Effects of capsaicin and 5-HT3 antagonists on 5-hydroxytryptamine-evoked release of calcitonin gene-related peptide in the guinea-pig heart.

1. The effect of 5-hydroxytryptamine (5-HT) on the release of calcitonin gene-related peptide (CGRP) was studied directly in the isolated perfused heart and indirectly in the isolated left atria of guinea-pig. 2. 5-HT injection into the guinea-pig isolated and perfused heart evoked a dose-dependent (1-100 microM) release of CGRP-like immunoreactivity (LI) that was abolished by in vitro pretreatment with capsaicin and was not affected by indomethacin. 3. Chlorophenyldiguanide (CPD, 100 microM), but not 8-hydroxy-dipropylaminotetralin (8-OH-DPAT, 100 microM), sumatriptan (100 microM) or 1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane (DOI, 100 microM) evoked a release of CGRP-LI. Ondansetron (10 microM) or ICS205-930 (20 microM) completely abolished the 5-HT (100 microM)-evoked CGRP-LI release. 4. In the isolated electrically driven left atria of the guinea-pig 5-HT (1-10 microM) and CPD (3-100 microM) produced a positive inotropic response, which was abolished by capsaicin pretreatment. 8-OH-DPAT (10 microM) and DOI (10 microM) were inactive. Ondansetron inhibited the response to 5-HT with a pA2 of 6.50 (CL 6.08-6.91). 5. It is concluded that 5-HT causes a release of CGRP in the whole heart and a positive inotropic response in the isolated atria of guinea-pig. Both these effects are sensitive to capsaicin pretreatment and to 5-HT3 antagonists.     

Evidence for two independent modes of activation of the 'efferent' function of capsaicin-sensitive nerves

Field stimulation (10 Hz for 10 s, 0.5 ms pulse width, 60 V) of the guinea-pig isolated main bronchi (atropine plus indomethacin in the bath) produced reproducible contractions which were abolished by tetrodotoxin or in vitro capsaicin desensitization. These responses were almost abolished by omega-conotoxin GVIA (CTX), a peptide modulator of neuronal calcium channels which, however, did not affect the bronchial contraction due to neurokinin A or to capsaicin. Field stimulation (10 Hz for 2.5 s, 1 ms, 60 V) of the electrically driven, isolated guinea-pig left atria excised from reserpine-pretreated animals (atropine in the bath) produced a delayed positive inotropic response which was abolished by tetrodotoxin or in vitro capsaicin desensitization. This response was abolished by CTX, which did not affect the response to exogenous calcitonin gene-related peptide nor that to capsaicin. These findings indicate that CTX-sensitive mechanisms (presumably Ca channels regulating the release of transmitters) are activated upon antidromic invasion of sensory terminals and consequent production of the 'efferent' response while the activation of sensory nerve endings by capsaicin occurs through CTX-resistant mechanisms.     

The positive inotropic and chronotropic effects of evodiamine and rutaecarpine, indoloquinazoline alkaloids isolated from the fruits of Evodia rutaecarpa, on the guinea-pig isolated right atria: possible involvement of vanilloid receptors

Cardiotonic effects of evodiamine and rutaecarpine, constituents of the fruits of Evodia rutaecarpa Bentham Rutaceae, were evaluated on guinea pig isolated atria. Comparison with capsaicin, a vanilloid receptor agonist, revealed similar positive inotropic and chronotropic activity, as judged from antagonistic effects of the competitive vanilloid receptor (capsaicin receptor) antagonist capsazepine, the non-competitive vanilloid receptor antagonist ruthenium red, the calcitonin gene related peptide antagonist CGRP(8-37), the P2X purinoceptor antagonist PPADS, and various desensitization studies. Evodiamine and rutaecarpine produced transient positive inotropic and chronotropic effects on the guinea-pig isolated atria, followed by a desensitizing effect to additional administration. Dose-response relationships for evodiamine, rutaecarpine and capsaicin were obtained. All the compounds evoked positive inotropic and chronotropic effects in a concentration-dependent manner. Maximal contractions for evodiamine, rutaecarpine and capsaicin were observed at concentrations of 1 microM, 3 microM and 0.3 microM, respectively. The cardiotonic responses evoked by both evodiamine and rutaecarpine were shifted to the right by capsazepine, an established antagonist of vanilloid receptor (capsaicin-receptor). The effects of both evodiamine (1 microM) and rutaecarpine (3 microM) were abolished by pretreatment with a desensitizing dosage of capsaicin (1 microM), developing cross-tachyphylaxis between these compounds. The effects of evodiamine (1 microM), rutaecarpine (3 microM) and capsaicin (0.3 microM) were also significantly reduced by pretreatment with ruthenium red (10 microM) and CGRP (8-37) (10 microM). The effects of evodiamine, rutaecarpine and capsaicin were not affected by pretreatment with PPADS (100 microM), a highly selective P2X purinoceptor antagonist, and the possibility of the involvement of the P2X purinoceptor was excluded. These results suggest that the positive inotropic and chronotropic effects on the guinea-pig isolated right atria induced by both evodiamine and rutaecarpine could be attributed to their interaction with vanilloid receptors and the resultant release of CGRP, a cardiotonic neurotransmitter, from capsaicin-sensitive nerves as with capsaicin.     

A comparison of bradykinin- and capsaicin-induced myocardial and coronary effects in isolated perfused heart of guinea-pig: involvement of substance P and calcitonin gene-related peptide release.

1.Bradykinin and capsaicin were compared for their ability to elicit functional effects and to release sensory neuropeptides from guinea-pig isolated perfused hearts. 2. Both bradykinin (10 microM) and capsaicin (1 microM) produced a marked increase in coronary flow, a large positive chronotropic effect and a significant reduction in contractile strength. These actions were associated with a marked release of substance P-like immunoreactivity (SP-LI) and calcitonin gene-related-like immunoreactivity (CGRP-LI). The percentage of the tissue content of SP-LI and CGRP-LI released by each agent was similar, although bradykinin was less effective than capsaicin. The ratio of SP-LI/CGRP-LI released by both agents was similar to that present in cardiac tissue. 3. Neuropeptide release could be evoked only once with capsaicin but at least four times with bradykinin. Also, functional responses to capsaicin underwent desensitization. After either in vitro or systemic capsaicin pretreatment, the release of SP-LI and CGRP-LI by bradykinin was reduced and the positive chronotropic effect of bradykinin was significantly reduced, while the increase in coronary flow and negative inotropic responses remained unchanged. 4. Pretreatment with indomethacin (10 microM) strongly antagonized the release of SP-LI and CGRP-LI by bradykinin and reduced the increase in heart rate. 5. These findings suggest that activation by bradykinin (probably through indirect mechanisms) of capsaicin-sensitive sensory nerves in the heart, leads to a local release of sensory neuropeptides. These neuropeptides, in turn, could participate in determining the complex functional effects of this kinin on cardiac performance.     

Multiple mechanisms in the motor responses of the guinea-pig isolated urinary bladder to bradykinin.

1. Bradykinin (1 nm-1 microM) produced a contraction of bladder strips excised from the dome of the guinea-pig urinary bladder, an effect which was greatly enhanced by removal of the mucosal layer or by thiorphan (10 microM). All subsequent experiments were performed in mucosa-free strips and in the presence of thiorphan. 2. In carbachol (5 microM)-contracted strips, bradykinin produced a concentration (1 nm-1 microM)-dependent transient relaxation. 3. Kallidin was slightly more potent than bradykinin in producing a contraction and a relaxation of the carbachol-induced tone. By contrast, [des-Arg9]-bradykinin, a selective B1 receptor agonist was barely effective up to 1 microM. 4. The contractile response to bradykinin was: (a) unaffected by either tetrodotoxin (1 microM), in vitro capsaicin desensitization (10 microM for 30 min) or apamin (0.1 microM); (b) antagonized by indomethacin (5 microM), the prostaglandin receptor antagonist SC-19220 (100 microM) or the B2 receptor antagonist [D-Arg0, Hyp3, Thi5,8, Phe7]-bradykinin (10 micron) and (c) almost abolished by nifedipine (1 microM). 5. The antagonism of the contractile response to bradykinin produced by indomethacin and SC-19220 was non-additive while that produced by indomethacin and the B2 receptor antagonist was additive. 6. The relaxant response to bradykinin was unaffected by tetrodotoxin, in vitro capsaicin desensitization or indomethacin but antagonized in a competitive manner by the B2 receptor antagonist. Further, this response was abolished by apamin (0.1 microM) but unaffected by glibenclamide (1 microM). 7. Bradykinin (10 microM) produced a consistent release of calcitonin gene-related peptide-like immunoreactivity (CGRP-LI) but not substance P-LI from the guinea-pig bladder muscle. CGRP-LI release by bradykinin was greatly reduced in bladders exposed to indomethacin. [des-Arg9]-bradykinin (10 microM) was ineffective. 8. We conclude that: (a) bradykinin-induced contraction involves activation of both B2 receptors and prostanoid synthesis, via distinct mechanisms which act by inducing calcium influx via nifedipine-sensitive channels; (b) bradykinin-induced relaxation involves activation of B2 receptors and opening of apamin-sensitive potassium channels; (c) bradykinin stimulates sensory nerves in this tissue largely via prostanoid production.     

Evidence that the unilateral activation of 5-HT1D receptors in the substantia nigra of the guinea-pig elicits contralateral rotation.

1. The possible influence of ruthenium-red (RR) on contractility and outflow of calcitonin gene-related peptide (CGRP)-like and neuropeptide Y (NPY)-like immunoreactivity (LI) from the heart of the guinea-pig induced by capsaicin, resiniferatoxin, nicotine, ouabain or bradykinin was studied in vitro. 2. In the isolated right atrium, exposure to capsaicin evoked an increase in contractile rate and tension simultaneously with an enhanced outflow of CGRP-LI, indicating release from the atria. Repeated administration of capsaicin induced tachyphylaxis. Incubation with RR markedly attenuated the capsaicin-evoked release of CGRP-LI while no clear-cut effects were seen on contractile tension or rate. 3. In the isolated whole heart, perfusion with capsaicin induced an increased outflow of CGRP-LI and stimulated heart rate, while a negative inotropic effect was observed. A second administration of capsaicin to the same preparations failed to influence the CGRP-LI outflow and in these experiments the positive chronotropic effect was absent while the negative inotropic action remained unchanged. Capsaicin-perfusion in the presence of RR failed to induce any increased outflow of CGRP-LI from the hearts or changes in contractile activity. However, after 1 h of rinsing with Tyrode solution repeated capsaicin perfusion in the absence of RR caused a clear-cut (60% of control) release of CGRP-LI and contractile responses were restored. 4. Perfusion with resiniferatoxin evoked a RR-sensitive, clear-cut increased CGRP-LI output without any effects on contractile force or heart rate. Repeated administration of resiniferatoxin induced tachyphylaxis with respect to outflow.(ABSTRACT TRUNCATED AT 250 WORDS)     

Veratridine evokes release of calcitonin gene-related peptide from capsaicin-sensitive nerves of rat urinary bladder.

The effect of superfusion with veratridine on the release of calcitonin gene-related peptide-like immunoreactivity (CGRP-LI) was studied in slices of rat urinary bladder. Exposure to veratridine (1-200 microM) produced a concentration-related release of CGRP-LI. Veratridine (50 microM)-evoked CGRP-LI release was abolished in slices pre-exposed to capsaicin (10 microM for 40 min) or superfused in a Ca(2+)-free medium containing 1 mM EDTA. After exposure to veratridine (50 microM for 40 min), capsaicin (10 microM) was still able to release CGRP-LI. CGRP-LI release evoked by veratridine (50 microM) was inhibited by about 60% by tetrodotoxin (0.3 microM), attenuated (30%) by nifedipine (1 microM), and not affected by omega-conotoxin (0.1 microM). The capsaicin antagonist ruthenium red (10 microM) did not affect veratridine (50 microM)-evoked CGRP-LI release. The present results indicate that depolarization by veratridine induces CGRP-LI release from capsaicin-sensitive nerve fibres, an effect that is entirely dependent on extracellular Ca2+. The Ca2+ influx that promotes CGRP-LI release is mediated mostly by nifedipine-, omega-conotoxin- and ruthenium red-insensitive channels.     

Modulatory action of galanin on responses due to antidromic activation of peripheral terminals of capsaicin-sensitive sensory nerves

Galanin inhibited, in a concentration-dependent manner (EC50 7.2 nM), the positive inotropic response produced by field stimulation of isolated left atria from reserpine-pretreated guinea-pigs (in the presence of atropine). These responses were shown to involve antidromic activation of capsaicin-sensitive primary afferents. On the other hand, galanin did not affect the inotropic response to capsaicin or calcitonin gene-related peptide, the putative endogenous mediator released from sensory nerves. Galanin-(1-10) was at least 10,000 times less potent than the parent peptide, while galanin-(25-29) was ineffective. Likewise, galanin inhibited the non-cholinergic contraction produced by field stimulation of the isolated guinea-pig bronchus but not the contraction produced by exogenous neurokinin A. These findings indicate a prejunctional neuromodulatory action of galanin on the excitability of peripheral terminals of capsaicin-sensitive sensory nerves.     

Prejunctional modulatory action of neuropeptide Y on peripheral terminals of capsaicin-sensitive sensory nerves.

1. We have determined the effect of neuropeptide Y (NPY) on motor responses produced by activation of capsaicin-sensitive primary afferents in the guinea-pig isolated left atria (reserpine-pretreatment, atropine in the bath) and bronchi (atropine and indomethacin in the bath) using capsaicin itself and electrical field stimulation as stimuli. 2. In both preparations, NPY inhibited or suppressed the response produced by electrical field stimulation while leaving the response to a submaximal concentration of capsaicin unaffected. 3. NPY had no effect on motor responses produced by a submaximal concentration of calcitonin gene-related peptide (atria) or neurokinin A (bronchi), the putative endogenous mediators of the responses produced by activation of the 'efferent' function of sensory fibres in these preparations. 4. We conclude that NPY exerts a prejunctional inhibitory action on transmitter release from peripheral endings of capsaicin-sensitive nerves. Failure of NPY to modulate responses activated by capsaicin provides further evidence for the existence of two independent modes of activation of the 'efferent' function of capsaicin-sensitive sensory nerves.     

Opioid receptors and prejunctional modulation of capsaicin-sensitive sensory nerves in guinea-pig left atrium

1. In the isolated electrically driven left atria from reserpine-pretreated guinea-pigs and in presence of 1 microM atropine, electrical field stimulation (EFS) at 10 Hz produces a delayed positive inotropic response (DPIR) involving activation of capsaicin-sensitive afferents. 2. Opioids inhibited the DPIR with the following order of potency: dermorphin greater than [D-Ala2,N-MePhe4, Gly5-ol]-enkephalin (DAGO) greater than or equal to [D-Ala2,D-Leu5]-enkephalin (DADLE) greater than morphine greater than dynorphin A (1-13) greater than [D-Pen2,D-Pen5]-enkephalin (DPDPE). U-50488 was ineffective up to 10 microM. 3. Opioids also inhibited resting inotropism (3 Hz) with the following rank order of potency: DADLE greater than DAGO greater than U-50488 = dynorphin A (1-13) = morphine = DPDPE. 4. Both inhibition of the DPIR and inhibition of resting inotropism were prevented by 10 microM naloxone. 5. Neither dermorphin (0.1 microM) nor DAGO (0.3 microM) or DADLE (1 microM) inhibit responses produced by capsaicin (30 nM) or calcitonin gene-related peptide (3 nM). 6. These findings indicate that capsaicin-sensitive nerves in the guinea-pig atrium are endowed with mu opioid receptors which inhibit transmitter release when sensory nerve terminals are activated by EFS but not by capsaicin.     

GABAA receptor-mediated positive inotropism in guinea-pig isolated left atria: evidence for the involvement of capsaicin-sensitive nerves.

1. Isolated left atria from reserpine-pretreated guinea-pigs, electrically driven (3 Hz) in the presence of atropine (1 microM), phentolamine (0.3 microM) and propranolol (1 microM), responded to a train of stimuli (10 Hz for 2.5s) with a delayed neurogenic positive inotropic response which was insensitive to hexamethonium (10 microM) but abolished by either tetrodotoxin (1 microM), omega-conotoxin (0.1 microM), in vitro capsaicin desensitization or desensitization to calcitonin gene-related peptide (CGRP). 2. In these experimental conditions, gamma-aminobutyric acid (GABA) produced a concentration-related (10 microM-1 mM) positive inotropic response similar to that produced by electrical field stimulation. The effect of GABA was competitively antagonized by bicuculline methiodide (10 microM), a GABAA receptor antagonist. 3. The selective GABAA receptor agonists, muscimol and homotaurine mimicked the positive inotropic effect of GABA while baclofen, the selective GABAB receptor agonist, did not. 4. The action of GABA (1 mM) was abolished by either tetrodotoxin (1 microM), omega-conotoxin (0.1 microM), in vitro capsaicin desensitization or desensitization to CGRP, while it was unaffected by hexamethonium. In contrast, the inotropic response to CGRP was unaffected by tetrodotoxin, omega-conotoxin, bicuculline methiodide, hexamethonium or in vitro capsaicin desensitization, but was abolished by CGRP desensitization. 5. In the spontaneously beating guinea-pig right atrium, GABA (1 microM) produced a small and transient positive chronotropic effect that was no longer observed after in vitro desensitization with capsaicin (1 microM). 6. In the guinea-pig isolated perfused heart from reserpine-pretreated animals (with atropine, phentolamine and propranolol in the perfusion medium), GABA (1 microM) produced a transient tachycardia and a small increase in coronary flow.(ABSTRACT TRUNCATED AT 250 WORDS)     

Non-adrenergic, non-cholinergic contractions in the electrically field stimulated guinea-pig trachea.

1. The effects of drugs and altering stimulus parameters on neurogenic responses to electrical field stimulation (EFS) have been investigated in distal and proximal portions of the guinea-pig trachea. 2. In the presence of indomethacin (3 microM) and propranolol (1 microM) two contractile phases were evident in both the proximal and distal trachea. The first rapid phase was abolished by atropine (0.1 microM), whereas the prolonged, second phase was abolished by capsaicin (10 microM) pretreatment. Tetrodotoxin (3 microM) abolished the initial response and greatly inhibited the second phase. In proximal trachea this second phase was evident only in 9 of 22 preparations. The addition of the peptidase inhibitor thiorphan (10 microM) however, caused a second phase to be seen in all the proximal tissues examined. 3. The two phases of the contractions to EFS were differentially sensitive to the pulse duration applied. The initial, cholinergic contractions were evident at lower pulse durations than were the prolonged capsaicin-sensitive contractions, with the first phase being approximately 10 fold more sensitive than the second phase. 4. The magnitude of the capsaicin-sensitive contraction to EFS was significantly greater in the distal trachea than in the proximal trachea. This difference prevailed in the presence of thiorphan, an inhibitor of neutral endopeptidase. In contrast, concentration-response curves to capsaicin were similar in segments of proximal and distal trachea. 5. The non-adrenergic non-cholinergic (NANC) relaxant responses were studied in tissues in which excitatory neurogenic responses were pharmacologically abolished by capsaicin and atropine treatment.(ABSTRACT TRUNCATED AT 250 WORDS)     

Simultaneous release by bradykinin of substance P- and calcitonin gene-related peptide immunoreactivities from capsaicin-sensitive structures in guinea-pig heart.

Both bradykinin and capsaicin infusion evoked a marked increase in the outflow of substance P- (SP-LI) and calcitonin gene-related peptide-like immunoreactivity (CGRP-LI) from guinea-pig isolated, perfused heart. After acute exposure to capsaicin in vitro, or in hearts taken from animals pretreated in vivo with capsaicin, bradykinin failed to induce any release. The positive chronotropic effect of bradykinin was reduced after acute capsaicin administration. The effect of bradykinin in the guinea-pig heart could be mediated, at least partly, by release of neuropeptides from peripheral endings of capsaicin-sensitive sensory neurones.     

Involvement of capsaicin-sensitive nerves in the bronchomotor effects of arachidonic acid and melittin: a possible role for lipoxin A4.

1. Functional studies have been performed to evaluate the potential involvement of capsaicin-sensitive nerves in the bronchomotor responses evoked by lipid mediators produced from the metabolic breakdown of arachidonic acid (AA) in the guinea-pig bronchus. 2. In the presence of indomethacin, the exogenous administration of AA (0.01-1 mM) produced a concentration-dependent contractile response in guinea-pig isolated bronchial rings. AA-induced contractions were augmented by epithelium-removal and by thiorphan (10 microM), an inhibitor of tachykinin breakdown. A sustained downward and rightward displacement of the complete concentration-response curve to AA was observed after in vitro capsaicin desensitization. 3. BWA4C (1 microM), a selective inhibitor of 5-lipoxygenase, shifted the AA concentration-response curve to the right. In the presence of this inhibitor, capsaicin desensitization did not have any further inhibitory action. 4. A potent, concentration-dependent and capsaicin-sensitive bronchoconstrictor effect was also observed with the polypeptide, melittin (10 nM-1 microM), an activator of phospholipase A2, which therefore should generate endogenous AA. 5. In vitro capsaicin-desensitization produced a significant reduction of the bronchomotor responses evoked by lipoxin A4 (1-6 microM), but not of those elicited by other lipoxygenases products such as leukotriene D4 (1-100 nM) or by 15-hydroxyeicosatetraenoic acid (15-HETE, 1-6 microM). 6. These findings indicate that lipoxin A4 but not leukotriene D4 or 15-HETE, might be one of the lipoxygenase mediators of excitatory effects of AA on capsaicin-sensitive sensory nerves.     

Prostacyclin activates tachykinin release from capsaicin-sensitive afferents in guinea-pig bronchi through a ruthenium red-sensitive pathway.

1. We have investigated the ability of prostacyclin (PGI2) to contract guinea-pig isolated bronchi and the possible involvement of capsaicin-sensitive primary afferents in the response to PGI2. 2. PGI2 (0.1-100 microM) produced concentration-dependent contractions of the guinea-pig isolated bronchi. In vitro capsaicin desensitization (10 microM for 30 min followed by washing) significantly reduced the PGI2-induced contraction at all concentrations tested. A capsaicin-resistant component of contraction (40-60% of the overall response) was also evident. 3. Ruthenium red (3 microM), an inorganic dye which acts as a selective functional antagonist of capsaicin, significantly decreased PGI2-induced contractions, without affecting the response to substance P, neurokinin A or acetylcholine. 4. MEN 10, 207, (Tyr5, D-Trp6,8,9, Arg10)-neurokinin A (4-10) (3 microM), a selective antagonist of NK2-tachykinin receptors, significantly decreased PGI2-induced contractions and neurokinin A-induced contractions, without affecting the response to acetylcholine. 5. The effect of ruthenium red and MEN 10,207 on the one hand, and that of ruthenium red and capsaicin on the other was non additive. 6. These results indicate that PGI2-induced contraction of the guinea-pig isolated bronchi involves two distinct mechanisms, one of which involves transmitter (tachykinins) release from peripheral endings of capsaicin-sensitive primary afferents. In as much as PGI2-activation of primary afferents is sensitive to ruthenium red, we suggest that PGI2 shares a common mechanism of tachykinin release with that activated by capsaicin.     

Alpha-adrenoceptor modulation of the efferent function of capsaicin-sensitive sensory neurones in guinea-pig isolated atria.

1. Transmural nerve stimulation of guinea-pig atria, obtained from animals pretreated with reserpine (5 mg kg-1, i.p.), in the presence of atropine 1 microM and of the beta-adrenoceptor blocker CGP 20712A 1 microM, induced a positive inotropic effect which was reduced by the calcitonin gene-related peptide (CGRP) antagonist hCGRP-(8-37) and abolished by pretreatment with capsaicin 1 microM. 2. Noradrenaline concentration-dependently (0.01-10 microM) reduced the increase in cardiac contractility induced by transmural nerve stimulation. The inhibitory effect of noradrenaline was antagonized by yohimbine (0.5-1 microM), in a dose-dependent manner. Prazosin (0.5-1 microM) antagonized the effect of noradrenaline and this effect was independent of concentration. 3. In the presence of yohimbine, the lower part of the inhibitory-response curve for noradrenaline was slightly but significantly shifted by prazosin. A similar degree of antagonism was observed in the presence of 1 microM phenoxybenzamine. 4. The selective alpha 2 agonists BHT 920 and clonidine reduced, in the same concentration-range (0.01-1 microM), the cardiac response to transmural nerve stimulation in a yohimbine-sensitive fashion. 5. Phenylephrine (0.1-100 microM) and methoxamine (1-300 microM) also induced an inhibitory effect on transmural nerve stimulation. The effect of phenylephrine was antagonized by yohimbine (1 microM) more efficiently than by prazosin (0.5 microM). 6. These results are in keeping with the presence of inhibitory prejunctional alpha 2-adrenoceptors on cardiac sensory nerve endings which modulate the efferent function of capsaicin-sensitive neurones.     

The role of the capsaicin-sensitive innervation of the rat urinary bladder in the activation of micturition reflex

Capsaicin applied on the serosal surface of the urinary bladder in urethane-anaesthetized rats produces two distinct types of motor effects: a tetrodotoxin-, hexamethonium- and lidocaine-insensitive 'tonic' contraction and a series of tetrodotoxin-, hexamethonium- and lidocaine-sensitive rhythmic contractions. Both 'tonic' and rhythmic contractions are abolished by bladder denervation indicating their neurogenic origin. The rhythmic but not the 'tonic' component of the contractile effect of capsaicin is abolished by spinal cord transection indicating activation of a supraspinal micturition reflex. The motor effects of topical capsaicin are unaffected by pretreatment with indomethacin or diphenhydramine plus cimetidine. Pretreatment with a large dose of subcutaneous (SC) capsaicin increases both volume and pressure threshold for micturition while amplitude of micturition contraction is unaffected. Moreover the spinal somatovesical reflex elicited by pinching of the perineal skin is unaffected by capsaicin-desensitization. The intracerebroventricular (ICV) administration of capsaicin reproduces the effects of SC capsaicin on the bladder response to saline filling. Rats pretreated with ICV capsaicin are as sensitive as controls in reacting to noxious heat (hot plate test) while the wiping response to instillation of capsaicin into one eye was abolished. These findings provide functional evidence for the presence in the rat urinary bladder of a capsaicin-sensitive innervation which subserves a sensory function in relaying volume/pressure information from detrusor muscle to central nervous system. Information carried through these capsaicin-sensitive fibers appears to be relevant for initiation of a supraspinal vesico-vesical micturition reflex. Functional evidence indicates that these fibers may terminate at supraspinal level.     

The effect of omega conotoxin GVIA,a peptide modulator of the N-type voltage sensitive calcium channels,on motor responses produced by activation of efferent and sensory nerves in mammalian smooth muscle

1. The effect of omega-conotoxin (CTX) GVIA, a peptide which blocks neuronal calcium channels, were investigated on nerve-mediated motor responses in a variety of isolated smooth muscle preparations from rats and guinea-pigs. 2. In the rat or guinea-pig isolated vas deferens CTX (1 nM-1 microM) produced a concentration and time-related inhibition of the response to field stimulation, while the responses to KCl, noradrenaline or adenosine triphosphate were unaffected. In the presence of CTX a series of tetrodotoxin-resistant contractions could be elicited by field stimulation by increasing pulse width and/or voltage. 3. In the rat or guinea-pig isolated urinary bladder, CTX produced a concentration and time-dependent inhibition of twitch responses to field stimulation without affecting the response to exogenous acetylcholine. In the rat bladder the maximal effect did not exceed 25% inhibition while a much larger fraction of the response (about 70%) was inhibited in the guinea-pig bladder. The CTX-resistant response was abolished, in both tissues, by tetrodotoxin. 4. The effects of CTX in the rat bladder were also studied with a whole range of frequencies of field stimulation (0.1-50 Hz). Maximal inhibition was observed toward contractions elicited at frequencies of 2-5 Hz. At low frequencies the inhibitory effects of CTX and atropine were almost additive while at high frequencies of stimulation a large component of the atropine-sensitive response was CTX-resistant. 5. In the rat isolated proximal duodenum, field stimulation in the presence of atropine and guanethidine produced a primary relaxation followed by a rebound contraction.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ruthenium red as a selective capsaicin antagonist of the motor response to capsaicin in the human isolated ileum.

We have investigated the effect of ruthenium red, omega-conotoxin fraction GVIA (CTX) and tetrodotoxin (TTX) on the relaxation produced in the circular muscle of the human isolated ileum by capsaicin, electrical field stimulation (EFS) or vasoactive intestinal polypeptide (VIP). Ruthenium red (10 microM) selectively blocked the capsaicin-evoked relaxation while leaving the response to EFS or VIP unaffected. CTX had no significant effect on the various stimuli. TTX blocked the relaxation due to EFS but not that due to capsaicin or VIP. It is concluded that capsaicin excitation of primary afferents in the human ileum, leading to VIP release and muscle relaxation, occurs with mechanisms similar to those operating in animal tissues and that ruthenium red acts as a selective capsaicin antagonist in the human ileum.     

The ‘efferent’ function of capsaicin-sensitive nerves: Ruthenium Red discriminates between different mechanisms of activation

We have investigated the ability of Ruthenium Red, an inorganic dye with calcium entry blocking properties, to interfere with the ‘efferent’ function of capsaicin-sensitive sensory nerves. These nerves were activated in the guinea-pig isolated bronchus (atropine in the bath) or left atria (reserpine-pretreated animals, atropine in the bath) by electrical field stimulation or with capsaicin. Both stimuli produced a contraction of the bronchus and a positive inotropic response in the atria, responses which are mediated by endogenous neuropeptides (tachykinins in the bronchus, calcitonin gene-related peptide in the atria) released from sensory nerves. Ruthenium Red (10 μM for 20 min in the cases) selectively inhibited the responses produced by the administration of capsaicin, while leaving the responses to electrical field stimulation unaffected. Likewise, the bronchonconstrictor response to exogenous neurokinin A and the atrial positive inotropic response to calcitonin gene-related peptide were unaffected by Ruthenium Red. A prejunctional site of action Ruthenium Red was confirmed in release experiments where the dye strongly inhibited the capsaicin-evoked outflow of calcitonin gene-related peptide, which is taken as a marker of activation in sensory nerves. Together with other observations, these findings support the concept that there are two independent mechanisms for activating the ‘efferent’ function of sensory nerves, one of which is activated by capsaicin and is Ruthenium Red-sensitive but ω-conotoxin-resistant, while the other is activated by propagated action potentials (field stimulation) and is ω-conotoxin-sensitive and Ruthenium Red-resistant.