Gender-related differential effect of tachykinin NK2 receptor-mediated visceral hyperalgesia in guinea pig colon.

BACKGROUND AND PURPOSE: The tachykinin NK2 receptor antagonist ibodutant is under Phase III clinical investigation to treat female patients with irritable bowel syndrome. The aim of this study was to investigate the NK2 receptor-related gender specificity in a model of colitis. EXPERIMENTAL APPROACH: Colitis was induced by rectal instillation of 2,4,6-trinitrobenzenesulfonic acid (TNBS, 0.5 mL, 30 mg·mL(-1) in 30% ethanol) in female and male guinea pigs. Electromyographic recording of the responses to colorectal distension (CRD) was made 3 days later. Ibodutant (0.33 , 0.65, 1.9 and 6.5 mg·kg(-1) ) was given s.c., 30 min before CRD. Release of neurokinin A and substance P from isolated mucosal and smooth muscle tissues following treatment with KCl (80 mM) or capsaicin (10 µM) was measured by EIA. Plasma pharmacokinetics of ibodutant following a single s.c. administration (0.73 or 2.1 mg·kg(-1) ) were measured over 24 h. KEY RESULTS: Ibodutant did not affect abdominal contractions in control animals. After TNBS-induced colitis, ibodutant prevented the increased visceral hypersensitivity to CRD in females, at lower doses than in males. Ibodutant pharmacokinetics did not differ between females and males. Tachykinins release was greater in smooth muscle than in mucosal samples. Capsaicin-stimulated release of tachykinins from inflamed mucosal samples from females was significantly lower than in males. CONCLUSIONS AND IMPLICATIONS: Ibodutant prevented abdominal nociception in a model of visceral hypersensitivity in guinea pigs with a greater efficacy in females than in males. Our results highlight a gender-related difference in colonic visceral hypersensitivity and mucosal nerve activation.

Urodynamic effects induced by intravesical capsaicin in rats and hamsters.

This study compared the effect of acute intravesical capsaicin administration on transvesical cystometries in urethane-anesthetized rats and hamsters, and aimed to assess whether sensory neuropeptides (tachykinins; calcitonin gene-related peptide, CGRP) play a role in the urodynamic effects of capsaicin in these species. The following urodynamic parameters were evaluated: the mean micturition interval (MI), the pressure threshold for micturition (PT), and the mean amplitude of micturition contractions (MAC). Two concentrations of capsaicin (10 and 100 microM) were evaluated in both species. Here, we demonstrate that 10-microM capsaicin decreased the PT in both rats and hamsters, and 100-microM capsaicin decreased the PT in hamsters and decreased the MI in both species. In addition, 100-microM capsaicin increased the MAC in rats but decreased the MAC in hamsters. Administration of CGRP (10 nmol kg(-1) , i.v.) significantly decreased both MAC and PT in hamsters only, while capsaicin-induced desensitization of neuropeptide-containing afferents antagonized the urodynamic effects of intravesical capsaicin. In addition, administration of the tachykinin NK2 receptor antagonist, Nepadutant (100 nmol kg(-1), i.v.), reduced the effects of capsaicin (100 microM) only in rats. These results indicate that capsaicin induces bladder hyperactivity in both rats and hamsters, but the urodynamic characteristics of this hyperactivity markedly differ in these two species. The differences observed may be due to differential expression of sensory neuropeptides in capsaicin-sensitive bladder afferents or neuropeptide receptors in smooth muscle cells and in nerve fibers.

Pharmacological evaluation of the role of cyclooxygenase isoenzymes on the micturition reflex following experimental cystitis in rats.

Prostanoids, generated from cyclooxygenase (COX) isoenzymes, play a role in the physiological function of the lower urinary tract and are important mediators of inflammatory hyperalgesia. The present work evaluates the effects of the COX-1/COX-2 inhibitor dexketoprofen as well as of a selective COX-2 inhibitor, NS-398, on urodynamic function following endotoxin (LPS) or cyclophosphamide (CYP)-induced inflammation of the urinary bladder. The application of arachidonic acid (330 microgram rat(-1)) onto the serosal surface of the urinary bladder in control rats elicited bladder contractions which could be blocked in a dose-dependent manner by dexketoprofen (0.1 - 3 mg kg(-1), i.v.) but not by NS-398 (0.2 - 6 mg kg(-1), i.v. ). Dexketoprofen (3 mg kg(-1), i.v.) decreased the micturition frequency and increased the pressure threshold for triggering the micturition either when administered within 15 min or 3 h following surgery in control animals. NS-398 (6 mg kg(-1), i.v.) decreased the micturition frequency and increased the pressure threshold when administered 3 h but not 15 min following surgery. Administration of LPS (2 mg kg(-1), i.v., 90 - 120 min) increased both the micturition frequency and the pressure threshold for triggering the micturition reflex. Changes in urodynamic parameters induced by LPS were prevented by doses of either dexketoprofen (1 mg kg(-1), i.v.) or NS-398 (2 mg kg(-1), i.v.) which were ineffective in control animals. Pretreatment with CYP (150 mg kg(-1), i.p., 48 h) increased the micturition frequency, pressure threshold, and the minimal intravesical pressure but decreased the mean amplitude of micturition contractions. In CYP-treated rats, dexketoprofen (1 mg kg(-1), i.v.) or NS-398 (2 mg kg(-1), i.v.) blocked the CYP-induced urodynamic changes with exception of the micturition contraction amplitude. These results indicate that COX-1 may be involved in modulating the threshold for activating the micturition reflex in the normal rats and also demonstrates that inhibition of COX-2 prevents or reverses the urodynamic changes associated with bladder inflammation induced either by surgery, LPS or CYP treatments.

Multiple sites of action in the inhibitory effect of nociceptin on the micturition reflex.

PURPOSE: Nociceptin, the endogenous peptide ligand for the opioid receptor-like1 (ORL1) receptors, exerts a naloxone-resistant suppressant effect on micturition reflex after intravenous administration. This work aims to elucidate the mechanism and the site of action of the inhibitory effect of nociceptin on the micturition reflex. MATERIALS AND METHODS: The bladder of urethane-anesthetized rats was cannulated through the dome (cystometries) or the urethra in isovolumetric conditions (distension-induced reflex contractions, DIRCs). In this latter model, the effect of the application of nociceptin onto the serosal surface of the urinary bladder was determined. The effect of intravenous, intrathecal and intracerebroventricular administration of nociceptin on ongoing cystometries at two different infusion rates (50 and 250 microL/min.) was assessed. The effect of the intravenous administration of nociceptin on cystometries was also studied in capsaicin-pretreated animals. RESULTS: When cystometric recordings were obtained at a low infusion-rate (50 microL/min.), the intravenous administration of nociceptin (10 to 100 nmol./kg.) induced a dose-dependent reduction in the micturition frequency associated to an increase of the pressure threshold for activating the micturition reflex, whereas the amplitude of micturition contractions was unaffected. These effects faded within 60 minutes. The intracerebroventricular administration of nociceptin (0.3 nmol./rat) produced urodynamic changes similar to those observed after the intravenous route and, in addition, also reduced the amplitude of micturition contractions. The intrathecal administration of nociceptin up to 1 nmol./rat was ineffective. Capsaicin pretreatment (164 micromol./kg., s.c. 5 to 6 days before) significantly reduced the micturition frequency as compared with controls. In capsaicin pretreated animals intravenous nociceptin was ineffective. When cystometries were recorded at a high infusion-rate (250 microL/min.) either intravenous (100 nmol./kg.), i.t. (1 nmol./rat) nociceptin or capsaicin pretreatment had no effect. In contrast, intracerebroventricular nociceptin (0.3 and 1 nmol./rat) inhibited the micturition reflex by reducing both the frequency and the amplitude of micturition contractions: these effect were not modified by naloxone (0.5 micromol./kg., i.v.). The topical application of nociceptin (5 and 50 nmol./rat) caused a dose-dependent inhibition of DIRCs. CONCLUSION: Nociceptin inhibits the micturition reflex at a peripheral and at a supraspinal site. The effects observed after the intravenous administration of nociceptin indicate that the functional integrity of capsaicin-sensitive bladder afferents is required for exerting its inhibitory activity at the peripheral level. In contrast, the supraspinal effect of nociceptin involves both the afferent and the efferent pathways of the micturition reflex, possibly through a direct effect on ORL1 receptors located in the pontine micturition center.

Kinin B1 receptor-mediated motor responses in normal or inflamed rat urinary bladder in vivo.

The rat urinary bladder is one of the few in vivo preparations in which kinin B1 receptor-mediated contractile responses have been described, but the nature (local or reflex) of these responses has not been characterized. We have investigated the motor effects of i.v. or topical (onto the bladder serosa) administration of the selective kinin B1 receptor agonist [des-Arg9]-bradykinin ([des-Arg9]-BK) in the normal or inflamed (cyclophosphamide-induced) urinary bladder in urethane-anaesthetized rats. In both normal and inflamed bladders [des-Arg9]-BK produced a tonic contraction of low amplitude (< 15 mmHg) with phasic contractions of high amplitude (> or = 15 mmHg) superimposed (micturition reflex contractions). In inflamed bladders, the response to [des-Arg9]-BK was more prominent than in controls. Similar observations were made after the topical administration of [des-Arg9]-BK. In order to evaluate any time-dependency in the expression of B1 receptor-mediated bladder responses, [des-Arg9]-BK was administered in separate groups of control animals at 30 and 240 min after the completion of surgical procedures required for set-up of the preparation: no bladder contraction was detected at 30 min whereas both local and reflex contractions could be elicited by [des-Arg9]-BK at 240 min after the set up. In ganglionectomized rats, the response to [des-Arg9]-BK or the selective tachykinin NK2 receptor agonist [betaAla8]NKA(4-10) was evaluated at 30 and 240 min after the set up in inflamed or in control animals. The response to [des-Arg9]-BK was greater after inflammation although a time-dependent increase was evident in both groups; in contrast, the response to [betaAla8]NKA(4-10) was similar in both groups and remained constant over the observation period. After induction of inflammation, the tonic contraction induced by [des-Arg9]-BK in ganglionectomized rats was dose-dependently reduced by the kinin B1 receptor antagonist [desArg10]Hoe 140. The contractile response (number of micturition reflex contractions) induced by [des-Arg9]-BK in normal rats with intact pelvic nerves at 240 min from the set up was not changed after the administration of the selective B2 receptor antagonist Hoe 140. These results indicate that stimulation of bladder kinin B1 receptors evokes a local, tonic-type contraction with reflex contractions superimposed in both normal and inflamed bladders, but in the latter situation the motor responses are magnified.

Effect of dexamethasone on cyclophosphamide-induced cystitis in rats: lack of relation with bradykinin B1 receptor-mediated motor responses.

We investigated the role of bradykinin B receptors in inducing urinary bladder contraction and maintaining bladder compliance in anaesthetized rats following cyclophosphamide-induced bladder inflammation and the influence of dexamethasone treatment on these responses. In the group treated with cyclophosphamide the amplitude of the contraction induced by the selective bradykinin B1 receptor agonist des-Arg9-bradykinin was larger than that in controls and dexamethasone prevented the up-regulation of this response induced by inflammation. The specific binding of [3H]des-Arg10-kallidin to bladder membranes was only detected in cyclophosphamide-treated rats: this binding was prevented by dexamethasone pretreatment. The bladder contraction induced by des-Arg9-bradykinin in cyclophosphamide-treated rats was antagonized by the bradykinin B1 receptor antagonist des-Arg9-D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin (des-Arg10-Hoe 140). Cyclophosphamide treatment increased the bladder weight and dexamethasone reversed this effect. Bladder compliance was decreased in the bladder inflammation group and this effect was partially reversed by dexamethasone pretreatment. Neither des-Arg10-Hoe 140 nor the combined administration of des-Arg10Hoe 140 and the selective bradykinin B2 receptor antagonist D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin (Hoe 140) affected bladder compliance, thus excluding a role of kinins in the maintenance of bladder tone during inflammation. These results indicate that: (1) dexamethasone pretreatment ameliorates cyclophosphamide-induced bladder inflammation: (2) dexamethasone pretreatment prevents cyclophosphamide-induced up-regulation of bradykinin B receptors; (3) kinins do not contribute to the increased vesical tone during inflammation.

Effect of tachykinin NK2 receptor blockade on detrusor hyperreflexia induced by bacterial toxin in rats.

PURPOSE: To see whether a recently characterized model of bacterial toxin-induced urinary bladder inflammation (Stein et al., J. Urol. 155, 1133-1138, 1996) is associated with detrusor hyperreflexia, and whether endogenous tachykinins acting through NK2 or NK1 receptors were involved in this model. MATERIALS AND METHODS: The bladder of urethane-anesthetized male Wistar rats was cannulated through the dome. Intravesical administration of protamine sulfate (PS, 10 mg./ml./rat) or vehicle for 1 hour was followed by the intravesical administration of E. coli lipopolysaccharide (LPS, 1 mg./ml./rat) or vehicle for 1 hour. Cystometries (50 microl./min.) were performed 3.5 hours after the exposure to LPS. MEN 11,420, a peptide tachykinin NK2 receptor antagonist, was administered before cystometries or, in a separate group of animals, during cystometries. The effect of SR 140,333, a non-peptide NK1 receptor antagonist, was also assessed in the presence or absence of MEN 11,420. The urodynamic effects of PS + LPS were also tested in capsaicin-pretreated rats. RESULTS: Unlike PS or LPS alone, the intravesical administration of PS + LPS induced detrusor hyperreflexia. In PS + LPS treated animals during nonstop cystometries, the intermicturition interval was decreased by about 50% as compared to vehicle-pretreated rats. A quantitatively similar reduction in the bladder capacity was also observed. MEN 11,420 (100 nmol./kg., i.v.) restored the intermicturition interval in PS + LPS-pretreated rats at the level of controls by increasing the bladder capacity, whereas it had no effect in vehicle-pretreated rats. SR 140,333 (1 micromol./kg., i.v.) neither modified urodynamic parameters in controls and in PS + LPS-treated rats nor altered the effect of MEN 11,420 in these groups. Capsaicin pretreatment (164 micromol./kg., s.c., 4-5 days before) induced a two-fold increase of the bladder capacity in control rats and prevented PS + LPS-induced bladder hyperreflexia. CONCLUSIONS: The intravesical administration of PS + LPS produces the activation of capsaicin-sensitive afferents. Endogenous tachykinins released from these fibers act through NK2 receptors to induce detrusor hyperreflexia.

Pharmacodynamic profile of the new potent antibronchospastic agent 7-[(2,2-dimethyl)propyl]-1-methyl xanthine.

The pharmacodynamic profile of a new xanthine derivative, 7-[(2,2-dimethyl)propyl]-1-methyl xanthine (CAS 155006-67-0, MX2/120), was investigated in comparison with theophylline. The compound reduces in vitro the bronchospastic tone induced by carbachol or histamine in guinea-pig bronchi, with a potency 11 and 5 fold greater than theophylline, respectively. MX2/120 is significantly more active and long-lasting than theophylline in in vivo experiments toward spasmogens such as acetylcholine (ED50 over 5 h = 15 mumol/kg p.o. vs 230 mumol/kg p.o.) or histamine (ED50 over 5 h = 122 mumol/kg p.o. vs 500 mumol/kg p.o.) while being almost equiactive to theophylline toward antigen and capsaicin induced cough strokes. MX2/120, if administered by i.p. route reduces hyperresponsiveness to histamine induced by PAF and extravasation of protein into bronchoalveolar lavage fluid induced by capsaicin. These anti-inflammatory effects of MX2/120 are of similar extent when compared to theophylline. Unlike theophylline, MX2/120 up to 275 mumol/kg p.o. possesses little or no CNS excitatory effects in mice in terms of reduction of sleeping time induced by chlordiazepoxide, increase in mortality and convulsions induced by pentetrazol and increase in locomotor activity. This reduced neuroexcitatory action is probably related to its lack of affinity to adenosine receptors that could also explain the absence of effect on basal gastric secretion. Chronotropic effects of MX2/120 in conscious rats are similar to those of theophylline while the effects of both drugs on blood pressure are of minor extent. The overall pharmacodynamic properties of MX2/120 are superior to those of theophylline in relation to its antibronchospastic activity and lack of excitatory effects on CNS.

Influence of capsaicin-sensitive afferent fibers on acetic acid-induced chronic gastric ulcers in rats.

Accumulating evidence indicates that capsaicin-sensitive afferent fibers play a pivotal role in acute gastroprotection. However, whether they also influence healing of chronic gastric ulcers is still unknown. The effects of ablation of sensory neurons on acetic acid-induced chronic gastric ulcers in rats were investigated at morphologic and biochemical levels by computerized imaging analysis of the ulcerated area, histologic examination, and neuropeptide determination. Afferent nerve ablation, as a result of treating rats with a neurotoxic dose of capsaicin (50 + 50 mg/kg subcutaneously over 2 days), produced a significant increase in the ulcer area at 1 and 2 weeks after acetic acid injection. The delay in ulcer healing was associated with a marked and persistent decrease in tissue calcitonin gene-related peptide-like immunoreactivity, whereas gastric vasoactive intestinal polypeptide was unaffected by capsaicin pretreatment. Histologically, as compared with control rats, capsaicin-desensitized animals only differed in a slight increase in the inflammatory infiltrate during the early phase of ulcer formation. These findings suggest that capsaicin-sensitive afferent fibers may play a role in the healing of chronic experimental gastric ulcers in rats, but the underlying mechanisms remain to be elucidated and deserve further investigation.

Capsaicin-like effect of resiniferatoxin in the rat stomach.

Neurochemical and functional studies were performed to investigate and to compare the effects of resiniferatoxin and capsaicin in the rat stomach. Neonatal administration of resiniferatoxin (0.6-1.6 mumol/kg subcutaneously (s.c.)) produced a marked decrease in gastric calcitonin gene-related peptide-like immunoreactivity in both secretory and non-secretory region of the stomach. Almost complete depletion of the peptide was determined by neonatal administration of capsaicin (164 mumol/kg s.c.). Vasoactive intestinal polypeptide-like immunoreactivity was concomitantly unaffected by resiniferatoxin or capsaicin, thus showing the selectivity of action of the neurotoxins on gastric afferent fibers. Oral administration of an equimolar dose (0.3 nmol/kg) of resiniferatoxin or capsaicin together with 50% ethanol reduced at a similar extent gastric haemorrhagic lesions produced by the mucosal barrier-breaker agent. These findings provide evidence that resiniferatoxin and capsaicin may act on a common neuronal target in the rat stomach and that the acute exciting (protective) effect is of the same magnitude.

Adenosine inhibits action potential-dependent release of calcitonin gene-related peptide- and substance P-like immunoreactivities from primary afferents in rat spinal cord.

Electrical field stimulation (5 Hz) evoked a prompt outflow of calcitonin gene-related peptide- and substance P-like immunoreactivities (CGRP-LI and SP-LI, respectively) from superfused slices of the dorsal but not ventral half of the rat spinal cord. The evoked outflow was abolished by tetrodotoxin, calcium-free medium or previous exposure to capsaicin, indicating that it is produced through action potentials invading the central terminals of capsaicin-sensitive primary afferents. Adenosine as well as gamma-aminobutyric acid (GABA) or the GABAB receptor agonist (-)-baclofen produced a concentration-dependent inhibition of the evoked CGRP-LI outflow. Adenosine also inhibited the evoked SP-LI outflow. These findings demonstrate that inhibition of transmitter release from primary afferent neurons should be considered as a possible mechanism of the antinociceptive action of adenosine and adenosine analogs.

Cysteamine induced-duodenal ulcers are associated with a selective depletion in gastric and duodenal calcitonin gene-related peptide-like immunoreactivity in rats.

We have measured the endogenous levels of gastric and duodenal calcitonin gene-related peptide (CGRP)-, neurokinin A (NKA)-, galanin-vasoactive intestinal polypeptide (VIP)- and neuropeptide Y (NPY)-like immunoreactivity (li) in relation to cysteamine-induced gastric lesions and duodenal ulcers in rats. CGRP-li but not NKA-, galanin-, VIP- or NPY-li was decreased in gastric and duodenal samples following a single ulcerogenic dose of cysteamine (900 mg/kg p.o.). Temporal relationships of this phenomenon showed that CGRP-li was selectively decreased (stomach 45%, duodenum 68% as compared to controls, respectively after 24 h) concomitantly to the formation of acute gastric lesions and duodenal ulcers. Animals bearing healed ulcers 12 days after cysteamine, had gastroduodenal CGRP-li similar to control values. Pretreatment with the selective sensory neurotoxin capsaicin decreased gastroduodenal CGRP-li but not NKA-, galanin-, VIP- or NPY-li, showing that CGRP might be considered a marker of the afferent innervation of the gastroduodenal tract. The residual gastroduodenal CGRP-li levels in capsaicin-pretreated animals were not decreased by cysteamine administration, indicating that the effect of cysteamine is restricted to a peptide pool of primary afferent origin. Duodenal CGRP-li is selectively decreased by the duodenal ulcerogen cysteamine during the acute phase of ulcers formation and might be among the local mediators which afford protection against the ulcerogenic stimuli.

The effect of thiorphan on release of sensory neuropeptides from guinea-pig cerebral venous sinuses.

The effect of peptidase inhibitors on neuropeptide release from peripheral endings of capsaicin-sensitive sensory neurons was studied in cerebral superior sagittal and transverse sinuses of guinea-pig. Capsaicin (1 microM)-evoked release of substance P-like immunoreactivity (SP-LI) was increased in a concentration-dependent manner by thiorphan (0.1-10 microM). Captopril (10 microM) or a mixture of bestatin (10 microM), leupeptin (10 microM) and bacitracin (10 microM) did not affect the capsaicin-evoked SP-LI release. Thiorphan (10 microM) increased also the capsaicin-evoked release of neurokinin A-like immunoreactivity (TK-LI) and calcitonin gene-related peptide-like immunoreactivity (CGRP-LI) by 228% and 172%, respectively, while captopril (10 microM) was without effect. Thiorphan (10 microM), but not captopril (10 microM), enhanced by 239% CGRP-LI release induced by bradykinin (10 microM). In the cerebral venous vessels neutral endopeptidase (EC 3.4.24.11, NEP)-like activity was 58.8 +/- 6.1 pmol/mg protein/min, while angiotensin converting enzyme-like activity was below the detection limit of the assay. A thiorphan-sensitive mechanism, putatively attributable to NEP, plays a major role in the inactivation of peptides released from or acting on capsaicin-sensitive sensory fibres of cerebral venous sinuses of guinea-pig.

Effect of thiorphan on the response of guinea-pig isolated urinary bladder to exogenous and endogenous tachykinins.

Thiorphan, a well known inhibitor of 'enkephalinase' (endopeptidase 24.11) potentiated and prolonged the contractile response to substance P (SP) and neurokinin A (NKA) on strips of the guinea-pig isolated urinary bladder and this effect was evident both in presence and absence of the mucosal layer. Thiorphan also enhanced and prolonged the capsaicin-induced contraction in strips from the bladder dome which is thought to be mediated by release of endogenous tachykinins. Exposure to capsaicin produced simultaneous release of SP- and tachykinin-like immunoreactivity both in presence and absence of mucosa. This effect of capsaicin was potentiated by thiorphan. Endopeptidase 24.11 activity was detected in the guinea-pig urinary bladder, being more concentrated in the mucosal than the muscular layer. These findings indicate that endopeptidase 24.11 terminates the activity of tachykinins in the guinea-pig urinary bladder and modulates the intensity of the biological response produced after their release from peripheral endings of sensory nerves.