Pharmacological analysis of the pendular movements appearing during calcium blocking of peristalsis in the isolated guinea pig ileum]

Calcium chloride acting from the serosal surface blocked the peristaltic reflex and at the same time, after about 30 minutes, evoked pendulum type of activity in the longitudinal muscle of the guinea-pig isolated ileum, subjected to constant intraluminal pressure. Hexamethonium, tetraethylammonium, morphine, methadone and atropine blocked, while, neostigmine potentiated the pendulum movements evoked by calcium chloride. In the Magnus preparation of the guinea-pig isolated ileum calcium chloride also caused pendulum type of activity. From these experiments it is concluded that calcium chloride evoked pendular movements by stimulating the postganglionic cholinergic nerves in the longitudinal muscle of the guinea-pig isolated ileum.     

The effect of leucine-enkephalin on the peristaltic reflex of the isolated guinea-pig ileum

Leucine (leu)-enkephalin depresses or inhibits the peristaltic reflex of the isolated guinea-pig ileum. Opiate antagonists (naloxone and nalorphine), choline esters (acetylcholine, methacholine and carbachol), cholinomimetics (muscarine and arecoline) and polypeptides which stimulate peristalsis (eledoisin and angiotensin) antagonize the peristaltic block caused by leu-enkephalin. On the other hand, nicotinic ganglionic stimulants (nicotine and dimethylphenylpiperazine) as well as muscarinic ganglionic stimulants (McN-A-343 and AHR-602) do not restore the peristaltic reflex abolished by leu-enkephalin. Thus the inhibitory effect of leu-enkephalin is due mainly to an action on myenteric ganglia as well as on axon terminals of the myenteric plexus subserving the peristaltic reflex. The inhibitory action of leu-enkephalin may be ascribed to the opiate as well as to the cholinoceptive sites in the nervous elements in the myenteric plexus. The blocking action of leu-enkephalin is not associated with ganglionic muscarinic M-1 receptors as well as with ganglionic nicotinic receptors in the myenteric plexus of the guinea-pig isolated ileum.     

Inhibition of peristaltic activity in the guinea-pig ileum by specific stress stimulus; its reversal by naloxone and indomethacin

During continuous peristaltic reflex activity of the isolated guinea-pig ileum a model stress stimulus, elevated intraluminal pressure (120 mm H₂O) plus increased longitudinal tension (3 g) was applied for 2 min. The resulting inhibition of peristalsis outlasted the initial stimulus by several min. The inhibitory interval was shortened or abolished in the presence of naloxone (0.5 μM), an opiate receptor antagonist, or in the preparations made acutely tolerant to morphine. This seems to suggest an involvement of endorphins. An inhibition of endogenous prostaglandin synthesis by indomethacin (5 μM) decreased the amplitude of peristaltic longitudinal muscle contractions, and these contractions were increased in response to the stress stimulus in the presence of naloxone. Thus the response of the guinea-pig ileum to stress stimulation could be profoundly modified by an interference with endorphin and prostaglandin systems.     

Pharmacological analysis of the peristalsis block induced by magnesium applied at the serosal and mucosal surfaces of the isolated guinea pig ileum]

Acetylcholine, metacholine, eserine and neostigmine, acting from the serosal surface antagonised the peristaltic block produced by mucosal application of magnesium, as well as when choline esters and anticholinesterases were injected intraluminally and magnesium acted from the serosal side of the guinea-pig isolated ileum. On the other hand, 5-hydroxytryptamine and histamine did not remove the peristaltic block produced by magnesium. It is concluded that cholinoceptive sites within the myenteric plexus which, when stimulated by cholinergic substanced, produce regular peristaltic waves, are accessible from either sides of the guinea-pig isolated ileum.     

Effect of guanabenz on the peristaltic reflex and on the spontaneous rhythmic movements of the ileum isolated from the rabbit: do the alpha-2-adrenoreceptors constitute a homogenous population?

The inhibitory effect of the predominantly alpha-2 adrenoceptor agonist, guanabenz, on the peristaltic reflex and on the pendular movements of the rabbit isolated ileum was investigated. Guanabenz depressed or abolished the peristaltic reflex as well as the pendular movements. These effects were concentration-dependent. Guanabenz is much more potent inhibiting the peristaltic reflex (IC50 1 X 10(-7) M) than the pendular movements (IC50 1 X 10(-5) M). The choline ester, acetylcholine restored the peristaltic reflex and the anticholinesterase, eserine, restored the pendular movements previously abolished by guanabenz. During the blockade of the peristaltic reflex produced by guanabenz, the pendular movements were virtually not changed. It is therefore reasonable to suppose that the inhibitory effect of guanabenz reflects the different properties of alpha-2 adrenoceptors associated with cholinergic nerve terminals within the myenteric plexus and the longitudinal smooth muscle subserving the peristaltic reflex and the pendular movements.     

Inhibitory and excitatory effects of methionine-enkephalin in the isolated rabbit ileum

Methionine-enkephalin first inhibited and then stimulated the spontaneous rhythmic activity of the rabbit isolated ileum. The inhibitory effect of methionine-enkephalin was antagonized by naloxone. On the contrary, atropine did not change significantly either the inhibitory or the stimulatory action of this peptide. Furthermore, methionine-enkephalin inhibited the peristaltic reflex of the rabbit isolated ileum as well. Naloxone completely antagonized the inhibition of peristalsis produced by methionine-enkephalin. On the other hand, acetylcholine reversed only the propulsive activity and the back pressure, but not the peristaltic movements of the longitudinal muscle previously abolished by methionine-enkephalin. It appears, therefore, that only the inhibitory effects of methionine-enkephalin are mediated through opioid receptors in the intestine.     

Reciprocal activity of longitudinal and circular muscle during intestinal peristaltic reflex

A two-compartment, flat-sheet preparation of rat colon was devised, which enabled exclusive measurement of longitudinal muscle activity during the ascending and descending phases of the peristaltic reflex. A previous study using longitudinal muscle strips revealed the operation of an integrated neuronal circuit consisting of somatostatin, opioid, and VIP/pituitary adenylate cyclase-activating peptide (PACAP)/nitric oxide synthase (NOS) interneurons coupled to cholinergic/tachykinin motor neurons innervating longitudinal muscle strips that could lead to descending contraction and ascending relaxation of this muscle layer. Previous studies in peristaltic preparations have also shown that an increase in somatostatin release during the descending phase causes a decrease in Met-enkephalin release and suppression of the inhibitory effect of Met-enkephalin on VIP/PACAP/NOS motor neurons innervating circular muscle and a distinct set of VIP/PACAP/NOS interneurons. The present study showed that in contrast to circular muscle, longitudinal muscle contracted during the descending phase and relaxed during the ascending phase. Somatostatin antiserum inhibited descending contraction and augmented ascending relaxation of longitudinal muscle, whereas naloxone had the opposite effect. VIP and PACAP antagonists inhibited descending contraction of longitudinal muscle and augmented ascending relaxation. Atropine and tachykinin antagonists inhibited descending contraction of longitudinal muscle. As shown in earlier studies, the same antagonists and antisera produced opposite effects on circular muscle. We conclude that longitudinal muscle contracts and relaxes in reverse fashion to circular muscle during the peristaltic reflex. Longitudinal muscle activity is regulated by excitatory VIP/PACAP/NOS interneurons coupled to cholinergic/tachykinin motor neurons innervating longitudinal muscle.     

Comparative effects of galanin on isolated smooth muscle cells from ileum in five mammalian species.

Effect of galanin and CCK8 were studied on isolated smooth muscle cells obtained from pig, guinea-pig, rat, rabbit and dog ileum circular muscle layer. Galanin as well as CCK8 induced a concentration-dependent contraction of pig, rat, rabbit and guinea-pig ileum smooth muscle cells. Maximal contraction ranged between 23.7 +/- 1.9% and 26.1 +/- 3.1% decrease in cell length from control in the presence of both peptides. This maximal contraction was obtained at 1 nM galanin in pig, rat, rabbit, 1 nM CCK8 in rat, rabbit, guinea-pig, at 10 nM galanin in guinea-pig and 10 nM CCK8 in pig. Concentrations of galanin inducing a half maximal contraction (EC50) ranged between 8 pM and 80 pM in these species. In dog, CCK8 induced a concentration-dependent contraction of ileum smooth muscle cells, with a maximal contraction (24.5 +/- 2.3%) at 1nM and an EC50 of 50 pM while galanin inhibited cell contraction induced by CCK8. The CCK-induced contraction was abolished at 10 nM galanin and 10 nM VIP. Concentrations of galanin and VIP inducing a half-maximal relaxation of contracted cells were 2 pM and 3 pM respectively. It is concluded that galanin may induce cell contraction of pig, guinea-pig, rat and rabbit ileum circular muscle layer and cell relaxation of dog ileum by a direct myogenic effect.     

Total synthesis and biological evaluation of methylgerambullone

First total synthesis of methylgerambullone (MGB, 1) isolated from Glycosmis angustifolia was completed via a convergent route. The effect of MGB on the contractile responses of the isolated guinea-pig ileum induced by acetylcholine was investigated. As a result, it showed a potent relaxation rate (78.66 ± 4.30% at 100 mg/L) in a concentration-dependent manner on longitudinal smooth muscle contraction of isolated guinea-pig ileum induced by 1 μM acetylcholine.     

Effects of beta-endorphin, met-enkephalin and somatostatin on the neurotensin-induced neurogenic contraction in the guinea-pig ileum

At maximally effective concentrations, the opiate peptides β-endorphin (240 nm) and Met-enkephalin (1400 nM) virtually abolished the contractions induced by a maximally effective concentration of 60 nM neurotensin (NT), either in the longitudinal smooth muscle strip or in the intact segment of guinea-pig ileum. This inhibitory effect was concentration-dependent and was totally blocked by naloxone at 100 nM. In contrast a maximally effective concentration of somatostatin (60 nM) partially inhibited (50–60%) the contraction induced by 60 nM NT in either smooth muscle preparation. Somatostatin inhibition was concentration-dependent and was not blocked by naloxone at 100 nM. Atropine at 100 nM inhibited by 50% the contractions induced by 60 nM NT in the intact segment of guinea-pig ileum. The remaining contraction was abolished by β-endorphin and Met-enkephalin and partially reduced by somatostatin. Our results confirm that NT-induced contractions in the guinea-pig ileum are neurogenic and involve a cholinergic as well as a non-cholinergic component. Furthermore, we show that the release of mediators from both components     

Prokinetic effect of black tea on gastrointestinal motility

The gastrokinetic effects of hot water extract of black tea [Camellia sinensis, (L) O. Kuntze (Theaceae)] on gastrointestinal motility were studied both in vivo and in vitro. The extract significantly accelerated the gastrointestinal transit (GIT) in vivo in mice. These facilitatory effect was reduced after pretreatment with atropine, hemicholinium-3, morphine, indomethacin, McN-A-343 and L-arginine. In guinea pig ileum, the extract facilitated the peristaltic reflex in response to pressures in normal preparation. The black tea extract and L-NMMA (nitric oxide synthase inhibitor) significantly reduced the electrical field stimulated nonadrenergic, noncholinergic (NANC) relaxation of isolated rat fundal strips. The extract markedly enhanced the tonic ('hump') responses to transmural stimulation in longitudinal muscle of guinea pig ileum which was unaltered in the presence of atropine. These findings suggest a cholinergic involvement and a partial role of prostaglandin and nitric oxide in the mechanism of action of black tea extract on gastrointestinal motility. To determine the effective constituents in black tea responsible for this activity, the effect of black tea polyphenols on GIT were also studied. Thearubigin fraction (but not theaflavin) accelerated GIT significantly which suggests its involvement in the prokinetic effect of black tea.     

Temporal variation of chemical composition and relaxant action of the essential oil of Ocimum gratissimum L. (Labiatae) on guinea-pig ileum.

The medicinal plant Ocimum gratissimum L. (Labiatae) is widely encountered in the Northeast of Brasil where it is used to treat digestive problems. Its leaves have an essential oil (EOOG) content whose chemical composition varies according to the time of plant collection. We have compared the effects of the EOOG, collected at 08:00 a.m. (EOOG8) and at 12:00 a.m. (EOOG12), on the relaxation of guinea-pig isolated ileum. Both EOOG8 and EOOG12 (30-300 microg/ml) reversibly relaxed the spontaneous tonus of the guinea-pig ileum in a concentration-dependent manner, with similar IC50 values (49.3 and 23.8 microg/ml, respectively). The magnitude of the decrease in resting tonus was similar to that of the recognised smooth muscle relaxant papaverine. EOOG8 and EOOG12 relaxed 60 mM KCl-precontracted preparations similarly (38.33 +/- 9.91 microg/ml and 35.53 +/- 6.70), whereas a significantly more potent relaxant effect of EOOG12 compared to EOOG8 was observed when tissues were contracted using 10 microM acetylcholine (IC50 values of 69.55 +/- 4.93 and 128.16 +/- 15.70 microg/ml, respectively; p < 0.05). The principal constituents of the essential oil, eugenol and cineole, also relaxed KCl-precontracted preparations, although they were less potent than EOOG, suggesting that they alone were not responsible for EOOG-induced relaxations. Our results show that the essential oil extracted from the leaves of O. gratissimum L., collected at different time periods, exerts significant relaxant effects on isolated guinea-pig ileum which may underlie the therapeutic action of the plant.     

Correlation between circular dichroism data and biological activities of 2,5 substituted enkephalin analogues

The relative structural rigidity of enkephalin analogues characterized by the molar ellipticity data obtained from the circular dichroism spectra of peptides was correlated with the opioid agonist activities of compounds displayed in isolated, electrically stimulated longitudinal muscle strip of guinea-pig ileum and mouse vas deferens preparations. It was found that the so called μ receptors modelled by guinea-pig ileum preferred the analogues with high capacity to exist in folded form, whilst the so called δ receptors (mouse vas deferens) accepted flexible ligands as readily as rigid ones.     

Calcitonin gene-related peptide (CGRP) modulates cholinergic neurotransmission in the small intestine of man, pig and guinea-pig via presynaptic CGRP receptors.

The effect of calcitonin gene-related peptide (CGRP) on the cholinergically mediated twitch contraction in longitudinal muscle strips of the small intestine (duodenum, jejunum, ileum) of guinea-pig, pig and man was investigated. Independently of the anatomical region, CGRP inhibited the twitch response in the different specimens of all three species by about 40% with similar IC50 values (1.5-2.4 nmol/l). Only in the guinea-pig small intestine CGRP induced a contraction of the smooth muscle which was sensitive to scopolamine and tetrodotoxin. The electrically evoked [3H]acetylcholine release from jejunal longitudinal muscle strips with myenteric plexus attached of the guinea-pig, which were incubated with [3H]choline, was concentration-dependently inhibited by CGRP. A direct relaxant effect of CGRP on smooth muscle tone of carbachol precontracted preparations was only observed in specimens of the guinea-pig. In conclusion, presynaptic inhibitory CGRP receptors on cholinergic neurones modulate the release of acetylcholine in different parts of the small intestine.     

Selected citations from the upjohn company bibliography

Microgram concentrations of 5,8,11,14-eicosatetraynoic acid (TYA) inhibited the spontaneous increases in tone which develop in isolated guinea-pig ileum and also inhibited intestinal motility in anesthetized guinea-pigs. TYA failed to block contractions of the ileum induced by various agonists including PGE₂. It did, however, inhibit both the spontaneous liberation of spasmogenic substances from isolated ileum and the biosynthesis of PGE₂ from arachidonic acid. It is concluded that the inhibitory effects of TYA were exerted through inhibition of PG biosynthesis. Studies with antagonist drugs (atropine, methysergide and pyribenzamine) confirmed that the effects of intestinal PGs are, in the guinea-pig, largely exerted through a cholinergic mechanism.     

The effects of prostacyclin (PGI2) on tissues which detect prostaglandins (PG'S).

The effects of prostacyclin (PGI2) and its stable metabolite 6-oxo-PGF1alpha on various bioassay tissues are compared with those of PGE2 and PGF2alpha, using the cascade superfusion method. On vascular smooth muscle, PGI2 caused relaxation of all tissues tested except the rabbit aorta. PGE2 relaxed rabbit coeliac and mesenteric artery but contracted bovine coronary artery and had no effect on rabbit aorta. 6-oxo-PGF1alpha was ineffective at the concentrations tested. On gastro-intestinal smooth muscle, PGI2 contracted strips of rat and hamster stomach and the chick rectum. It was less potent than PGE2 or PGF2alpha. None of these substances contracted the cat terminal ileum. 6-oxo-PGF1alpha was inactive on these tissues at the doses tested. PGI2 was less active than PGE2 or PGF2alpha in contracting guinea-pig trachea and rat uterus; 6-oxo-PGF1alpha was active only on the rat uterus. Thus, PGI2 can be distinguished from the other stable prostaglandins using the cascade method of superfusion.     

Evaluation of peristalsis in multiple segments of the guinea-pig isolated small intestine: optimisation of tissue use by refined in vitro methodology

Peristalsis is the aboral movement by which the intestine propels its contents. Since pharmacological research requires an experimental model with which drug-induced modifications of peristalsis can be reliably quantified, we set out to develop and validate an in vitro method for studying peristalsis in multiple gut segments. In our arrangement, up to four 10cm segments isolated from the guinea-pig jejunum and ileum can be set up in parallel and their lumens perfused. Peristalsis was elicited by pressure-evoked wall distension, and the peristalsis-induced changes in the intraluminal pressure were evaluated with software that determined the peristaltic pressure threshold, the frequency, maximal acceleration and amplitude of the peristaltic waves, and the residual baseline pressure. Validation experiments showed that the peristalsis parameters at baseline and after modification by morphine (0.01-10microM) did not differ between segments from the jejunum and ileum, or between segments examined in a consecutive manner. In conclusion, our work succeeded in optimising the use of the guinea-pig jejunum and ileum for multiple recordings of peristalsis in vitro, and in refining the recording and evaluation of peristaltic motility. This system promises to be particularly useful in the pharmacological screening and testing of drugs which modify peristalsis.     

Unexpected reversal effects of naloxone on the guinea pig ileum.

Distension of the guinea pig ileum segment elicits peristaltic activity. If the distension is maintained the peristaltic activity disappears gradually; naloxone restores normal activity in such “fatigued” preparations. The bath solution surrounding a fatigued preparation inhibits peristaltic reflex activity in non-fatigued segments; this inhibitory effect is reversed by naloxone. The latter also antagonizes the inhibitory effects of adenine-nucleotides. These results indicate that during fatigue a substance is liberated which blocks peristalsis. They further suggest that naloxone-induced reversal of inhibition in the guinea pig ileum does not necessarily demonstrate that the inhibition is caused by a direct action on morphine receptors.     

Effect of prostaglandin F2 alpha on propulsive activity of the isolated segmental colon of the guinea-pig.

The effects of prostaglandin F2alpha (PGF 2alpha) on propulsive activity in segments of isolated colon and on isolated strips of guinea-pig colon were investigated. Using experimental conditions under which spontaneous propulsive activity was negligible, PGF2alpha (5X10(-8)X1X10(-6)M), added to the bathing medium increased propulsive activity in a concentration dependent manner. This increase of propulsive activity was abolished in the presence of atropine or tetrodotoxin (1X10(-7)g/ml). The contractions produced by PGF2alpha (5X10(-7) -1X10(-5)M) in isolated longitudinal and circular smooth muscle strips of guinea-pig colon were unaffected in the presence of atropine or tetrodotoxin (1X10(-7) g/ml). From these results it is concluded that under the conditions employed in this study propulsive activity stimulated by PGF2alpha may depend on the contractions of both muscle layers and stimulation of the peristalic reflex.     

Inhibition of intestinal tone, motility and prostaglandin biosynthesis by 5,8,11,14-eicosatetraynoic acid (TYA)

Microgram concentrations of 5,8,11,14-eicosatetraynoic acid (TYA) inhibited the spontaneous increases in tone which develop in isolated guinea-pig ileum and also inhibited intestinal motility in anesthetized guinea-pigs. TYA failed to block contractions of the ileum induced by various agonists including PGE₂. It did, however, inhibit both the spontaneous liberation of spasmogenic substances from isolated ileum and the biosynthesis of PGE₂ from arachidonic acid. It is concluded that the inhibitory effects of TYA were exerted through inhibition of PG biosynthesis. Studies with antagonist drugs (atropine, methysergide and pyribenzamine) confirmed that the effects of intestinal PGs are, in the guinea-pig, largely exerted through a cholinergic mechanism.