas nicotine in the concentrations used evokes relaxations by a
mediation of nerve-derived NO and also CGRP, possibly from sensory
nerves. The reason why nicotine but not electrical pulses stimulates
sensory nerves and elicits vasorelaxation remains unsolved.
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