Substance P receptors in the nervous system and possible receptor subtypes

The ability of various related peptides and substance P analogues to compete for the binding of 3H-labelled substance P to rat brain membranes corresponds with their known biological activities, providing a simple model for studies of peptide receptors in the central nervous system. In salivary gland and brain slices substance P and related peptides stimulate the rate of incorporation of phosphatidylinositol, offering an alternative biochemical model for substance P receptor studies. Two types of receptor may be responsible for the actions of substance P on peripheral tissues: the SP-P type, where all tachykinins are approximately equally active, and the SP-E type, where eledoisin and kassinin are more potent than the other tachykinins. Alkyl esters of substance P appear to act as selective SP-P agonists.

Eledoisin and Kassinin, but not Enterokassinin, stimulate ion transport in frog skin

In frog skin, tachykinins stimulate the ion transport, estimated by measuring the short-circuit current (SCC) value, by interacting with NK1-like receptors. In this paper we show that Kassinin (NK2 preferring in mammals) increases the SCC, while Enterokassinin has no effect. Therefore, either 2 Pro residues or 1 Pro and 1 basic amino acid must be present in the part exceeding the C-terminal pentapeptide. Eledoisin (NK3 preferring in mammals) stimulation of SCC is reduced by CP99994 and SR48968 (NK1 and NK2 antagonists) and not affected by SB222200 (NK3 antagonist). None of the three antagonists affects Kassinin stimulation of SCC.

Characterization of receptors for two Xenopus gastrointestinal tachykinin peptides in their species of origin

Two tachykinin peptides, bufokinin and Xenopus neurokinin A (X-NKA) were recently isolated from Xenopus laevis. In this study we investigated the tachykinin receptors in the Xenopus gastrointestinal tract. In functional studies using stomach circular muscle strips, all peptides had similar potencies (EC50 values 1-7 nM). The rank order of potency to contract the intestine was physalaemin (EC50 1 nM)> or =bufokinin (EC50 3 nM)>substance P (SP)> or =cod SP>NKA>>X-NKA (EC50 1,900 nM). No maximum response could be obtained for [Sar9,Met(O2)11]SP, eledoisin and kassinin. In stomach strips, the mammalian tachykinin receptor antagonists RP 67580 (NK1) and MEN 10376 (NK2) had agonistic effects but did not antagonize bufokinin or X-NKA. In intestinal strips, RP 67580 (1 microM) reduced the maximal response to X-NKA but not bufokinin, while MEN 10376 was ineffective. [125I]BH-bufokinin bound with high affinity to a single class of sites, of KD 213+/-35 (stomach) and 172+/-9.3 pM (intestine). Specific binding of [125I]BH-bufokinin was displaced by bufokinin> or =SP>NKA> or =eledoisin approximately kassinin>X-NKA, indicating binding to a tachykinin NK1-like receptor. Selective tachykinin receptor antagonists were weak or ineffective. Other iodinated tachykinins ([125I]NKA and [125I]BH-eledoisin) displayed biphasic competition profiles, with the majority of sites preferring bufokinin rather than X-NKA. In conclusion, there is evidence for two different tachykinin receptors in Xenopus gastrointestinal tract. Both receptors may exist in stomach, whereas the bufokinin-preferring NK1-like receptor predominates in longitudinal muscle of the small intestine. Antagonists appear to interact differently with amphibian receptors, compared with mammalian receptors.

The roles of the N-terminal portions of various tachykinins in promoting salivation

OBJECTIVES

In order to determine the active sites for salivation of various tachykinins, the regulatory roles of the N-terminal portion of various newly-synthesized tachykinins were studied after i.p. injection of rats using the submandibular glands as model organs.

METHODS

N-shortened oligopeptides from kassinin, eledoisin, neurokinins A (NKA) and NKB were synthesized by the multipin peptide synthesis method. Amino acids were eliminated one by one to form octa- to undeca-peptides adjoining the inactive or less active heptapeptides and various heptapeptides, in which an amino acid in position 8 (Xaa8), numbering as in an undecapeptide, was replaced with Tyr, Phe, Ile or Val.

RESULTS

The N-terminal amino acids in positions 1 to 4 could be activators or inhibitors, depending on whether the C-terminal heptapeptide was inactive or less active. The Xaa8 residue, in combination with amino acids in positions 5 and 6, seemed to be very important in determining the sialogogic activity of a heptapeptide. The discrimination between NKA and NKB appeared due to the N-terminal amino acid sequence in positions I to 4 including Phe or Ser in position 6.

CONCLUSIONS

It is concluded that the N-terminal amino acids in positions I to 4 serve as either activators or inhibitors depending upon the sialogogic activity of the C-terminal heptapeptide, in which particular amino acids in positions 5, 6 and 8 regulate its activity.

Effects of natural tachykinins on ovine lower urinary tract smooth muscle

1. Numerous studies have demonstrated that the urinary bladder is particularly sensitive to tachykinins; rat, rabbit and guinea pig bladders, besides human detrusor, have been the most extensively studied, whereas very little is known about most large animal detrusors. The aim of this work was to study natural tachykinin activity on the lower urinary tract of ovine to make a comparison with data obtained in laboratory animals. 2. As in other animal species, tachykinins are also able to contract ovine bladder smooth muscle. 3. The results reported in this study indicate that in ovine bladder, neurokinin 2 (NK2) receptors are expressed most. In fact, on lamb and sheep bladder neurokinin A (NKA), a NK2- almost selective peptide, was shown to be > 100% more active than the natural tachykinins kassinin (KASS) and eledoisin (ELED). Eledoisin was shown to be 50% less active than KASS, which is typical behaviour for an almost exclusively NK2 receptor population. Moreover, NK1- preferential peptides, namely substance P (SP) and physalaemin (PHYS), showed a lack of activity even when applied at high concentrations. 4. The results reported in this study show that lamb and sheep detrusor represent a good alternative model for the characterization of NK2-selective tachykinins.

Histological and ultrastructural studies of the effects of tachykinins on protein secretion from the lingual epithelium and the lingual gland of the Tokyo daruma pond frog (Rana porosa porosa)

Four tachykinins were each administered at 20 micrograms/kg body wt. All the tachykinins had a positive effect on granular secretion from the lingual epithelium, and the loss of cytoplasm from cells of the lingual epithelium was greatest with physalaemin and eledoisin, moderate with neurokinin A, and smallest with substance P. These reactions were very different from those in mammals, in which tachykinins induce only watery secretions. Only physalaemin had a positive effect on protein secretion from the lingual gland. Transmission electron microscopy revealed that electron-dense granules in cells of the lingual epithelium were discharged during stimulation with physalaemin and eledoisin by typical exocytosis. Discharge of these granules was indistinct after the administration of substance P and of neurokinin A. Exocytosis of electron-dense granules from cells of the lingual gland was clearly detectable by electron microscopy after the administration of physalaemin, reflecting observations made by light microscopy. However, mucous granules in the lingual gland were secreted by an exocrine process only after administration of physalaemin.

Effect of tachykinins on the need-free sodium intake of female rats: a continuous intracerebroventricular infusion study

The present study investigated the effect of 24-h continuous ICV infusion of four different tachykinins on the enhanced need-free sodium intake induced by previous repeated sodium depletions in female rats. Female rats were employed because, in response to sodium depletions, they develop a higher need-free sodium intake than male rats. The following tachykinins were used: eledoisin, substance P (SP), [Sar9,Met(O2)11]SP and [Asp5,6,MePhe8]SP(5-11), also referred to as NH2-senktide, all at the same doses of 300 or 600 ng/h x 24 h. Food pellets, water, and 3% NaCl sodium solution were freely available. Eledoisin and NH2-senktide were more potent than SP in reducing the need-free sodium intake. On the other hand, [Sar9,Met(O2)11]SP had no effect. None of the tachykinins employed completely blocked the intake. Water intake was reduced, but this reduction was apparently a consequence of reduced intake of hypertonic sodium chloride solution, because at the same doses TKs did not inhibit water intake in a single-bottle test. Food intake remained unchanged at either dose used. These findings confirm previous studies in which pulse injection of the same drugs potently inhibited sodium intake. They also demonstrate that tachykinins endowed with high affinity for the NK3 receptor are the most potent in inhibiting sodium intake. Furthermore, these findings indicate that the tachykinins reduce the need-free sodium intake only during the infusion period, indicating that in these conditions they do not evoke either aversion for salt, or toxic consequences in the follow-up period.

In vitro effects of tachykinins on the smooth musculature of horse gut

The contractile effects of the tachykinins eledoisin, substance P and neurokinin A and B were investigated in vitro on circular and longitudinal muscle strips from horse duodenum, ileum and colon. Circular smooth muscle of the small intestine was highly responsive, large intestine circular smooth muscle less so, while longitudinal muscle from all gut segments was much less sensitive. pD2 values and intrinsic activities on small intestine circular muscle indicated differences in receptor distribution between the duodenum and ileum: NK3 and a smaller number of NK2 receptors being present in the duodenum, and NK2 receptors predominating in the ileum. Notwithstanding this, eledoisin and neurokinin B were the most active substances on duodenum and ileum, respectively. These findings suggest that tachykinins may play a role in equine gastrointestinal pathophysiology.

Action of capsaicin and related peptides on the ionic transport across the skin of Rana esculenta

Capsaicin at low concentrations increases the short circuit current (SCC) across frog skin. Simultaneous measurements of both transepithelial fluxes of 22Na or 36Cl demonstrate that the SCC increase is due to stimulation of sodium active absorption. Capsaicin acts through the liberation of several peptides; thus these peptides were tested on the SCC across frog skin. Those more active are, in order of potency: Cyclic Calcitonin Gene Related Peptide (CGRP), Kassinin and Eledoisin, Substance P (SP) and Neurokinin A. Neurokinin B and Vasoactive Intestinal Peptide (VIP) have no effect. Also the actions of SP and CGRP are due mainly to stimulation of Na+ active absorption. A strict parallelism regarding the sensitivity to inhibitors (Naproxen, SQ22536 and CP96345) between SP, CGRP and Capsaicin strengthens the hypothesis that SP and CGRP are liberated by Capsaicin in this tissue.

Comparison of the effects of (+/-) CP 96,345 and L-668,169 on neurokinin receptor mediated responses in rat and guinea-pig isolated tissues

The effects of (+/-) CP 96,345 and L-668,169 on NK1-, NK2- and NK3-receptor mediated contractile responses were compared in guinea-pig and rat isolated smooth muscle tissues. Both (+/-) CP 96,345 and L-668,169 inhibited NK1-mediated responses in guinea-pig ileum (pA2 = 9.3 and 6.4 respectively) but not in rat bladder (pKB = < 6 and < 5.5 respectively) consistent with species differences in NK1-receptor pharmacology. Both compounds showed some selectivity in inhibiting NK1-receptor evoked responses in guinea-pig ileum compared to their inhibitory effects on NK2-receptor mediated responses in guinea-pig bladder and rat ileum and NK3-mediated responses in guinea-pig ileum and rat portal vein.

Electrophysiological effects of tachykinin analogues on ganglion cell activity in cyprinid fish retina

Electrical spike activity of ganglion cells has been recorded extracellularly in the teleost (roach) retina, and effects of a variety of tachykinins studied at a working concentration of 1 microM. Application of substance P mostly caused a slow and prolonged increase in background activity. In contrast, the response to carbachol was very brisk and short-lasting. Substance P and physalaemin predominantly induced an enhancement of 'On' and 'Off' components of light-evoked responses, whilst eledoisin and neurokinin A were mostly inhibitory. All effects were independent of chromatic and spatial aspects of the responses. Interestingly, in the presence of a tachykinin antagonist, 'Spantide' [D-Arg1,D-Pro2, D-Trp7.9, Leu11]SP, the profile of the effect of substance P reversed, inhibitory actions becoming much more common. Taken together, the results suggest that a tachykinin system utilising two subtypes of the receptor may be active in the roach retina and these may be involved in differential control of visual sensitivity.

Hypotensive effect of intravenous injection of tachykinins in conscious, freely moving spontaneously hypertensive and Wistar Kyoto rats

The present study evaluated the sensitivity of spontaneously hypertensive (SHR) and of Wistar Kyoto (WKY) rats to the hypotensive effect of tachykinins (TKs). Eledoisin, substance P, and the NK-1-selective agonist [Sar9,Met(O2)11]substance P evoked a smaller hypotensive response in SHR than in WKY rats. The hypotensive effect of NKA was slightly smaller in SHR, but no significant strain difference was observed. The NK-2-selective agonist [beta Ala8]NKA(4-10) was a very weak hypotensive agent in WKY rats, while being completely inactive in SHR. The NK-3-selective agonists [Asp5,6,MePhe8]substance P(5-11) and [MePhe7]NKB did not modify blood pressure in both strains. Heart rate was essentially unmodified following the NK-3 agonists, while it was increased after injection of substance P, [Sar9,Met(O2)11]substance P, and neurokinin A, the increase being greater in WKY than in SHR. Surprisingly, eledoisin increased heart rate in SHR, but not in WKY rats, despite the greater hypotensive effect elicited in the latter strain. The present results confirm that the hypotensive effect of peripheral TKs is mediated by NK-1 receptors and show that SHR are less sensitive than WKY rats to this effect.

Central tachykinin injection potently suppresses the need-free salt intake of the female rat

Repeated sodium depletions produce a persistent, enhanced need-free salt intake in the rat, particularly in the female. The neurochemical mechanisms underlying the phenomenon are still unknown. The present studies evaluated the effect on the enhanced need-free salt intake of the female rat (1) of pharmacological interference with the natriorexigenic hormones angiotensin II and aldosterone and (2) of the central injection of the tachykinin peptides, which are endowed with antinatriorexic activity. The need-free salt intake of the female rat is not modified by treatment with the angiotensin-converting enzyme inhibitor captopril or by the aldosterone receptor antagonist RU-28318. On the other hand, the behavior is highly sensitive to the inhibitory effect of central tachykinins, suggesting the possibility that need-free salt intake might be linked to modification (down-regulation) of the inhibitory tachykininergic system.

Determination of the amino acid residues in substance P conferring selectivity and specificity for the rat neurokinin receptors

We have measured the affinity of various analogs and fragments of the tachykinin substance P for the cloned rat NK1, NK2, and NK3 receptors heterologously expressed in Chinese hamster ovary cells. The hydrophobic carboxyl-terminal pentapeptide sequence substance P-(7-11) binds with similar affinity (2-20 microM) to all three receptors. Our data suggest that addition of one to three amino-terminal residues to this sequence results in the optimization of its interaction within the binding pocket of the NK1 receptor. The addition of Pro-Gln-Gln to the carboxyl-terminal pentapeptide sequence increases affinity for the NK1 receptor, either by providing additional binding interactions or by modifying the conformation of the carboxyl-terminal sequence. This latter hypothesis is supported by the observation that physalaemin and phyllomedusin, which also contain a proline residue in the position analogous to the proline residue 4 of substance P, are also selective for NK1 receptors. Tachykinins that lack this proline have no higher affinity for NK1 than [pGlu] substance P-(6-11). Conversely, addition of Pro-Gln-Gln to the carboxyl-terminal pentapeptide sequence is unfavorable for NK2 and NK3 receptor binding. Preliminary data suggest that tachykinins with high affinity (Kd less than 500 nM) for NK2 receptors contain an aspartate residue in the position analogous to residue 5 of substance P, suggesting that an ionic interaction with the receptor may contribute binding energy. Further experiments will be required to determine the structural determinants of the NK1, NK2, and NK3 receptors responsible for these binding properties.

Effect of angiotensin II and eledoisin on cholinergic neurons in rat hippocampus

Angiotensin II and eledoisin modulate drinking behaviour in rats that is mediated by monoaminergic and cholinergic neurons. In the present study we have shown that combined intracerebroventricular injections of either 0.1 or 1.0 microgram doses of angiotensin and eledoisin resulted in a decrease of about 25-35% in activities of choline acetyltransferase, ATP-citrate lyase in the hippocampus. In addition, 1 microgram quantities of these peptides depressed activity of carnitine acetyltransferase but did not alter activity of acetylcholinesterase. On the other hand, the application of 0.1 microgram of angiotensin caused no change in activity of monoamine oxidase A, while 1.0 microgram dose brought about its 67% activation. Eledoisin abolished this effect of angiotensin II. These data provide evidence that angiotensin II and eledoisin evoke non related adaptive changes in cholinergic and monoaminergic neurons of the hippocampus.

Bed nucleus of the stria terminalis: site for the antinatriorexic action of tachykinins in the rat

The present study investigated the sensitivity of the posterior part of the medial division of the bed nucleus of the stria terminalis (BNST) to the antinatriorexic action of the tachykinin eledoisin in the rat. Salt appetite was evoked by sodium depletion following furosemide-induced natriuresis. The results obtained show that bilateral injection of eledoisin into the BNST evokes a very potent antinatriorexic effect, a statistically significant inhibition being observed even at the dose of 3.1 ng/BNST. On the other hand, when eledoisin was injected into the lateral ventricle, just above the BNST, much larger doses were required to elicit comparable inhibition of salt appetite. The antinatriorexic effect of eledoisin into the BNST is apparently behaviorally selective, since the same doses, which inhibited salt appetite, did not significantly affect the intake of 10% sucrose solution in the sodium-depleted animal. Present results suggest that the BNST is a site of action for the effect of tachykinins on salt appetite.

Effect of eledoisin on tear volume and tear flow in humans as assessed by fluorophotometry

Topical application of the endekapeptide eledoisin has been reported to increase tear secretion in patients with dry eye. However, to date the efficacy of eledoisin has been proved only by methods that are not easily reproduced and have an enormous intraindividual scatter range (Schirmer test, basic secretion test). In the present study the effect of topically applied eledoisin on tear volume and tear flow was determined quantitatively by means of objective fluorophotometry in 40 subjects, 20 of whom suffered from severe dry eyes. Both tear volume and tear flow were found to be significantly increased up to 2 h after instillation, reaching a maximum 1 h after application (tear volume: +87% and +35% for dry eyes and healthy controls, respectively; tear flow: +250% and +27% for dry eyes and healthy controls, respectively).

Tachykinins and intestinal motility in different fish groups

The presence and function of tachykinins were studied in the intestine of hagfish (Myxine glutinosa), lamprey (Lampetra fluviatilis), starry ray (Raja radiata), lungfish (Lepidosiren paradoxa), bichir (Polypterus senegalensis), and rainbow trout (Oncorhynchus mykiss), which represent different systematic groups of fish. Immunohistochemistry revealed cells containing substance P (SP)-like material in the intestine of lamprey and lungfish, and in the stomach of the ray. The intestinal motility was studied using isolated muscle strip preparations. SP had no effect on hagfish or lamprey intestine. In the other four species SP produced intestinal contractions. In ray, bichir, and lungfish the tachykinins may be released from endocrine cells and act, at least in the bichir and lungfish, directly onto the smooth muscle cells. In the rainbow trout intestine, where SP-like material may be released from both nerve fibres and endocrine cells, it is indicated that the contractile effect is in part direct upon the smooth muscle and in part via stimulation of cholinergic and serotonergic neurons.

Mutagenic contaminants in synthetic peptides obtained by an azide coupling

Hormone-like peptides are, almost by definition, not mutagenic. It was, therefore, unusual to find that some batches of peptides synthesized by azide coupling were mutagenic in the Ames test. One of these peptides, eledoisin, showed mutagenic activity particularly in Salmonella typhimurium TA 1535 without metabolic activation. This activity was independent of the peptide purity determined by HPLC and a dose response relationship was observed at concentrations over the solubility limit of the peptide in the assay medium. We therefore suggested that the mutagenic effect might be due to the presence of chemically undetectable, water-soluble impurities, which could be removed by counter-current distribution. If, however, the same final coupling was carried out by the mixed anhydride procedure, no mutagenic activity was observed. Consequently, we considered that the mutagenicity detected was due to traces of hydrazoic acid salts arising during azide formation in the coupling step. In fact only the product of the coupling reaction between the pivotal intermediates was mutagenic.

Differential effects of angiotensin II and eledoisin on monoamine oxidase A and B activities in rat brain

Intracerebroventricular injections of angiotensin II caused 108, 62, and 54% increases in monoamine oxidase A activities in rat hippocampus, hypothalamus, and striatum, respectively. These activatory effects were abolished by simultaneous injections of eledoisin. No significant changes of monoamine oxidase B activities were found under the same experimental conditions. Neither angiotensin II nor elodoisin changed substrate/inhibitor affinities of both isoenzymes. These data indicate that angiotensin II and tachykinin transmitter systems may exert opposite, long-term regulatory effects on monoaminergic neurons in rat brain.

Occurrence, release, and effects of multiple tachykinins in cat colonic tissues and nerves

Neurokinin A (NKA)-immunoreactivities and substance P (SP)-immunoreactivities were found in picomolar amounts in colonic tissues and almost an order of magnitude higher amounts in vagal, pelvic, splanchnic, and lumbar colonic nerves of the cat. Continuous electric stimulation of the pelvic nerve at 4 Hz or intermittent electric burst stimulation of the pelvic nerve at 40 Hz during 1 second with 10-second rest periods produced a marked release of NKA-like immunoreactivity (NKA-LI) and SP-LI from the colon to blood (P less than 0.001). Reflex activation of the pelvic nerve by mechanical stimulation of the anus or rectal distension produced a less pronounced release of NKA-LI and SP-LI from the colon to blood (P less than 0.01). There was a simultaneous colonic contraction and vasodilation during each nerve stimulation. Reverse-phase high performance liquid chromatography showed presence of NKA, NKA oxide, NKA (3-10)/NKA (4-10), and neuropeptide K (NPK) in colonic tissues and release of all these molecular forms except NPK on nerve stimulation. Substance P and SP oxide were present both in colonic tissue extracts and in released material. Close intraarterial infusions of NKA, neurokinin B, SP, NPK, eledoisin, and physalaemin at doses of 0.1-100 pmol/min induced dose-dependent contractions of the proximal and distal colon (P less than 0.001) and vasodilatation (P less than 0.001), NKA being the most potent. The effects of the tachykinins were reduced after tetrodotoxin (P less than 0.05) and atropine (P less than 0.05) but unchanged after treatment with hexamethonium. Our findings indicate that tachykinins are released from the pelvic nerve to induce a nonadrenergic noncholinergic contraction and vasodilatation of the colon in the cat.

Chemoreceptor responses to substance P, physalaemin and eledoisin: evidence for neurokinin-1 receptors in the cat carotid body

Substance P (SP) belongs to a group of peptides called tachykinins. Biological effects of SP are mediated by tachykinin receptors that have been classified as neurokinin-1 (NK-1), NK-2 and NK-3 subtypes. The aim of the present study is to elucidate the tachykinin receptor subtype(s) that mediate the excitatory effects of SP in the carotid body. For this purpose, we compared the carotid body responses elicited by SP with that of physalaemin and eledoisin. In other tissues, physalaemin exhibits equi or greater potency at NK-1 receptors and eledoisin exerts its effects more on NK-2 and NK-3 subtypes compared to SP. Experiments were performed on eight cats that were anaesthetized, paralyzed and artificially ventilated with room air. Close carotid body administration of SP and physalaemin produced dose-dependent augmentation of the chemoreceptor afferent activity. Chemoreceptor discharge, however, was unaffected by eledoisin. Compared to that by SP, the magnitude of excitation produced by physalaemin was the same at lower doses but significantly greater with the highest dose (100 nmol). The time course of the response induced by physalaemin, however, was the same as that by SP. The present results demonstrate that in the carotid body physalaemin is also either equi or relatively more potent than SP, whereas eledoisin has no effect on the chemoreceptor discharge. It is suggested that stimulation of the carotid body by SP is mediated by NK-1 but not NK-2 or NK-3 receptors.

Mechanism of action of substance P in guinea-pig ileum longitudinal smooth muscle: a re-evaluation

1. A proposed mechanism of contractile action of substance P in guinea-pig ileum longitudinal smooth muscle involving a decrease in membrane K+ permeability (PK) has been re-examined. 2. Potentiation of responses to substance P by the K+ channel blocker tetraethylammonium (TEA) was originally proposed as evidence for a mechanism of action of substance P involving a decrease in PK. Potentiation was confirmed; however this was found not to be specific to substance P since a similar potentiation of responses was seen with agonists not thought to act via a decrease in PK. 3. Antagonism of contractile responses to substance P by noradrenaline was similarly confirmed. However, this antagonism was found to represent a non-specific functional interaction through the inhibitory actions of beta-adrenoceptors rather than the proposed specific interaction with an increase in PK by noradrenaline which is normally alpha 1-adrenoceptor mediated. 4. Experiments were made measuring 86Rb efflux, in depolarized guinea-pig ileum longitudinal smooth muscle, to estimate PK. These studies confirmed a reported decrease in PK with TEA, but failed to detect the previously reported decrease with substance P. 5. These results, although not disproving a suggested mechanism of direct contractile action of substance P in guinea-pig ileum longitudinal smooth muscle involving a decrease in PK, do throw doubt on either the evidence, or its interpretation, as proposed by the original authors in support of such a mechanism.

Effect of central tachykinins, alone and with angiotensin II, on drinking in pigs and goats

Central administration of the tachykinins, eledoisin or physalaemin has been reported to produce significant water intake in pigeons but inhibition of stimulated drinking in rats. In this paper it is shown that high and low doses of these two tachykinins injected centrally in two much larger species, goats and pigs, did not produce any significant drinking. Furthermore, in pigs, physalaemin, but not eledoisin, attenuated AII stimulated drinking (576 +/- 64 ml AII alone, versus 456 +/- 131 ml AII + eledoisin, not significant, and 124 +/- 89 ml AII plus physalaemin, p less than 0.01, in the same 5 pigs) and also, especially at the higher doses, induced general locomotor activation. However, in goats neither tachykinin interfered with drinking induced by central injection of 300 ng AII. These results show that in pigs and goats the tachykinins, eledoisin and physalaemin, are not effective dipsogens and that one of the possible reasons for the inhibitory action of physalaemin on AII-induced drinking may be through the general locomotor activation and not through a direct effect on the central AII system.

Evidence that bremazocine prevents urine retention induced by intraspinal cord injection of colchicine in rats

Intra-spinal cord injection of colchicine (2.5-5 micrograms/rat) produced an inhibition of reflex micturition leading to voiding suppression, bladder hypertrophy and overflow incontinence. Intraperitoneal administration of bremazocine, a kappa-receptor agonist with antagonistic properties for mu- and delta-receptors minimized the colchicine induced effects. The selective kappa-receptors agonist, U-69593, had little effect, while eledoisin or naloxone administration worsened rather than counteracted urine retention.

Inhibition of salt appetite in the rat following injection of tachykinins into the medial amygdala

The present study investigated the sensitivity of the medial region of the amygdala to the antinatriorexic action in the rat of the tachykinins eledoisin, substance P, neurokinin A and [Asp5,6, MePhe8] substance P(5-11) (also referred to as amino-senktide; NH2-SENK), which is a highly selective agonist for NK-3 receptors. The results obtained show that only the potent NK-3 agonists eledoisin and NH2-SENK inhibit salt appetite when injected into the medial region of the amygdala. Eledoisin and NH2-SENK inhibited salt appetite induced by sodium depletion, that has been proven to be governed by the synergism of angiotensin and aldosterone. They inhibited also salt appetite evoked by central renin injection, that is due to production of angiotensin II. On the other hand, eledoisin and NH2-SENK did not inhibit salt appetite evoked by subcutaneous deoxycorticosterone treatment. These findings suggest that the medial region of the amygdala is a site of action for the antinatriorexic effect of tachykinins and that their action at this site is mediated by NK-3 receptors. Moreover, our results show that in the medial amygdala, the antinatriorexic action of tachykinins appears to be directed toward the angiotensinergic component of the neural mechanism for salt appetite.

Sodium and water intake of sheep, rabbits and cattle during ICV infusion of eledoisin

The present study reports the effects of ICV administered eledoisin, the most potent anti/dipsogenic member of the tachykinin family, in three species. Sheep with chronic parotid fistula lost daily 200-400 mmol sodium in 3-4 l of saliva. During ICV infusion of eledoisin, 2 to 50 ng/min, a decrease in sodium intake was observed. If water was withheld for 22 hours, sheep normally drank 5.4 l water on presentation. During ICV infusion of eledoisin, 50 ng/min, water intake increased significantly. Wild rabbits lost 5 mmol sodium in 50 ml of urine after injection of furosemide. During ICV infusion of eledoisin, 30 ng/min, a decrease in sodium intake and an increase in water drinking was observed. Cows prepared with parotid fistula had access to sodium solution every other day to replace salivary sodium loss. During ICV infusion of eledoisin, 50 and 150 ng/min, a decrease in sodium intake occurred, and water intake was unaffected. These results confirm that central administration of eledoisin specifically influences ingestive behaviour in mammals and draws attention to some species differences in the observed effects.

Sensitivity of spontaneously hypertensive and of Wistar Kyoto rats to the antidipsogenic action of eledoisin

This study investigated the sensitivity of spontaneously hypertensive rats (SHR) and of Wistar Kyoto rats (WKR) to the antidipsogenic action of the tachykinin eledoisin (ELE). Drinking was evoked by: (a) intracerebroventricular (i.c.v.) injection of angiotensin II, (b) subcutaneous (s.c.) administration of hypertonic NaCl (1.5 M; 1 ml/100 g b.wt.) or (c) 18 h of water deprivation with free access to food. In accordance with previous studies, the dipsogenic effect of all three treatments was exaggerated in the SHR. And when treated with i.c.v. ELE (12.5-25 ng/rat) they were far less sensitive than WKR to its antidipsogenic action on angiotensin-induced drinking. Smaller differences in strain sensitivity were also observed for the effect of ELE on cell dehydration- and on water deprivation-induced drinking, but only at the dose of 200 and 50 ng/rat, respectively. The different sensitivity of the SHR to the antidipsogenic effect of ELE supports the idea that tachykininergic mechanisms for control of water intake are differently regulated in the SHR than they are in the normotensive WKR.

Eledoisin and lacrimal secretion in the rabbit

Eledoisin has been tried as a possible treatment for dry eye based on the hypothesis that it pharmacologically stimulates tear secretion when topically applied to the eye. To determine if topically applied eledoisin pharmacologically stimulates orbital lacrimal secretion, the orbital lacrimal gland excretory duct of normal rabbits was cannulated, and eledoisin was applied topically with and without prior administration of proparacaine. To determine if topically applied eledoisin stimulated accessory lacrimal gland secretion, isotonic buffer with and without eledoisin was tested in a rabbit model with only accessory lacrimal tissue remaining after the administration of proparacaine. Topically applied eledoisin did not pharmacologically stimulate lacrimal secretion but rather increased lacrimal gland secretion only in non-anesthetized eyes through a sensory reflex mechanism that is blocked by proparacaine.

Effects of tachykinins on the secretion of fluid and glycoproteins from the submandibular glands of rat, mouse, hamster and guinea pig

The effects of substance P, neurokinin A, physalamine, and eledoisin on the secretion of fluid and glycoproteins from the submandibular glands of various rodents were investigated. Following i.v. injection of each peptide at a dose of 20 micrograms/kg, the major glycoprotein species secreted from rats and guinea pigs were shown to be electrophoretically identical with those found in the acini. However, saliva was not elicited from the mice and hamsters. These results suggest that in both rats and guinea pigs, tachykinins act on the acinar cells of the submandibular gland only.

NK-1 receptor mediation of neurogenic plasma extravasation in rat skin

1. Plasma extravasation was induced by electrical nerve stimulation and by perfusion of tachykinins over a vacuum-induced blister base on rat footpad. 2. Stimulation of the sciatic nerve (18 V, 15 Hz, 0.5 ms) for 20 min produced a significant increase in the protein content of the perfusate. The response in capsaicin pretreated rats was only 4% of the control response. This indicates that the electrically-induced plasma extravasation response was mediated by capsaicin-sensitive sensory fibres. 3. Exogenous perfusion of the mammalian tachykinins substance P, neurokinin A and neurokinin B and the non-mammalian tachykinins physalaemin, kassinin and eledoisin was used to determine the tachykinin receptor type mediating the plasma extravasation response. Dose-response curves of the tachykinins (10(-9) M-10(-4) M) gave a rank order of potency of substance P = physalaemin greater than eledoisin greater than or equal to kassinin greater than neurokinin B = neurokinin A. 4. In addition, specific agonists of neurokinin receptors were perfused. Perfusion of [Glp6, D-Pro9] SP6-11 and [Glp6, L-Pro9]SP6-11 demonstrated that the L-Pro isomer was much more potent than the D-Pro isomer. 5. The rank order of potency and the greater potency of [Glp6, L-Pro9]SP6-11 over its D-isomer indicate an NK-1 neurokinin receptor mediates plasma extravasation in rat footpad skin.

Classification of tachykinin receptors in muscularis mucosae of opossum oesophagus

1. Muscularis mucosae of the distal oesophagus of the opossum contracts in response to substance P and to a variety of tachykinins. To delineate the nature of the receptors present in this tissue, we evaluated contractile responses to substance P, neurokinin A, neurokinin B, eledoisin and analogues believed to be highly selective for NK-1, NK-2 and NK-3 receptors. In addition, the effects of prolonged exposure to each of these agents (10(-6) M or 10(-5) M) on contractile responses to substance P and to itself were evaluated. Similarly effects of prolonged exposure to the various tachykinins and their analogues on the field-stimulated responses of this muscle were studied. 2. All naturally occurring tachykinins were full agonists and differed in potency (comparing ED50 values) by less than ten fold. In nearly all cases there was cross tachyphylaxis between substance P and the other tachykinins and each reduced tonic responses to field stimulation, a response previously shown to be mediated by a substance P like agent. Eledoisin failed to cause tachyphylaxis under the conditions of these experiments. 3. When highly selective tachykinin analogues were used, only that believed to activate NK-1 receptors was a full agonist. [beta-Ala4,Sar9,MetO2(11)]SP(4-11) was also only slightly less potent than substance P. In contrast, an agonist selective for NK-2 (NK-A) receptors, [Nle10]NKA(4-10), and one selective for NK-3 (NK-B) receptors, [beta-Asp4, MePhe7]NKB(4-10) were unable to produce a response equal to 50% of the maximum even at 10(-5) M. However, all three selective tachykinin analogues reduced responses to substance P but not to carbachol. They usually reduced both phasic and tonic responses to field stimulation. 4. We conclude, based on this and earlier study, that the tachykinin receptors of opossum oesophagus muscularis mucosae recognize all naturally occurring tachykinins but may represent only NK-1 receptors. The ability of analogues selective for other types of tachykinin receptors to reduce responses to substance P raises the possibility that their selectivity depends in part on diminished efficacy rather than totally on diminished affinity at some classes of receptor.

Facilitation by tachykinins of neurotransmission in guinea-pig pulmonary parasympathetic nerves

1. The effect of tachykinins on cholinergic neurotransmission was studied in an innervated tracheal tube preparation isolated from guinea-pigs anaesthetized with urethane. The tracheal tube was bathed in Krebs-Henseleit solution containing 5 microM indomethacin. 2. Neurokinin A (NKA), eledoisin (El) and substance P (SP) caused concentration-dependent increases in intraluminal pressure (ILP), with an order of potency NKA greater than El much greater than SP. 3. Low concentrations of tachykinins, that had little effect on ILP, caused an increase in the contractions elicited by stimulation of the preganglionic vagal nerve fibres and by postganglionic (transmural) stimulation. The order of potency was NKA greater than or equal to El greater than SP. Contractions induced by exogenous acetylcholine (ACh) were not increased by the tachykinins. 4. The magnitude of the tachykinin-induced augmentation of responses to nerve stimulation was inversely related to stimulation voltage and frequency. 5. These results suggest that tachykinins act on NK2 receptors, both on the trachealis muscle and on postganglionic pulmonary parasympathetic nerve terminals. Activation of the neuronal receptors may increase the probability of transmitter release from the nerve terminals.

Contractile effects of substance P and other tachykinins on the mouse isolated distal colon

1. Substance P (SP), physalaemin, eledoisin and kassinin induced concentration-related contractions of the longitudinal muscle of the mouse distal colon. The responses were not antagonized by atropine (1.5 x 10(-7) M), mepyramine (2.5 x 10(-7) M), methysergide (5 x 10(-7) M), timolol (10(-6) M), phentolamine (10(-6) M) or naloxone (4 x 10(-7) M). They were enhanced by tetrodotoxin (TTX, 1.5 x 10(-7) M). These observations indicate that the contractile responses to the tachykinins result from a direct activation of smooth muscle cells. 2. The contractile activity provoked by SP and physalaemin was inhibited by nifedipine (a Ca2+-entry blocker) and was abolished in Ca2+-free EGTA solution. Such data suggest that the myogenic effects of SP and physalaemin are mainly dependent on their ability to promote Ca2+ influx. 3. Eledoisin and kassinin evoked a contractile response in the absence of external Ca2+ and their myogenic activity was, to some extent, resistant to the inhibitory effect of nifedipine. This may indicate that an additional process, probably the release of an intracellularly bound Ca2+ store, participates in the mechanism by which eledoisin and kassinin contract the mouse distal colon. 4. After desensitization of the mouse distal colon to SP, the contractile activity provoked by SP or physalaemin was totally abolished whilst the responses evoked by eledoisin and kassinin were barely affected. These observations and other experimental findings indirectly support the assumption that the mouse distal colon could possess different tachykinin-binding sites.

The tachykinins neurokinin A and physalaemin stimulate murine thymocyte proliferation

The tachykinins constitute a family of neuropeptides that are released from sensory neurons, mediating a variety of responses termed neurogenic inflammation. The present study investigates the possibility that tachykinins are also involved in immune-regulatory mechanisms. The mammalian tachykinins neurokinin A (NKA), neurokinin B, neuropeptide K and substance P, as well as the nonmammalian tachykinin physalaemin (PHY) and eledoisin, were analysed in 10-pM to 1.0 microM concentrations for regulatory influences in several lymphocyte proliferation assays. NKA, and to a lesser extent PHY, but none of the other tachykinins tested, displayed a stimulatory action in murine thymocyte cultures, utilised as an interleukin-1 (IL-1) bioassay. The effect was apparent only at a concentration of 0.1 microM or higher. No further stimulatory effect of the tachykinins could be observed in thymocyte cultures already suboptimally stimulated to proliferation by addition of IL-1. The tachykinins had no effect in direct and co-mitogenic T and B lymphocyte proliferation assays with rat spleen cells, in a thymocyte growth peptide assay with mouse thymic lymphoblasts or in an interleukin-2 (IL-2) bioassay with IL-2-dependent rat splenoblasts. Our findings indicate that NKA and PHY can act as immune regulators. The results are relevant for the understanding of the interaction between the nervous and the immune system, and are of particular interest in view of the inflammatory actions of both tachykinins and IL-1.

The effect of substance P and other tachykinins on inositol phospholipid hydrolysis in rabbit retina, superior colliculus and retinal cultures

Substance P and eledoisin stimulate the accumulation of inositol phosphates in a dose-dependent manner in retinal and superior colliculus slices of the rabbit. The EC50 values for substance P and eledoisin in both tissues were of the same order (1.5-4.9 microM), suggesting that the receptors in the two tissues were alike with characteristics of the SP-P subtype rather than the SP-E subtype. These data suggest that the SP-immunoreactive material in the retinal ganglion and amacrine cells is identical. The effectiveness for a number of tachykinin substances at 10(-5) M for stimulating inositol phosphates accumulation was as follows: Substance P greater than eledoisin greater than neurokinin A greater than neurokinin B greater than substance P (octapeptide) greater than substance P (pentapeptide). Spantide [(D-Arg1, D-Try7.9, Leu11) substance P] and (D-Pro2, D-Try7.9) substance P did not stimulate inositol phospholipid hydrolysis. However, spantide, at a concentration of 10(-6) M, was an antagonist of the effect produced by substance P, but had no action on the effect produced by neurokinin A or neurokinin B. Substance P and other tachykinins were also effective in stimulating inositol phosphates accumulation in 3-5-day-old rabbit retinal cultures but did not elicit a response in the older (25-30-day-old) cultures which lacked neurones but contained Müller cells. Furthermore, substance P was only active in the younger cultures in stimulating an increase in internal calcium levels. It is therefore concluded that retinal tachykinin receptors linked to phosphoinositide turnover and calcium mobilisation are associated exclusively with neurones and not with Müller cells.

Differential effects of tachykinins injected intranigrally on striatal dopamine metabolism

The effects of intranigral injection of kassinin, eledoisin, and substance P on striatal dopamine (DA) and 3,4-dihydroxyphenylacetic acid (DOPAC) contents as well as circling behavior were studied in rats. Kassinin and eledoisin produced a marked dose-dependent increase of DOPAC concentrations in the ipsilateral striatum, as well as in the number of contralateral circlings. Substance P produced a similar but weaker effect. At the larger dose (5 nmol), the three tachykinins also induced an increase of DA concentrations in the ipsilateral striatum. The rank order of activity was kassinin greater than eledoisin greater than substance P. These results suggest that tachykinins stimulated the nigro-striatal dopaminergic system by accelerating the dopamine metabolism in striatum.

Inhibitory effect of intracranial injections of tachykinins on angiotensin-induced drinking in the cat

The tachykinins eledoisin, substance P and kassinin were administered by pulse intracerebroventricular (ICV) injections to cats made thirsty by ICV angiotensin II, 100 ng per cat. Eledoisin, 100 ng per cat, produced an inhibition of drinking which was larger (56.0 vs. 45.2%) and lasted longer than that evoked by 400 ng per cat of substance P. Kassinin, 100 ng per cat, did not evoke any effect at all. The treatment with these peptides neither produced signs of discomfort nor induced any other behavioural alteration. The results of present experiments suggest that the antidipsogenic effect of tachykinins is a phenomenon of general interest among mammals.

Vasopressin release induced by intracranial injection of eledoisin is mediated by central angiotensin II

Pulse intracerebroventricular injection of eledoisin, but not of substance P, markedly increases plasma vasopressin levels in the rat. Intracerebroventricular pretreatment with sarcosine1, alanine8-angiotensin II, 1 microgram/rat, completely suppresses the effect of eledoisin, suggesting that it is mediated by angiotensin release and angiotensin II receptor activation. The vasopressin releasing effect of eledoisin is neither due to peripheral haemodynamic alterations, nor to activation of the peripheral renin-angiotensin system. It is apparently related to central angiotensin release in a specific neuronal pathway subserving vasopressin release. This effect is not secondary to inhibition by tachykinins of the brain mechanisms for angiotensin-induced drinking, but is probably expression of direct activation of specific tachykinin receptors controlling vasopressin release.

Stimulation of formation of inositol phosphates in primary cultures of bovine adrenal chromaffin cells by angiotensin II, histamine, bradykinin, and carbachol

Histamine, bradykinin, and angiotensin II stimulate release of catecholamines from adrenal medulla. Here we show, using bovine adrenal chromaffin cells in culture, that these agonists as well as carbachol (with hexamethonium) stimulate production of inositol phosphates. The histamine response was mepyramine sensitive, implicating an H1 receptor, whereas bradykinin had a lower EC50 than Met-Lys-bradykinin, and [Des-Arg9]-bradykinin was relatively inactive, implicating a BK-2 receptor. Total inositol phosphates formed in the presence of lithium were measured, with histamine giving the largest response. The relative contribution of chromaffin cells and nonchromaffin cells in the responses was assessed. In each case chromaffin cells were found to be responding to the agonists; in the case of histamine the response was solely on chromaffin cells. When the inositol phosphates accumulating over 2 or 5 min, with no lithium present, were separated on Dowex anion-exchange columns, bradykinin gave the greatest stimulation in the inositol trisphosphate fraction, whereas histamine gave a larger inositol monophosphate accumulation. On resolution of the isomers of stimulated inositol trisphosphate after 2 min of stimulation, the principal isomer present was inositol 1,3,4-trisphosphate in each case. Two hypotheses for the differential responses to histamine and bradykinin are discussed.

Differing actions of convulsant and nonconvulsant barbiturates: an electrophysiological study in the isolated spinal cord of the rat

The effects of various pairs of convulsant and nonconvulsant barbiturates on mono- and polysynaptic activity were studied in the isolated spinal cord of the immature rat, using extracellular recording. The convulsant barbiturates, 5-ethyl-5-(3-methylbut-2'-enyl) barbituric acid (3M2B), 5-ethyl-5-(1,3-dimethylbut-1'-enyl) barbituric acid (1,3M1B) and (+)-5-(1,3-dimethylbutyl)-5-ethyl barbituric acid [(+) DMBB] all increased the monosynaptic reflex at concentrations between 5 and 50 microM with no change in polysynaptic activity. When the concentration was raised to between 100 and 300 microM, however, the convulsants all reduced the monosynaptic reflex, thus producing a biphasic dose-response relationship. The nonconvulsant barbiturates phenobarbital, 5-ethyl-5-(3-methylbut-1'-enyl) barbituric acid (3M1B), amylobarbital (3MB) and (-)-5-(1,3-dimethylbutyl)-5-ethyl barbituric acid [(-)DMBB] produced only a decrease in mono- and polysynaptic reflexes. At concentrations which enhanced the monosynaptic reflex, the responses of motoneurones to glycine and eledoisin-related peptide (an analogue of substance P) were reduced by (+)DMBB, while 1,3M1B and 3M2B had no significant effects upon any of the neurotransmitters tested. At concentrations which depressed the monosynaptic reflex, the convulsants all reduced the response to glycine whereas the nonconvulsant barbiturates all increased the response to GABA. With the exception of phenobarbital, both convulsant and nonconvulsant barbiturates produced a direct depolarisation of the presynaptic terminal membrane, with only the convulsants producing a depolarisation of the membrane of the motoneurone. Using another convulsant barbiturate, 5-(2-cyclohexylideneethyl)-5-ethyl barbituric acid (CHEB), this direct depolarising action was found to be calcium-dependent.

The mechanism of tachykinin-induced bronchoconstriction in the rat

The mammalian tachykinins substance P (SP) and neurokinin A (NKA) are known to be present in sensory airway nerves of animals and humans. We studied the effect of mammalian and nonmammalian tachykinins on the conducting airways of anesthetized, mechanically ventilated Fisher 344 rats. Dose-dependent increases in lung resistance and decreases in dynamic compliance occurred after the intravenous administration of eledoisin (E), kassinin (K), NKA, and SP. E, K, and NKA were more potent bronchoconstrictors than was SP. Neurokinin B (NKB) caused a similar decrease in dynamic compliance, but had no effect on lung resistance. This order of potency suggests a predominance of NK-2 receptors in the rat airways. Both atropine and the 5-hydroxytryptamine antagonist methysergide largely reduced the bronchoconstriction induced by E and SP. Vagotomy did not change this reaction, whereas pretreatment with the ganglion blocker hexamethonium slightly enhanced the bronchoconstrictor action of E and SP. Sodium cromoglycate and nedocromil sodium, 2 drugs that can inhibit mediator release from inflammatory cells, significantly reduced the bronchoconstrictor action of NKA. Ketotifen, an antihistamine with mast-cell-stabilizing properties, significantly reduced the bronchoconstriction induced by E, whereas the H1-receptor antagonist clemastine had no effect. We conclude that tachykinins cause bronchoconstriction in rats largely by an indirect mechanism, involving both acetylcholine and 5-hydroxytryptamine. We suggest that tachykinins cause bronchoconstriction by stimulation of postganglionic vagal nerve endings and mast cells.

Stimulation of prolactin release in turkeys by vasoactive intestinal peptide

Vasoactive intestinal peptide (VIP) is a potent releasor of prolactin in birds. The main purpose of this study was to identify its site of action. Synthetic porcine VIP administered intraatrially to freely moving ovariectomized (OVX) turkeys induced an elevation of circulating PRL within 15 min in a dose-related manner. Removal of hypothalamic control of PRL release by surgical disconnection of the neurohemal regions of the median eminence did not significantly diminish the PRL response to VIP. Intraatrial injection of eledoisin or bradykinin into OVX hens did not influence PRL secretion, indicating that the PRL releasing activity of VIP is probably not attributable to its vasodilatory action. These results support the possibility that VIP is an authentic prolactin releasing factor (PRF) in birds.

Mapping of brain sites sensitive to the antidipsogenic effect of tachykinins

The present study investigated the sensitivity of 12 forebrain and midbrain structures to the antidipsogenic effect of eledoisin, physalaemin and substance P on angiotensin-induced drinking. The three tachykinins elicited the most potent effects when injected into the nucleus preopticus medialis, the nucleus anterior hypothalami and the subfornical organ. In other sites (nuclei lateralis, ventromedialis and posterior hypothalami, nucleus septi lateralis, nucleus interpeduncularis and substantia grisea periventricularis) the effect was lower, and most of these sites showed different sensitivity to the three tachykinins. Finally, the nucleus septi medialis, the nucleus preopticus lateralis and the substantia nigra were refractory to the three tachykinins. These results show that: (1) the antidipsogenic effect of tachykinins can be elicited not only in forebrain, but also in midbrain structures such as the substantia grisea periventricularis and the nucleus interpeduncularis; (2) the distribution of brain sites sensitive to the antidipsogenic effect of substance P and physalaemin is always overlapping, while this is not true for eledoisin. This probably reflects selective distribution and/or activation of distinct subtypes of tachykinin receptors.

Effect of somatostatin on basal and stimulated gastric secretion in the cod, Gadus morhua

In vivo secretion of gastric acid and pepsin has been studied in pylorus-ligated cod. Basal acid output amounted to 100-150 mumol H+.kg-1.h-1 and pepsin secretion to 1 mg.kg-1.h-1. In response to bombesin nonapeptide (2.4 nmol.kg-1.h-1) and histamine (81 nmol.kg-1.h-1), acid secretion increased to approximately 200 and 600% of the basal level, respectively. Pepsin output was marginally affected by histamine but increased to approximately 3 and 15 times the basal level during treatment with bombesin and eledoisin (3.27 nmol.kg-1.h-1). Somatostatin (SS-14, 15 nmol.kg-1.h-1) inhibited basal acid secretion by 85%. It also inhibited the acid secretion during stimulation with bombesin (68%) and histamine (57%), but although the former effect could be explained by removal of the basal component, the latter could not. Basal pepsin secretion was not affected by SS-14. A slight inhibition (28%) of the peak pepsin response to eledoisin was demonstrated, and bombesin failed to stimulate pepsin secretion during treatment with SS-14. These results indicate that endogenous somatostatin, if present in the cod stomach, could play a role in the regulation of gastric secretion.

Contractile response to substance P in isolated smooth muscle strips from the intestinal bulb of the carp (Cyprinus carpio)

1. The effect of substance P on the mechanical activity of carp intestinal bulb smooth muscle was investigated in vitro. 2. Bath-applied substance P (1 nM-1 microM) caused concentration-dependent contraction of the smooth muscle. The EC50 value was 20 +/- 3 nM (N = 13). 3. Pretreatment with tetrodotoxin (780 nM) or atropine (500 nM) partially decreased the contractile response to substance P, while methysergide (3 microM) did not decrease the response. 4. The contractile response to substance P was not decreased by [D-Pro2, D-Trp7.9]-substance P or [D-Pro4, D-Trp7.9]-substance P (4-11) pretreatment (10 microM for 5 min). 5. Exposure of the intestinal bulb to substance P (100 nM and 1 microM for 15 min) decreased the response to subsequent application of substance P, physalaemin and eledoisin in a concentration dependent manner, while the contractile response to acetylcholine or methionine-enkephalin was not affected. 6. Exposure of the intestinal bulb to physalaemin and eledoisin (100 nM for 15 min) decreased the response to subsequent application of substance P. 7. The above results indicate that substance P causes the contraction of the carp intestinal bulb smooth muscle through its direct action on the smooth muscle and its indirect action through enteric cholinergic nerves. Long-term exposure to substance P causes desensitization of the preparation to substance P, physalaemin and eledoisin at the receptor level.