Neural ganglionic transmission was studied in vivo in the cat, using closed chest anesthetized preparations. The right stellate ganglion and its branches were exposed retropleurally and prepared for electrical stimulation of pre- and postganglionic nerve fibers. The axillary artery was cannulated allowing direct administration of drugs in the arterial blood supplying the
ganglion. Stimulation of postjunctional receptors could thus be obtained by local administration of selective agents. Local administration of nicotinic,
muscarinic or
histaminergic agents increased heart rate and blood pressure.
Opiates were given either i.v. or locally through the axillary artery: we tested the effects of
morphine,
Leu-enkephalin (Leu-enk),
Met-enkephalin (Met-enk), [D-ala2]-
Met-enkephalinamide (
DAME) and
etorphine. When given locally, Leu-enk (from 10 micrograms), Met-enk (from 20 micrograms),
DAME (from 5 micrograms) and
etorphine (from 0.2 micrograms) inhibited
tachycardia induced by preganglionic stimulation and reduced the amplitude of the compound action potential recorded from the postganglionic nerve.
Morphine (10-200 micrograms) had no effect. On the other hand,
tachycardia induced by postganglionic nerve stimulation was unaffected by
opiates in the same experimental conditions.
Intravenous administration of similar doses of
opiates had no effect on ganglionic transmission. When
tachycardia was induced by chemical stimulation of nicotinic (
DMPP),
muscarinic (McN-A-343-11) or
histamine receptors in the stellate ganglia,
opiates were still active in reducing the effect of these chemicals. These data provide evidence that exogenous
opiates exert a depressing action on postsynaptic responses of sympathetic ganglia tested in vivo, although an additional action on presynaptic terminals is not excluded. As
endogenous opiates are normally present in various sympathetic ganglia, including the stellate ganglion of the cat, it is possible that they play some modulatory role on ganglionic transmission in physiological conditions.