The effects of substance P and met5-enkephalin in dog ileum

Substance P initiated tonic contraction of dog ileum when administered in doses from 1 pg to 20 micrograms intraarterially (ED50 = 67 ng). Low doses acted to excite cholinergic postganglionic neurones since atropine or tetrodotoxin (TTX) increased the ED50 of substance P about 25-fold, while hexamethonium and local field stimulation had only a small effect to increase the ED50. Also atropine and tetrodotoxin effects were not additive. Higher doses apparently acted to stimulate smooth muscle directly, but no evidence was obtained that local field stimulation could release substance P to act on smooth muscle. Substance P tachyphylaxis prevented substance P actions on cholinergic nerves, but it did not affect responses to intraaterial acetylcholine or block distal inhibition from proximal distention or field stimulation. Met-enkephalin given intraarterially, was also excitatory in doses from 1 ng to 20 micrograms; the amplitude of tonic and phasic contractions produced was significantly decreased by TTX and atropine but was not diminished by hexamethonium or substance P tachyphylaxis. Partial tachyphylaxis to met-enkephalin was produced but was not diminished by hexamethonium or substance P tachyphylaxis. Partial tachyphylaxis to met-enkephalin was produced without affecting the ED50 for substance P. We conclude that substance P acts in small amounts on receptors in myenteric nerves to release acetylcholine by a mechanism, presumably involving postganglionic cholinergic nerves, while met-enkephalin also apparently may act at least in part through a similar TTX- and atropine-sensitive mechanism. These peptides also caused activation of other receptors, probably on smooth muscle by noncholinergic. TTX-insensitive mechanisms. Also the receptors for each peptide which are located on nerves were distinct and independent since tachyphylaxis could be produced to each without affecting the response to the other.     

胃动素对大鼠胃平滑肌细胞收缩活动的作用

本研究用大鼠游离的胃平滑肌细胞,观察胃动素对胃平滑肌细胞的收缩作用。结果表明：（１）胃动素明显增强单个胃平滑肌细胞收缩活动,在生理剂量１０（－１１）─１０（－１０）ｍｏｌ范围内,呈剂量依赖性。（２）不同胃分区平滑肌细胞对冒动素兴奋反应不同,胃动素对胃窦平滑肌细胞收缩强度大于胃体和幽门。（３）给予抗胃动素血清可以完全取消胃动素对胃肌细胞的收缩反应,而阿托品、ＴＴＸ、甲氰米胍、ｌｏｘｉｇｌｕｍｉｄｅ均不影响胃动素的作用。（４）给予胞内钙释放阻断剂ＴＭＢ－８可抑制胃动素对目肌细胞的收缩作用。上述结果提示,胃动素对胃平滑肌细胞的直接作用是由胃动素受体所介导,且与胞内Ｃａ（２＋）释放起重要作用。     

The effects of cholecystokinin-octapeptide and pentagastrin on electrical and motor activities of canine colonic circular muscle

The effects of cholecystokinin-octapeptide (CCK-OP) and pentagastrin on electrical and motor activities of circular muscle of the canine colon were studied with the sucrose gap technique. Additional organ bath experiments were performed to further characterize the motor response to the peptides and to elucidate their site of action. The electrical activity consisted of slow waves having an initial potential followed by a plateau potential, at a regular frequency of 4.5 cycles/min. Both peptides prolonged the duration and increased the amplitude of the plateau phase of the slow waves. Concomitantly, the slow wave frequency was reduced. In addition, CCK-OP increased spiking activity. Both spiking activity and the prolonged plateau potential generated contractile activity, prolonged phasic contraction occurring with slow waves with a prolonged plateau. In organ bath experiments, both CCK-OP and pentagastrin increased the basal tone of the muscle strips and prolonged the duration of the phasic contractions. The prolongation of the duration of the contractions was not antagonized by tetrodotoxin (TTX) and atropine. CCK-OP but not pentagastrin increased the force of contractions, this action was not affected by atropine but was reduced in the presence of TTX, suggesting that the increase in force may be partially mediated by noncholinergic excitatory nerves. The increase in basal tension by the peptides was enhanced in the presence of TTX indicating that myenteric inhibitory neurones were tonically active under our experimental conditions. The results provide the electrophysiological basis for CCK-OP and pentagastrin induced changes in colonic motility.     

Motor effects of gastrin releasing peptide (GRP) and bombesin in the canine stomach and small intestine

Close intraarterial injections of synthetic porcine gastrin releasing peptide (GRP) or bombesin stimulated contractions in the stomach and inhibited ongoing contractile activity in the small intestine of anaesthetized dogs. Contractile activity of the circular muscle was recorded by serosal strain gauges and phasic activity when desired was elicited by local field stimulation or intraarterial motilin injections. In the stomach (corpus and antrum) following tetrodotoxin blockade of field-stimulated contractions, the contractile response to either peptide was not present, suggesting that stimulation of receptors on nerves initiated contractions in the stomach. Similarly, in the small intestine, the inhibitory response was eliminated by tetrodotoxin suggesting a neural receptor. Pre-treatment with reserpine did not alter the inhibitory response, either in the presence or absence of atropine, therefore, adrenergic inhibitory mechanisms did not appear to be involved. The concentration of bombesin producing 50% inhibition of field stimulation (ED50) was increased following treatment with the putative M1 muscarinic antagonist, pirenzipine suggesting activation of M1 cholinergic inhibitory receptors by bombesin. After blockade by atropine of field-stimulated contractions and the contractile response to intraarterial acetylcholine, the ED50 for bombesin inhibition of motilin contractions was increased. After muscarinic blockade, the residual inhibitory response of GRP/bombesin may involve activation of a neural non-cholinergic non-adrenergic inhibitory mechanism. These results suggest that GRP and bombesin act to alter motility in the dog in vivo by affecting neural activity.     

Direct contractile effect of motilin on isolated smooth muscle cells of guinea pig small intestine.

We examined the direct effect of motilin on longitudinal and circular smooth muscle cells isolated from the guinea pig small intestine. In addition, the effects of 8-(N,N-diethylamino)-octyl-3,4,5-trimethoxy-benzoate hydrochloride (TMB-8, an inhibitor of intracellular Ca(2+)-release), verapamil (a voltage-dependent Ca(2+)-channel blocker), and removal of extracellular Ca2+ were investigated to evaluate the role of intracellular Ca2+ stores and extracellular Ca2+ on the muscle contraction induced by motilin. The effects of atropine (a muscarinic receptor antagonist), spantide (a substance P receptor antagonist) and loxiglumide (a CCK-receptor antagonist) were also examined to determine whether the motilin-induced contraction was independent of those receptors. Motilin induced a contraction of the longitudinal and circular smooth muscle cells in a dose-dependent manner with the maximal effect attained after 30 seconds of incubation. The ED50 values were 0.3 nM and 0.05 nM, respectively. TMB-8 suppressed completely the motilin-induced contraction of both types of smooth muscle cells. Verapamil had only a slight suppressive effect. Removal of extracellular Ca2+ did not have any significant influence on motilin-induced contraction. The contractile response to motilin was not affected by atropine, spantide or loxiglumide. Our findings showed that:1) motilin has a direct contractile effect on both longitudinal and circular smooth muscle cells; 2) this contractile effect is not evoked via muscarinic, substance P or CCK receptors, and 3) the intracellular release of Ca2+ plays an important role in the contractile response to motilin on both types of smooth muscle cells.     

Mechanism of inhibitory action of peptide YY on cholecystokinin-induced contractions of isolated dog ileum

In isolated canine ileal longitudinal muscle preparations, cholecystokinin-octapeptide (CCK-8) produced a concentration-dependent contraction, which was suppressed by peptide YY (PYY) and was abolished by tetrodotoxin and atropine. PYY was approximately 2200-times as potent as CR1505, a CCK-receptor antagonist. PYY opposed the action of CCK-8 to a greater extent than that of nicotine and transmural electrical stimulation. Acetylcholine-induced contractions were not influenced by PYY. It seems likely that the CCK-8-induced ileal muscle contraction is associated with an activation of CCK receptors in cholinergic nerves, which generates nerve action potentials and releases acetylcholine, whereas CCK-8 acts on CCK receptors in gallbladder smooth muscle, producing contractions. It may be concluded that PYY inhibits the action of CCK-8 on ileal muscle strips, by inhibiting the release of acetylcholine from cholinergic nerve terminals. On the other hand, in the gallbladder, PYY does not appear to block cholinergic nerve function.     

胃动素和胃泌素引起大鼠胃窦平滑肌细胞收缩的信号转导通路

应用大鼠游离胃窦平滑肌细胞,观察胃动素和胃泌素对胃窦平滑肌细胞收缩作用的胞内信号转导通路。结果显示：⑴胃动素和胃泌素对胃窦平滑肌细胞均有收缩作用;⑵Ｇａｉ－３抗体可抑制胃动素和胃泌素加强胃窦平滑肌细胞的收缩,胃动素、胃泌明显增加Ｇａｉ－３抗体与「＾３５Ｓ」ＣＴＰγＳ的结合;⑶磷脂酶抑制剂Ｕ－７３１２２、三磷酸肌醇受体拮抗剂肝素可抑制胃坳素和胃泌素引起的胃窦平滑肌细胞的收缩。结果表明：胃坳素和胃泌表     

The erythromycin derivative EM-523 is a potent motilin agonist in man and in rabbit

Erythromycin may stimulate gastrointestinal motor activity via its effect upon motilin receptors. We have studied the ability of the derivative EM-523 [de(N-methyl)-N-ethyl-8,9-anhydroerythromycin A 6,9-hemiacetal] to induce contractions in duodenal smooth muscle strips and to displace labeled motilin bound to antral smooth muscle, in man and in rabbit. In both species EM-523 approached the potency of motilin for inducing contractions. Thus pED50 values were 7.84 +/- 0.11 and 8.69 +/- 0.12 for motilin in, respectively, man and rabbit, against 6.08 +/- 0.13 and 8.19 +/- 0.10 for EM-523. In rabbit the efficacy of both compounds decreased in parallel aborally, the responses to EM-523 could not be blocked by atropine (10(-7) M) or TTX (10(-7) M), and both compounds were unable to further enhance the maximum effect to the other compound. In binding studies the order of potency was the same as in the contraction studies. The pIC50 values were: motilin (8.84 +/- 0.31, 9.17 +/- 0.20) greater than EM-523 (7.89 +/- 0.1, 8.40 +/- 0.10). A Schild plot revealed that EM-523 was a competitive inhibitor of motilin receptor binding in man and in rabbit. We conclude that EM-523 is a potent motilin agonist.     

Enteric locus of action of prokinetics: ABT-229, motilin, and erythromycin

We investigated the in vivo and in vitro locus of actions of prokinetics: motilin, erythromycin, and ABT-229. The test substances were infused close intra-arterially in short segments of the jejunum in the intact conscious state. Each prokinetic acted on a presynaptic neuron and utilized at least one nicotinic synapse to stimulate circular muscle contractions. The final neurotransmitter at the neuroeffector junction was ACh. Motilin and erythromycin, but not ABT-229, also released nitric oxide. Each prokinetic utilized somewhat different subtypes of muscarinic, serotonergic, tachykininergic, and histaminergic receptors, except for the M(3) receptor, which was common to all of them. In contrast, none of the prokinetics stimulated contractions in mucosa-free or mucosa-attached muscle strips, or rings, even though methacholine or electrical field stimulation induced phasic contractions in all of them. The prokinetics also did not release ACh in longitudinal muscle-myenteric plexus preparations. Each prokinetic, however, decreased the length of enzymatically dispersed single cells. In conclusion, each prokinetic may act on a different subset of presynaptic neurons that converge on the postsynaptic cholinergic and nonadrenergic noncholinergic motoneurons. The presynaptic neurons may be impaired in the muscle bath environment.     

Neuropeptides in the female genital tract: effect on vascular and non-vascular smooth muscle

The presence of vasoactive intestinal polypeptide (VIP), substance P (SP), somatostatin, enkephalin, and avian pancreatic polypeptide (APP) in nerves in the female genital tract raises the question of their physiological significance as neurotransmitter substances. We have examined the effect of these peptides on non-vascular uterine smooth muscle in vivo as well as in vitro, and the effect on blood flow in the genital tract of rabbit and cat. SP caused a dose-dependent increase in mechanical and myoelectrical activity, an action which could be antagonized by VIP. Substance P, leu-enkephalin and VIP induced a concentration related increase in blood flow of the uterus, where VIP seems to be the most potent vasodilator. Neither the effects on vascular nor on non-vascular smooth muscle were inhibited by adrenergic nor cholinergic blocking agents. APP was able to inhibit the VIP-induced vasodilation in rabbits. These findings suggest that several peptides are involved in the local nervous control of both uterine contractions and haemodynamic events.     

Effect of recombinant human interleukin-11 on motilin and substance P release in normal and inflamed rabbits

Recombinant human interleukin-11 (rhIL-11) normalizes depressed smooth muscle tension generation towards motilin and substance P (SP) in rabbits with colitis. The aim of this paper was to evaluate the effect of rhIL-11 treatment on motilin and SP release which could have an effect on the contractility changes. Rabbits received 4, 40, 72 or 720 microg/kg rhIL-11 s.c. or saline, 1 h later a continuous s.c. administration of rhIL-11 was started with or without the induction of colitis (135 mg/kg TNBS) for 5 days. Motilin and SP levels were measured by RIA, motilin mRNA expression by RT-PCR. TNBS-colitis did not affect plasma motilin levels but increased the motilin content of the duodenal mucosa 1.7-fold. rhIL-11 treatment dose-dependently increased plasma motilin levels (720 microg/kg day: 3.5-fold) and the motilin content of the duodenal mucosa (720 microg/kg day: 3.0-fold). The effects of rhIL-11 were similar in normal rabbits and were accompanied by an increased motilin mRNA expression. TNBS-colitis decreased plasma SP levels 2.7-fold and the SP content in the colonic muscle layer 7.1-fold. The decrease in the muscle layer, but not in the plasma, was normalized by rhIL-11 treatment. In normal rabbits, rhIL-11 caused a decrease in plasma SP levels, but had no effect on the tissue content of SP. In conclusion, treatment of inflamed or normal rabbits with rhIL-11 increases plasma and tissue levels of motilin in the duodenal mucosa via an increased expression of motilin in the endocrine cells and induces the release of SP from extrinsic neurons. These changes do not explain the beneficial effect of rhIL-11 on the lowered contractility in inflamed rabbits although a change in balance of neuropeptides may influence gastro-intestinal inflammation.     

Effect of different calcium modulators on motilin-induced contractions of the rabbit duodenum. Comparison with acetylcholine

Motilin and acetylcholine (ACh) have a direct contractile effect on rabbit small intestinal smooth muscle. To explore the role of calcium influx in these contractions, we studied the effect of extracellular calcium concentration and of calcium antagonists on the response of longitudinal muscle preparations from rabbit duodenum. Motilin- (10(-7) M) and ACh- (10(-4) M)-induced contractions were abolished in Ca2+-depleted medium. ACh (10(-4) M) or motilin (10(-8) and 10(-7) M) increased the contractile response to added Ca2+ to 130 +/- 6%, 129 +/- 10% and 145 +/- 5% of the maximal response to Ca2+ added alone (10 mM in a cumulative concentration response curve). The sensitivity to Ca2+ was greater in the presence of ACh and motilin (EC50 = 1.0 and 1.1 mM Ca2+) than in the absence of any agonist (1.7 mM). In cumulative concentration response (CCR) curves for motilin and ACh, pD2'-values were 7.0 and 6.6 for diltiazem, 8.4 and 7.8 for verapamil (two calcium entry blockers), 5.6 and 5.2 for TMB-8 (an inhibitor of intracellular calcium), 5.3 and 5.2 for TFP (a calmodulin-antagonist). All CCR-curves showed metactoid-like action of the antagonistic drugs. We conclude that ACh and motilin cause calcium to enter the smooth muscle cell. They are probably operating via separate channels, and use a mechanism which differs from K+-induced influx. Intracellular calcium stores appear to play a minor role in these contractions.     

Effects of VIP and NO on the motor activity of vascularly perfused rat proximal colon

The effects of vasoactive intestinal polypeptide (VIP) and nitric oxide (NO) on the motor activity of the rat proximal colon were examined in an ex vivo model of vascularly perfused rat proximal colon. VIP reduced motor activity and this inhibitory effect was not altered by either atropine, hexamethonium, tetrodotoxin (TTX) nor TTX plus acetylcholine (ACh), but was completely antagonized by NO synthase inhibitor N(G)-nitro-L-arginine (L-NA) and by VIP receptor antagonist, VIP(10-28). These results suggest that VIP may exert a direct inhibitory effect on the motor activity of the rat proximal colon via a VIP receptor located on the smooth muscle and this effect is mediated by NO but not by cholinergic pathways. Atropine and hexamethonium reduced but ACh stimulated motor activity and the effect of ACh was not changed by TTX, suggesting that the cholinergic pathway may exert a direct stimulatory effect on motor activity. Single injection of TTX, VIP(10-28) or L-NA induced a marked increase in motor activity, suggesting that the motor activity of rat proximal colon is tonically suppressed by VIP and NO generating pathways, and elimination of inhibitory neurotransmission by TTX may induce an abnormal increase of the motor activity. The interaction between VIP and NO in regulation of motor activity was further examined by a measurement of NO release from vascularly perfused rat proximal colon. Results showed that NO release was significantly increased during infusion of VIP and this response was reversed by L-NA. These results suggest that VIP generating neurons may inhibit colonic motility by stimulating endogenous NO production in either smooth muscle cells or nerve terminals.     

Enkephalinase inhibitor potentiates substance P- and electrically induced contraction in ferret trachea

To determine the role of endogenous enkephalinase (EC 3.4.24.11) in regulating peptide-induced contraction of airway smooth muscle, we studied the effect of the enkephalinase inhibitor, leucine-thiorphan (Leu-thiorphan), on responses of isolated ferret tracheal smooth muscle segments to substance P (SP) and to electrical field stimulation (EFS). Leu-thiorphan shifted the dose-response curve to SP to lower concentrations. Atropine or the SP antagonist [D-Pro2,D-Trp7,9]SP significantly inhibited SP-induced contractions in the presence of Leu-thiorphan. Leu-thiorphan increased the contractile responses to EFS dose dependently, an effect that was significantly inhibited by the SP antagonist [D-Pro2,D-Trp7,9]SP. SP, in a concentration that did not cause contraction, increased the contractile responses to EFS. This effect was augmented by Leu-thiorphan dose dependently and was not inhibited by hexamethonium or by phentolamine but was inhibited by atropine. Because contractile responses to acetylcholine were not significantly affected by SP or by Leu-thiorphan, the potentiating effects of SP were probably on presynaptic-postganglionic cholinergic neurotransmission. Captopril, bestatin, or leupeptin did not augment contractions, suggesting that enkephalinase was responsible for the effects. These results suggest that endogenous tachykinins modulate smooth muscle contraction and endogenous enkephalinase modulates contractions produced by endogenous or exogenous tachykinins and tachykinin-induced facilitation of cholinergic neurotransmission.     

Vasoactive intestinal polypeptide induces neurogenic contraction of guinea-pig ileum. Involvement of acetylcholine and substance P.

The effect and mode of action of vasoactive intestinal polypeptide (VIP), a peptidergic neuromodulator in the gastrointestinal nervous system, were investigated in isolated muscle strips of the guinea-pig ileum. VIP induced concentration-dependent (20 nM-1 microM) contractions of longitudinal ileal strips. TTX (1 microM), a mixture of atropine (3 microM) and spantide (30 microM), a mixture of atropine (3 microM) and omega-conotoxin GVIA (100 nM), somatostatin (60 nM) and dynorphin (100 nM) abolished the effect of VIP. In most cases a small relaxation became evident. Desensitization to substance P in the presence of atropine prevented VIP-induced contraction. A partial inhibition was observed in the presence of atropine (3 microM), spantide (30 microM), omega-conotoxin GVIA (100 nM), beta-endorphin (265 nM), met-enkephalin (1100 nM) and a mixture of spantide (30 microM) and omega-conotoxin GVIA (100 nM). The action of VIP was not significantly modified by guanethidine (3 microM) or hexamethonium (150 microM). In circular ileal strips VIP (10-300 nM) caused concentration-dependent relaxations through a direct myogenic effect. These results indicate that the VIP produced contractions of the guinea-pig ileum are exclusively neurally mediated and involve a cholinergic as well as a noncholinergic-nonadrenergic (NANC) pathway. It is concluded that besides acetylcholine (Ach) VIP releases the peptidergic transmitter substance P from postganglionic nerve fibers of myenteric plexus. Opioid peptides and somatostatin modulate the activity of cholinergic and peptidegic nerves in the guinea-pig ileum. The release of substance P appears to depend completely on N-type voltage sensitive calcium channels.     

Substance P released from intrinsic airway neurons contributes to ozone-enhanced airway hyperresponsiveness in ferret trachea.

Exposure to ozone (O3) induces airway hyperresponsiveness mediated partly through the release of substance P (SP) from nerve terminals in the airway wall. Although substantial evidence suggests that SP is released by sensory nerves, SP is also present in neurons of airway ganglia. The purpose of this study was to investigate the role of intrinsic airway neurons in O3-enhanced airway responsiveness in ferret trachea. To remove the effects of sensory innervation, segments of ferret trachea were maintained in culture conditions for 24 h before in vitro exposure to 2 parts/million of O3 or air for 1 h. Sensory nerve depletion was confirmed by showing that capsaicin did not affect tracheal smooth muscle responsiveness to cholinergic agonist or contractility responses to electrical field stimulation (EFS). Contractions of isolated tracheal smooth muscle to EFS were significantly increased after in vitro O3 exposure, but the constrictor response to cholinergic agonist was not altered. Pretreatment with CP-99994, an antagonist of the neurokinin 1 receptor, attenuated the increased contraction to EFS after O3 exposure but had no effect in the air exposure group. The number of SP-positive neurons in longitudinal trunk ganglia, the extent of SP innervation to superficial muscular plexus nerve cell bodies, and SP nerve fiber density in tracheal smooth muscle all increased significantly after O3 exposure. The results show that release of SP from intrinsic airway neurons contributes to O3-enhanced tracheal smooth muscle responsiveness by facilitating acetylcholine release from cholinergic nerve terminals.     

Bombesin-induced changes in membrane potential-dependent phasic contractions of cat gastric muscle

Electrical and contractile activities of smooth muscle strips isolated from the circular muscle layer of cat gastric antrum were studied using the sucrose gap technique. Bombesin (10(-8) mol/l) depolarized the gastric muscle; this was accompanied by an increase in the strip tone, in the plateau action potential frequency and in both the frequency and the amplitude of the spike potentials as well as by a shortening of the plateau action potential duration. Both the frequency and the amplitude of the phasic contractions increased thereafter. The changes in the frequency of the plateau action potentials and contractions were not influenced either by antagonists of cholinergic and adrenergic receptors or by TTX. In the presence of the Ca antagonists D600 (10(-6) mol/l) and nifedipine (10(-7) mol/l) or in Ca-free medium containing EGTA the effect of bombesin on the frequency of the plateau action potentials and phasic contractions remained unchanged; however, spike potentials were not observed and no increase in the amplitude of phasic contractions occurred. UV-light inactivation of nifedipine restored the typical bombesin effect on the electrical and contractile activities of the gastric smooth muscle. The present data suggest that the effect of bombesin on the frequency of both plateau action potentials and phasic contractions is not linked with Ca2+ influx.     

Nerves containing substance P,vasoactive intestinal polypeptide,enkephalin or somatostatin in the guinea-pig taenia coli

Summary The guinea-pig taenia coli is rich in peptide-containing nerves. Nerve fibres containing substance P (SP), vasoactive intestinal peptide (VIP), or enkephalin, were numerous in the smooth muscle while somatostatin fibres were very few. Nerve fibres displaying SP or VIP immunoreactivity were numerous in the myenteric plexus. Enkephalin nerve fibres were fairly numerous in the plexus while somatostatin nerve fibres were sparse. Nerve cell bodies containing immunoreactive SP or VIP were regularly seen in the plexus. Delicate varicose elements of the different types of nerve fibres were found to ramify around nerve cell bodies in a manner suggestive of innervation.In the electron microscope the various peptide-storing nerve fibres (i.e., elements containing SP, VIP or enkephalin) were found to contain a varying number of fairly large, electron-opaque vesicles in the varicose swellings. These vesicles represent the storage site of the neuropeptides.The isolated taenia coli responded to electrical nerve stimulation with a contraction. After cholinergic and adrenergic blockade the contractile response was replaced by a relaxation followed by a contraction upon cessation of stimulation. SP contracted the taenia while VIP caused a relaxation. The enkephalins raised the resting tension slightly while somatostatin had no effect. These observations are compatible with a role for SP as an excitatory neurotransmitter and for VIP as an inhibitory one, and with the view that both SP neurones and VIP neurones act as motor neurones. In preparations contracted by SP the electrically induced contractions were reduced in amplitude while the electrically induced relaxations seen after adrenergic and cholinergic blockade were enhanced in amplitude. In preparations relaxed by VIP there was an increased contractile response to electrical stimulation, while in the atropine + guanethidine-treated preparation the electrically induce relaxations were reduced in amplitude. The enkephalins reduced the contractile response to electrical stimulation, while somatostatin induced a very small reduction in the amplitude of such responses. These observations suggest that SP neurones and VIP neurones may play additional roles as interneurones. Somatostatin neurones probably act as interneurones. Enkephalin-containing fibres may serve to modify the release of transmitter from other nerves in the smooth muscle, perhaps through axo-axonal arrangements. Alternatively, the enkephalin nerve fibres in the smooth muscle are afferent elements involved in mediating sensory impulses to the myenteric plexus.     

Different modes of action of substance P in the motor control of the feline stomach and pylorus

In an experimental in vivo model to study gastropyloric motility in the cat a contraction of the stomach and the pyloric sphincter was regularly obtained in animals subjected to electrical vagal nerve stimulation or local intraarterial (i.a.) injection of substance P (SP). Much more infrequently contractile motor responses were recorded at splanchnic nerve stimulation. The contractile effects of SP were sensitive to atropine or local infusion of a SP analogue, (d-Pro²,d-Trp^7,9)-SP, indicating that SP activated a final common cholinergic neuron in both stomach and pylorus. However, there seemed to be separate transmission mechanisms in these two regions based on the results of the physiological studies. The vagally induced pyloric contraction was noncholinergic, nonadrenergic, but sensitive to ganglionic blockade (hexamethonium) or the SP analogue, indicating involvement of SP in a peptidergic pathway to the sphincter. The infrequent splanchnically induced pyloric contraction was sensitive to atropine, the SP analogue or ganglionic blockade (hexamethonium) in favour of SP acting on a final cholinergic neuron in this system. On the other hand the gastric contraction, obtained at either extrinsic nerve stimulations or local i.a. injection of SP, was sensitive to atropine or the SP analogue but hexamethonium resistant. These findings suggest antidromic activation of SP-containing axon collaterals of the extrinsic nerves terminating on cholinergic neurons of the gastric wall. When afferent C-fibres of the vagal nerve were selectively activated by local heating, pyloric contraction and gastric relaxation were obtained via vago-vagal reflexes. After cervical vagotomy heating of the distal end of the vagal nerve elicited a gastric contraction, previously demonstrated to be atropine sensitive and hexamethonium resistant, but no pyloric motor response. This suggests that the antidromic activation mechanism was present only in the stomach, not in the pylorus.