Serotonin (5-HT) release and uptake measured by real-time electrochemical techniques in the rat ileum

Serotonin (5-HT) is released from the enterochromaffin cells and plays an important role in regulating intestinal function. Although the release of 5-HT is well documented, the contribution of the serotonin reuptake transporter (SERT) to the levels and actions of 5-HT in the intestine is unclear. This study aimed to demonstrate real-time SERT activity in ileal mucosa and to assess the effects of SERT inhibition using fluoxetine. Electrochemical recordings were made from the mucosa in full-thickness preparations of rat ileum using a carbon fiber electrode to measure 5-HT oxidation current and a force transducer to record circular muscle (CM) tension. Compression of the mucosa stimulated a peak 5-HT release of 12 +/- 6 microM, which decayed to 7 +/- 4 microM. Blockade of SERT with fluoxetine (1 microM) increased the peak compression-evoked release to 19 +/- 9 microM, and the background levels of 5-HT increased to 11 +/- 7 microM (P < 0.05, n = 7). When 5-HT was exogenously applied to the mucosa, fluoxetine caused a significant increase in the time to 50% and 80% decay of the oxidation current. Fluoxetine also increased the spontaneous CM motility (P < 0.05; n = 7) but did not increase the CM contraction-evoked 5-HT release (P > 0.05, n = 5). In conclusion, this is the first characterization of the real-time uptake of 5-HT into the rat intestine. These data suggest that SERT plays an important role in the modulation of 5-HT concentrations that reach intestinal 5-HT receptors.     

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.     

Involvement of CGRP in the inhibitory effect of rutaecarpine on vasoconstriction induced by anaphylaxis in guinea pig

Previous investigations have indicated that calcitonin gene-related peptide (CGRP), a principal transmitter in capsaicin-sensitive sensory nerves, could alleviate cardiac anaphylaxis injury. Rutaecarpine relaxes vascular smooth by stimulation of CGRP release via activation of vanilloid receptor subtype 1 (VR1). In the present study, we examined the role of capsaicin-sensitive sensory nerves in anaphylactic vessels and the effect of rutaecarpine on antigen-challenged constriction in the guinea pig isolated thoracic aorta. The aortas were challenged with 0.01 mg/ml bovine serum albumin, and the tension of aorta rings was continuously monitored. The amount of CGRP released from thoracic aortas was determined in the absence or presence of rutaecarpine. Antigen challenge caused a vasoconstrictor response concomitantly with an increase in the release of CGRP from the isolated thoracic aorta, and the vasoconstrictor responses were potentiated by CGRP8-37 (10 microM) or capsaicin (1 microM). Pretreatment with diphenhydramine (1 microM) markedly decreased antigen-challenged vasoconstriction. Acute application of capsaicin (0.03 or 0.1 microM) significantly inhibited vasoconstrictor responses. Pretreatment with rutaecarpine (10 or 30 microM) significantly increased CGRP release concomitantly with decrease in antigen-challenged vasoconstriction, which was abolished by CGRP8-37 (10 microM) or capsazepine (10 microM). The present results suggest that an increase in the release of CGRP during vascular anaphylaxis may be a beneficial compensatory response, and that rutaecarpine inhibits antigen-challenged vasoconstriction, which is related to stimulation of endogenous CGRP release via activation of VR1.     

Calcitonin gene-related peptide potently stimulates glucagon-like peptide-1 release in the isolated perfused rat ileum

The post-prandial release of glucagon-like peptide-1 (GLP-1) from the distal gut appears to involve a neural reflex that arises from the proximal gut. The neuropeptide calcitonin gene-related peptide (CGRP)'s potent stimulatory effect on GLP-1 release was characterized, using the isolated vascularly perfused rat ileum. CGRP, but not its homolog amylin, induced a dose-dependent and sustained release of GLP-1. This effect was greatly reduced in the presence of CGRP(8-37), was abolished by galanin, potentiated by luminal glucose and unaffected by atropine. GIP enhanced, but did not potentiate, this effect. The results reveal how CGRP is involved in the complex regulation of GLP-1 release.     

Effects of calcitonin gene-related peptide on the adenylate cyclase system in cultured rat skeletal muscle cells

Adenylate cyclase (AC) activity in skeletal muscle cells isolated from new born rats was increased with time in culture, indicating the presence of heterologous supersensitivity as in the case of denervation in vivo. The effect of addition of calcitonin gene-related peptide (CGRP) to the cultures of skeletal muscle cells on increase in the AC activity was studied. The increases in AC activity stimulated by CGRP, isoproterenol, NaF and forskolin were depressed by exposure to CGRP (1 microM) for 24 hours, depression of CGRP-stimulated AC activity being the greatest. The extent of reduction in increase in AC activity depended on the concentration of CGRP and duration of exposure. The AC activity stimulated by CGRP was also decreased by exposure to dbc-AMP for 24 hours. When muscle cells were exposed to CGRP for 3 days, no significant difference among the AC activity stimulated by NaF, forskolin and CGRP was seen. These results suggest that exposure to CGRP for one day caused mainly homologous desensitization of the CGRP receptor, whereas exposure for 3-4 days caused heterologous desensitization of the AC catalytic unit, perhaps by elevating the c-AMP level in the cells. These results imply that CGRP, which is located in the motor nerve terminal, may play a role as a physiological trophic factor on skeletal muscle.     

Calcitonin gene-related peptide activates different signaling pathways in mesenteric lymphatics of guinea pigs

The effects of calcitonin gene-related peptide (CGRP) on constriction frequency, smooth muscle membrane potential (V(m)), and endothelial V(m) of guinea pig mesenteric lymphatics were examined in vitro. CGRP (1-100 nM) caused an endothelium-dependent decrease in the constriction frequency of perfused lymphatic vessels. The endothelium-dependent CGRP response was abolished by the CGRP-1 receptor antagonist CGRP-(8-37) (1 microM) and pertussis toxin (100 ng/ml). This action of CGRP was also blocked by the nitric oxide (NO) synthase inhibitor N(G)-nitro-L-arginine (L-NNA; 10 microM), an action that was reversed by the addition of L-arginine (100 microM). cGMP, adenylate cyclase, cAMP-dependent protein kinase (PKA), and ATP-sensitive K+ (K+(ATP)) channels were all implicated in the endothelium-dependent CGRP response because it was abolished by methylene blue (20 microM), 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (10 microM), dideoxyadenosine (10 microM), N-[2-(p-bromociannamylamino)-ethyl]-5-isoquinolinesulfonamide-dichloride (H89; 1 microM) and glibenclamide (10 microM). CGRP (100 nM), unlike acetylcholine, did not alter endothelial intracellular Ca2+ concentration or V(m). CGRP (100 nM) hyperpolarized the smooth muscle V(m), an effect inhibited by L-NNA, H89, or glibenclamide. CGRP (500 nM) also caused a decrease in constriction frequency. However, this was no longer blocked by CGRP-(8-37). CGRP (500 nM) also caused smooth muscle hyperpolarization, an action that was now not blocked by L-NNA (100 microM). It was most likely mediated by the activation of the cAMP/PKA pathway and the opening of K+(ATP) channels because it was abolished by H89 or glibenclamide. We conclude that CGRP, at low to moderate concentrations (i.e., 1-100 nM), decreases lymphatic constriction frequency primarily by the stimulation of CGRP-1 receptors coupled to pertussis toxin-sensitive G proteins and the release of NO from the endothelium or enhancement of the actions of endogenous NO. At high concentrations (i.e., 500 nM), CGRP also directly activates the smooth muscle independent of NO. Both mechanisms of activation ultimately cause the PKA-mediated opening of K+(ATP) channels and resultant hyperpolarization.     

Release of calcitonin gene-related peptide from rat enteric nerves is Ca2+-dependent but is not induced by K+ depolarization

The effect of extracellular calcium on the release of calcitonin gene-related peptide (CGRP) induced by electrical field stimulation from enteric nerves of isolated rat ileum was studied; the effect of high potassium, veratridine and caffeine was also examined. Release of endogenous substance P from enteric nerves was also measured for comparison. Electrical field stimulation (10 Hz, 0.3 ms for 2 min) of the ileum preparation caused a significant (P less than 0.001) increase in the release of CGRP and substance P from enteric nerves. The evoked, but not the basal, release of both CGRP and substance P was inhibited in the presence of tetrodotoxin (TTX). The release of CGRP and substance P induced by electrical stimulation was abolished in Ca2+-free medium containing CDTA and also in normal medium containing the calcium channel blocker cadmium chloride (CdCl2), with no change in the level of the basal release of both peptides. However, potassium depolarization (76 and 110 mM) failed to evoke an increase in the release of endogenous CGRP, although it did cause an increase in the release can be induced by mobilization of calcium from intracellular Ca2+ stores. Veratridine, on the other hand, did not cause an increase in CGRP release, although substance P and VIP release was induced by veratridine from the same preparations. The results of the present study have demonstrated that CGRP release from enteric nerves requires the presence of extracellular calcium but, unlike substance P and most other transmitters reported to show calcium-dependent release, potassium depolarization does not induce CGRP release from enteric nerves of rat ileum.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Cyclic AMP and free fatty acids in the longer-term regulation of pyruvate dehydrogenase kinase in rat soleus muscle.

Starvation increased pyruvate dehydrogenase (PDH) kinase activity in extracts of freshly excised rat soleus 2.2-fold (from 0.6 min-1 in fed rats to 1.31 min-1 in 48-h-starved rats). In fed rats, activities were unchanged following 24 h of culture in medium 199, but increased 2.1-fold on 24 h of culture with 50 microM dibutyryl cAMP plus 1 mM n-octanoate and 1.6-1.7-fold with either agent alone. Approx. 70% of the increase in PDH kinase induced by starvation was lost following 24 h of culture in medium 199; the loss was prevented by 50 microM dibutyryl cAMP plus 1 mM n-octanoate. cAMP concentrations in fresh soleus muscle were 1 nmol/g (fed rats) and 1.6 nmol/g (starved rats). After 20-60 min of culture the fed-starved difference disappeared and [cAMP] fell to 0.4 nmol/g. Calcitonin-gene-related peptide (CGRP) increased cAMP 3-fold; the increase was maintained throughout 24 h of culture, but was readily reversed at 30 min or 24 h of culture by 60-min incubation with CGRP-free medium. Starvation of the rat (48 h) had no effect on the sensitivity of soleus towards the [cAMP]-increasing effect of CGRP. It is concluded that culture may reverse effects of starvation on PDH kinase activity by lowering cAMP and by removal from the in vivo effects of circulating free fatty acids; and that starvation and CGRP had no detectable long-term effects on the cAMP system in soleus muscle.     

The effects of duodenal peptides on glucagon-like peptide-1 secretion from the ileum. A duodeno--ileal loop?

Secretion of the gut hormone glucagon-like peptide-1 (GLP-1) is stimulated by meal ingestion. The response is rapid, suggesting a stimulatory pathway elicited from the upper gastrointestinal area. In pigs, we have been unable to demonstrate a neural stimulatory pathway, but GLP-1 secretion is regulated by local somatostatin secretion. In search for an endocrine pathway, we studied the effect of a range of concentrations of cholecystokinin octapeptide (26-33) (CCK 8), gastric inhibitory peptide 1-42 (GIP), secretin, motilin, calcitonin gene-related peptide (CGRP), and the modified amino acid, 5-hydroxytryptamine (serotonin, 5-HT) on GLP-1 and somatostatin release from isolated perfused segments of porcine ileum.GLP-1 secretion was stimulated by 1 nM CCK 8 and 10 nM GIP, but suppressed by 1 nM motilin and 1 microM 5-HT. Secretin and CGRP had no effect. Somatostatin secretion was stimulated by CCK 8 at 1 and 10 nM, by GIP at 1 and 10 nM and by 10 nM CGRP. Secretin, 5-HT and motilin had no effect on somatostatin secretion.We conclude that CCK 8 and GIP 1-42 stimulated GLP-1 secretion, but only in concentrations greatly exceeding normal postprandial concentrations. Thus, we find it unlikely that endocrine agents from the duodenum regulate GLP-1 secretion in pigs.     

Localisation and neural control of the release of calcitonin gene-related peptide (CGRP) from the isolated perfused porcine ileum

By immunohistochemistry, CGRP-like immunoreactive (CGRP-LI) nerve fibres were found in the lamina propria along small vessels and in the lamina muscularis mucosae in the porcine ileum. Immunoreactive nerve cell bodies were found in the submucous and myenteric plexus. Upon HPLC-analysis of ileal extracts, CGRP-LI corresponded entirely to porcine CGRP plus smaller amounts of oxidised CGRP. Using isolated vascularly perfused segments of the ileum, we studied the release of CGRP-LI in response to electrical stimulation of the mixed extrinsic periarterial nerves and to infusion of different neuroblockers. In addition, the effect of infusion of capsaicin was studied. The basal output of CGRP-LI was 2.9+/-0.7 pmol/5 min (mean+/-S.D.). Electrical nerve stimulation (8 Hz) significantly increased the release of CGRP-LI to 167+/-16% (mean+/-S.E.M.) of the basal output (n=13). This response was unaffected by the addition of atropine (10(-6) M). Nerve stimulation during infusion of phentolamine (10(-5) M) with and without additional infusion of atropine resulted in a significant further increase in the release of CGRP-LI to 261+/-134% (n=5) and 240+/-80% (n=9), respectively. This response was abolished by infusion of hexamethonium (3x10(-5) M). Infusion of capsaicin (10(-5) M) caused a significant increase in the release of CGRP-LI to 485+/-82% of basal output (n=5). Our results suggest a dual origin of CGRP innervation of the porcine ileum (intrinsic and extrinsic). The intrinsic CGRP neurons receive excitatory input by parasympathetic, possibly vagal, preganglionic fibres, via release of acetylcholine acting on nicotinic receptors. The stimulatory effect of capsaicin suggests that CGRP is also released from extrinsic sensory neurons.     

Localization of calcitonin receptor-like receptor (CLR) and receptor activity-modifying protein 1 (RAMP1) in human gastrointestinal tract

Calcitonin gene-related peptide (CGRP) exerts its diverse effects on vasodilation, nociception, secretion, and motor function through a heterodimeric receptor comprising of calcitonin receptor-like receptor (CLR) and receptor activity-modifying protein 1 (RAMP1). Despite the importance of CLR·RAMP1 in human disease, little is known about its distribution in the human gastrointestinal (GI) tract, where it participates in inflammation and pain. In this study, we determined that CLR and RAMP1 mRNAs are expressed in normal human stomach, ileum and colon by RT-PCR. We next characterized antibodies that we generated to rat CLR and RAMP1 in transfected HEK cells. Having characterized these antibodies in vitro, we then localized CLR-, RAMP1-, CGRP- and intermedin-immunoreactivity (IMD-IR) in various human GI segments. In the stomach, nerve bundles in the myenteric plexus and nerve fibers throughout the circular and longitudinal muscle had prominent CLR-IR. In the proximal colon and ileum, CLR was found in nerve varicosities of the myenteric plexus and surrounding submucosal neurons. Interestingly, CGRP expressing fibers did not co-localize, but were in close proximity to CLR. However, CLR and RAMP1, the two subunits of a functional CGRP receptor were clearly localized in myenteric plexus, where they may form functional cell-surface receptors. IMD, another member of calcitonin peptide family was also found in close proximity to CLR, and like CGRP, did not co-localize with either CLR or RAMP1 receptors. Thus, CGRP and IMD appear to be released locally, where they can mediate their effect on their receptors regulating diverse functions such as inflammation, pain and motility.     

Calcitonin gene-related peptide stimulates rat gastric somatostatin release in vitro

The influence of rat calcitonin gene-related peptide (rCGRP) on the secretion of gastric somatostatin and gastrin was studied in vitro using the isolated, vascularly perfused rat stomach preparation. rCGRP stimulated somatostatin secretion dose-dependently reaching 3-fold stimulation at 1 microM. The kinetics of somatostatin response were characterized by a sharp increase in the initial phase of rCGRP perfusion followed by sustained elevated levels. Gastrin secretion was moderately suppressed at 1 nM to 100 nM CGRP. Somatostatin responses to half-maximal stimulation with 100 nM CGRP were not affected by concomitant perfusion of atropine, propranolol, and tetrodotoxin. It is concluded that increases in somatostatin release in response to CGRP are probably due to a direct effect on the gastric somatostatin-producing D-cell and may be important for the potent acid-inhibitory activity of CGRP.     

Aldosterone increases RAMP1 expression in mesenteric arteries from spontaneously hypertensive rats

OBJECTIVE: We analysed the effect of aldosterone on calcitonin gene-related peptide (CGRP) mediated vasodilation in noradrenaline precontracted endothelium denuded mesenteric arteries segments from Wistar Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) and the effect of aldosterone on calcitonin receptor-like receptor (CL receptor) and receptor activity modifying protein 1 (RAMP1) expression in endothelium-denuded mesenteric arteries from SHR rats. RESULTS: CGRP 0.1 nM-0.1 microM induced a concentration-dependent relaxation that was enhanced by aldosterone 1 microM in SHR only. Incubation with RU 486 10 microM significantly reduced the enhancement of CGRP-relaxation produced by aldosterone in SHR. CL receptor expression was not modified in either strain, while RAMP1 expression was enhanced in SHR by aldosterone 1 microM 120 min and 0.1 microM 120 min. This up-regulation of RAMP1 was prevented by RU 486 10 microM. CONCLUSIONS: Aldosterone, through glucocorticoid receptor activation, increases the vasodilatory effect of CGRP in SHR mesenteric arteries, which seems to be mediated by increased RAMP1 expression.     

Galanin induces contraction of isolated cells from circular muscle layer of pig ileum.

The effects of galanin and its interaction with cholecystokinin and acetylcholine on smooth muscle cells were studied in vitro on isolated cells obtained from pig ileum circular muscle layer. Galanin induced a concentration-dependent cell contraction with a maximal contraction (24.5% decrease in cell length from control) obtained at 1 nM. The concentration of galanin inducing a half-maximal contraction was 3 pM. Tetrodotoxin (10 microM) failed to inhibit cell contraction induced by galanin (1 nM), pentagastrin (10 nM) and acetylcholine (1 microM). Atropine abolished the contraction induced by acetylcholine (1 microM), but had no effect on galanin- and pentagastrin-induced contraction. L 364,718 inhibited the contraction induced by CCK8 but not the galanin-induced contraction. At the uneffective concentration of 10 fM, galanin had a synergistic effect with an uneffective concentration of CCK8 (1 pM). These results suggest that (i) galanin contracts smooth muscle cells from pig ileum by acting on a specific receptor; (ii) galanin and either CCK or acetylcholine may act in a synergistic way to induce cell contraction.     

Increased expression in calcitonin-like receptor induced by aldosterone in cerebral arteries from spontaneously hypertensive rats does not correlate with functional role of CGRP receptor

OBJECTIVE: To analyze the effect of aldosterone on the expression of calcitonin gene-related peptide (CGRP) receptor components, calcitonin-like receptor (CL receptor) and receptor activity modifying protein 1 (RAMP1), as well as the effect of this mineralocorticoid on CGRP-mediated vasodilation in middle cerebral arteries from Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR). RESULTS: CGRP 0.1 nM-0.1 microM induced a concentration-dependent relaxation that was nitric oxide independent and higher in SHR middle cerebral arteries. CL receptor and RAMP1 expression were similar in both strains. The relaxation to CGRP was not modified by aldosterone 1 microM in either strain, although aldosterone 1 microM increased expression of CL receptor without modifying RAMP1 in segments from SHR rats. CONCLUSIONS: CGRP elicits greater vasodilation in middle cerebral arteries from SHR than WKY rats, that is nitric oxide independent, and by mechanism independent of CGRP receptor components expression. Although aldosterone increases the expression of CL receptor in SHR, it does not alter vasodilation to CGRP, since RAMP1 expression is not increased. These results indicate that the increase in CL receptor, without an increase in RAMP1, does not correlate with changes in functional role of the CGRP receptor.     

Monoclonal antibody-beta-lactamase conjugates for the activation of a cephalosporin mustard prodrug.

Cephalosporin mustard (CM) was designed as an anticancer prodrug that could be activated in a site-specific manner by monoclonal antibody-beta-lactamase conjugates targeted to antigens present on tumor cell surfaces. Purified beta-lactamases from Bacillus cereus (BC beta L) and Escherichia coli (EC beta L) catalyzed the release of phenylenediamine mustard (PDM) from CM through a fragmentation reaction which occurs after the beta-lactam ring of CM is hydrolyzed. The Km and Vmax values were 5.7 microM and 201 mumol/min per mg for BC beta L and 43 microM and 29 mumol/min per mg for EC beta L, respectively. Conjugates of BC beta L were prepared by combining the F(ab')2 fragments of the maleimide-substituted monoclonal antibodies L6 and 1F5 with thiolated BC beta L. The conjugates showed little loss in enzymatic activity and bound nearly as well as the unmodified F(ab')2 monoclonal antibodies to antigens expressed on the H2981 human lung adenocarcinoma cell line (L6 positive, 1F5 negative). PDM was approximately 50-fold more cytotoxic than CM to H2981 cells. Treatment of the cells with L6-BC beta L followed by CM resulted in a level of cytotoxic activity that was comparable to that of PDM. This was most likely due to activation of CM by conjugate that bound to cell-surface antigens, since pretreatment of H2981 cells with BC beta L or 1F5-BC beta L enhanced the activity of CM to a lesser extent. Thus, we have shown that CM is a prodrug, and that it can be activated with immunological specificity by a monoclonal antibody-beta-lactamase conjugate.     

Release of sensory CGRP by hypertonic NaCl is not blocked by tetrodotoxin, omega-conotoxin, nifedipine and ruthenium red.

Hypertonic NaCl (160 mM added to the physiological salt solution) releases CGRP in a Ca(2+)-dependent manner from capsaicin-sensitive sensory nerves of the rat urinary bladder. The NaCl (160 mM)-evoked CGRP release was not affected by tetrodotoxin (0.3 microM), nifedipine (1 microM), omega-conotoxin (0.1 microM) and ruthenium red (10 microM). NaCl (160 mM)-evokes release of sensory neuropeptides without the involvement of axon reflexes, and by promoting Ca2+ influx via a dihydropyridine omega-conotoxin and ruthenium red insensitive pathway.     

Adrenomedullin release in the rat mesenteric resistance artery

Adrenomedullin (AM) is a potent vasodilator peptide whose major source is the vascular wall. In the present study, the mechanism of release of AM was investigated in the rat mesenteric resistance artery. The isolated mesenteric vascular bed was perfused with Krebs solution at a constant flow rate (5 ml/min) and AM in the perfusate was measured by a highly sensitive enzyme immunoassay (Immunoenzymometric assay; IEMA) method. In preparations without endothelium, spontaneous release of AM was detected in the perfusate (68.7+/-5.8 fmol/ml, n=45). Periarterial nerve stimulation (PNS, 4 and 8 Hz) caused 11.4+/-3.9% (4 Hz) and 9.1+/-3.5% (8 Hz) decreases in the spontaneous release of AM. Removal of Ca2+ from the medium did not affect the spontaneous AM release, but abolished the PNS-induced inhibition of spontaneous AM release. Perfusion of 10nM calcitonin gene-related peptide (CGRP) or 0.1 microM capsaicin (inducer of CGRP release) inhibited significantly the spontaneous AM release. PNS (8 Hz)-induced inhibition of spontaneous AM release was antagonized by CGRP(8-37) (CGRP receptor antagonist). These results suggest that AM is mainly released from vascular smooth muscle cells of the rat mesenteric artery and endogenous or exogenous CGRP inhibits AM release.     

Inhibitory influence of chromogranin A N-terminal fragment (vasostatin-1) on the spontaneous contractions of rat proximal colon

Very little is known about the role played by CGA and its fragments in the gastrointestinal physiology. We have studied the role of CGA N-terminal fragments in the regulation of intestinal smooth muscle contractility by measuring the influence of recombinant CGA 1-78 (VS-1) and synthetic CGA 7-57 peptides on the spontaneous mechanical activity of rat proximal colon in vitro. The mechanical activity was recorded as changes in the intraluminal pressure. VS-1 (0.1-30 nM) and CGA 7-57 (10-300 nM) produced concentration-dependent inhibitory effects, characterized by a progressive decrease in the mean amplitude of circular muscle spontaneous contractions, without affecting the resting tone. The response to VS-1 was antagonised by anti-CGA monoclonal antibodies (mAb5A8, B4E11, 7D1 or 4D5) but not by an irrelevant antibody, indicating that the effect was specific. The inhibitory responses to VS-1 and to CGA 7-57 were significantly reduced by pre-treatment of the preparations with N(omega)-nitro-l-arginine methyl ester (l-NAME) (300 microM), 1H-(1,2,4) oxadiazolo-(4,3-a) quinoxalin-1-one (ODQ) (10 microM), apamin (0.1 microM) or tetrodotoxin (TTX) (1 microM). The results suggest that VS-1 plays an inhibitory modulatory role on spontaneous contractions rat colon circular muscle, through mechanisms involving in part neural release of nitric oxide.