Article date: June 1989
By: Marcello Tonini, Giovanni Petris, Luciano Onori, Luigi Manzo, Carlo A. Rizzi, Antonio Crema in Volume 97, Issue 2, pages 556-562
The peristaltic activity of the guinea‐pig ileum was studied in the absence and in the presence of the blockade of GABAA receptors.
Bicuculline (1–30 μm), improved at the highest concentrations the efficiency of peristalsis by enhancing the frequency of propulsive contractions and the amount of fluid ejected per unit of time.
Neither SR 95531 (0.3–10 μm), a novel GABAA receptor antagonist, which competitively antagonized 3‐aminopropane sulphonic acid induced contractions in myenteric plexus‐longitudinal muscle preparations (pA2 value: 6.47), nor picrotoxinin (1–30 μm) modified peristaltic parameters or influenced the potentiating effect of bicuculline on peristaltic activity.
In myenteric plexus‐longitudinal muscle preparations, bicuculline (1–30 μm) enhanced the amplitude of electrically‐induced cholinergic contractions without modifying submaximal contractions to applied acetylcholine. SR 95531 and picrotoxinin had no effect on twitch amplitude. In the presence of each of these compounds, bicuculline retained its potentiating effect.
The results obtained with SR 95531 and picrotoxinin question the view that GABAA receptors may exert a critical role in intestinal propulsion by modulating the activity of nerve pathways subserving peristalsis. Bicuculline potentiates the peristaltic activity of the ileum probably via a facilitatory effect on enteric cholinergic transmission that is independent of GABAA receptor blockade.
The peristaltic activity of the guinea‐pig ileum was studied in the absence and in the presence of the blockade of GABAA receptors.
Bicuculline (1–30 μm), improved at the highest concentrations the efficiency of peristalsis by enhancing the frequency of propulsive contractions and the amount of fluid ejected per unit of time.
Neither SR 95531 (0.3–10 μm), a novel GABAA receptor antagonist, which competitively antagonized 3‐aminopropane sulphonic acid induced contractions in myenteric plexus‐longitudinal muscle preparations (pA2 value: 6.47), nor picrotoxinin (1–30 μm) modified peristaltic parameters or influenced the potentiating effect of bicuculline on peristaltic activity.
In myenteric plexus‐longitudinal muscle preparations, bicuculline (1–30 μm) enhanced the amplitude of electrically‐induced cholinergic contractions without modifying submaximal contractions to applied acetylcholine. SR 95531 and picrotoxinin had no effect on twitch amplitude. In the presence of each of these compounds, bicuculline retained its potentiating effect.
The results obtained with SR 95531 and picrotoxinin question the view that GABAA receptors may exert a critical role in intestinal propulsion by modulating the activity of nerve pathways subserving peristalsis. Bicuculline potentiates the peristaltic activity of the ileum probably via a facilitatory effect on enteric cholinergic transmission that is independent of GABAA receptor blockade.
DOI: 10.1111/j.1476-5381.1989.tb11985.x
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