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British Journal of Pharmacology logoLink to British Journal of Pharmacology
. 1978 Dec;64(4):565–580. doi: 10.1111/j.1476-5381.1978.tb17319.x

Factors influencing the release of acetylcholine from the myenteric plexus of the ileum of the guinea-pig and rabbit.

A L Cowie, H W Kosterlitz, A A Waterfield
PMCID: PMC1668451  PMID: 31960

Abstract

1 The effects of electrical stimulation, changes in external ion concentrations and various drugs on acetylcholine release from the myenteric plexus were measured by bioassay in the presence of physostigmine and by recording the responses of the longitudinal muscle. In preparations from the guinea-pig, the acetylcholine output per pulse increased with decreasing frequency of stimulation and reached its maximum at a frequency of 0.017 Hz (1/min) and thus ensured that the output per unit of time was constant at frequencies below 0.5 Hz. Spontaneous release was suppressed during stimulation at 0.017 Hz. 2 In the rabbit, the fractional acetylcholine release was lower than in the guinea-pig. The output per pulse increased with decreasing frequency of stimulation but at a lesser rate, with the effect that the output per unit decreased between 0.5 and 0.017 Hz. 3 In the guinea-pig, reduction of the Ca2+ concentration, addition to the bath fluid of Mn2+, ganglion-blocking drugs, morphine and catecholamines reduced output more at low than at high frequencies of stimulation. In the rabbit, acetylcholine output was less sensitive to changes in Ca2+ concentration and insensitive to Mn2+ and morphine. 4 In the guinea-pig, morphine and catecholamines depressed both the contractile response and acetylcholine output whereas Mn2+ in concentrations up to 125 muM, bretylium and ganglion-blocking drugs depressed only acetylcholine output. 5 In preparations from the guinea-pig, drugs blocking noradrenergic neurons or alpha-adrenoceptors, e.g. bretylium, phenoxybenzamine, thymoxamine and phentolamine, increased acetylcholine output during stimulation at high (1.5 to 10 Hz) but not at low frequencies. 6 The implications of these findings for the release of acetylcholine from different pools in the heterogeneous myenteric plexus are considered. The possible errors, introduced by the effects of physostigmine, on the size of the acetylcholine pools and on the transmission of impulses within the myenteric plexus are discussed.

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Selected References

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