Prostanoids modulate reflex micturition by acting through capsaicin-sensitive afferents

Topical application of exogenous prostanoids (PGE2, TBX B2) on the serosal surface of the urinary bladder of urethane-anaesthetized rats activated reflex micturition. Likewise, intravesical instillation of PGE2 during the cystometrogram lowered the threshold for reflex micturition. Both effects were prevented by systemic capsaicin desensitization (50 mg/kg s.c., 4 days before). Indomethacin pretreatment and systemic capsaicin desensitization each increased the micturition threshold without affecting the amplitude of micturition contraction. However, the effect of the two treatments combined was not greater than the effect of either alone. These findings support the idea that endogenous prostanoids facilitate reflex micturition by stimulating or sensitizing, directly or indirectly, the subset of bladder mechanoreceptors which is capsaicin-sensitive in adult rats.     

Motor and inflammatory effect of hyperosmolar solutions on the rat urinary bladder in relation to capsaicin-sensitive sensory nerves

1. Intravesical administration of hyperosmolar NaCl or urea solutions produced a concentration-dependent stimulatory action on the micturition reflex in urethane-anesthetized rats. This effect was not modified in rats pretreated with capsaicin as adults (50 mg/kg s.c. 4 days before). 2. Hyperosmolar NaCl also produced Evans blue leakage (plasma extravasation) in the rat bladder. This effect was greatly reduced by extrinsic bladder denervation and in rats desensitized to capsaicin as newborns but not as adults. 3. Cumulative addition of NaCl produced a concentration-dependent increase in tone and biphasic effects on neurogenic contractions of the rat isolated bladder. These effects were not modified by in vitro capsaicin desensitization. 4. These findings do not support the idea that true osmoreceptors are present in the rat urinary bladder. The neurogenic component of the inflammatory response to hyperosmolar NaCl could involve activation of a subpopulation of bladder sensory fibers susceptible to the neurotoxic action of capsaicin in the early postnatal period only.     

Detrusor hyperreflexia induced by intravesical instillation of xylene in conscious rats.

Intravesical instillation of xylene (30-50%) produced detrusor hyperreflexia characterized by a decrease in both the bladder capacity (time to micturition in the cystometrogram) and the urine volume in conscious rats placed in a restraining cage. At this time, the bladder tissue showed evidence of experimental cystitis with degradation of the epithelium and edema and hemorrhage in the submucosa, and a slight increase in the content of prostaglandin E2, which stimulated directly and/or indirectly capsaicin-sensitive sensory fibers. In addition, the bladder exhibited high amplitude spontaneous activity, but the bladder contractions induced by acetylcholine, substance P, prostaglandin E2 and capsaicin were not changed following intravesical instillation of xylene. In these hyperreflexic rats, atropine suppressed the amplitude of the micturition contraction and morphine increased the bladder capacity at similar doses as in sham-treated rats, while thiopental and indomethacin increased the bladder capacity at lower doses than in sham-treated rats. These findings indicated that intravesical instillation of xylene had produced detrusor hyperreflexia in conscious rats, and that the detrusor hyperreflexia is thought to be a useful model for evaluating the effect of a newly-developed agent on bladder function.     

Excitatory and inhibitory urinary bladder reflexes induced by stimulation of cervicovaginal capsaicin-sensitive sensory fibers in rats

We have investigated the effect of intravaginal application of capsaicin on micturition reflex in female rats. Urinary bladder contractility was measured by transurethral pressure recording at isovolumetric and subthreshold conditions in anaesthetized rats. The intravaginal application of capsaicin (15 mug/50 mul rat) induced reproducible bladder phasic contractions, without desensitization upon repeated applications, that were blocked by intravenous atropine (1 mg/kg) or hexamethonium (5 mg/kg) and prevented by removal of paracervical ganglia or systemic capsaicin pretreatment (125 mg/kg, s.c.). The inhibition of sympathetic transmission by guanethidine (30 mg/kg, s.c.) produced significant increase of the bladder reflex contractions activated by intravaginal capsaicin. Intravenous administration of the TRPV1 antagonist, capsazepine (3 mg/kg), significantly reduced the excitatory reflex response to capsaicin. Intravaginal administration of capsaicin (15 mug/50 mul), during distension-induced reflex bladder contractions, produced a transient block of reflexes, unaffected by guanethidine pretreatment. In conclusion, the stimulation of capsaicin-sensitive sensory nerve endings in the rat cervix-vagina induced a dual excitatory or inhibitory bladder response in anaesthetized female rats depending on the degree of bladder distension.     

Capsaicin-sensitive mechanisms and experimentally induced duodenal ulcers in rats

The incidence and degree of cysteamine- or dulcerozine-induced duodenal ulcers are increased by systemic capsaicin desensitization (50 mg kg-1 s.c. 4 days before) in adult rats. Acute administration of capsaicin, but not neurokinins or CGRP, produced a small but distinct plasma extravasation (Evans blue leakage) in the rat proximal duodenum which was absent in capsaicin-pretreated rats. These findings indicate the existence of a capsaicin-sensitive 'duodenal defence mechanism' in rats.     

Functional evidence for the existence of a capsaicin-sensitive innervation in the rat urinary bladder

Capsaicin (0.03-3 microM) induces contractions of the rat isolated bladder which are unaffected by either atropine (3 microM) or tetrodotoxin (0.5 microM). In the presence of capsaicin (0.1 microM) an enhancement of field stimulation-induced contractions was observed. Capsaicin-desensitization did not modify the height of these. The neurogenic nature of the capsaicin-induced contractions was proved by the observation that 'chronic' (48 h) denervation prevented, while 'acute' (2 h) denervation did not modify the effect of capsaicin. Denervated bladders maintained their responsiveness to acetylcholine but not to field stimulation. Isolated bladders from rat pups (1-2 days old) did not respond to capsaicin while strong contractile responses to acetylcholine or field stimulation were obtained in these preparations. In bladders from two week old animals, capsaicin produced similar contractions to those observed in preparations from adult animals. The bladders from rats receiving a high dose of capsaicin (50 mg kg-1 s.c.) at birth were heavier than those of their age-matched, vehicle-treated controls. Isolated bladders from 2 month old animals pretreated with capsaicin at birth were unresponsive to capsaicin while responsiveness to acetylcholine, substance P or field stimulation was unaffected compared with that of vehicle-treated controls. These experiments provide evidence that a capsaicin-sensitive innervation exists in the rat urinary bladder which undergoes a postnatal development at end organ level.     

Capsaicin-sensitive afferents in the rat urinary bladder activate a spinal sympathetic cardiovascular reflex

Summary In urethane-anesthetized rats with an intact spinal cord, application of capsaicin on the outer surface of the urinary bladder produced a transient bradycardia, hypotension and negative cardiac inotropism which were neither prevented by i. v. atropine (0.5 mg/kg) nor by cervical vagotomy. In acute spinal rats (C2-C3) application of capsaicin (0.2 and 2 pg in 25 pl) on the urinary bladder induced a transient hypertension, tachycardia and positive cardiac inotropism. A second application (30 min later) induced minor cardiovascular effects, expecially with the higher dose, indicating desensitization. All cardiovascular responses to topical capsaicin were abolished by systemic capsaicin desensitization (50 mg/kg s. c., 4 days before). The excitatory cardiovascular response to capsaicin in acute spinal rats was markedly reduced by bilateral section of pelvic but not hypogastric nerves. Further, it was abolished by pretreatment with hexamethonium (20 mg/kg i.v.) or reserpine (5 mg/kg i. p., 2 days before) and reduced, at various extent for the different components, by phentolamine (0.5 mg/kg i. v.) or propranolol (1 mg/kg). In rats with pelvic and hypogastric nerves intact, section of the cord at a level (T12-L1), just above the medullary segments which receive primary afferent input from the bladder (L6-S1), abolished the excitatory cardiovascular response to application of capsaicin on the bladder. In spinal rats (C2-C3) rapid distension of the urinary bladder with saline produced transient tachycardia, hypertension and positive cardiac inotropism similar to that evoked by capsaicin. These responses were not observed in rats systemically pretreated with capsaicin. These findings indicate that certain bladder afferents which are susceptible to capsaicin desensitization in adult rats activate a spinal reflex having excitatory influence on cardiovascular function. This response is apparently mediated by spinal centers located above the site of entry of bladder pelvic afferents into the cord and most likely involves excitation of preganglionic sympathetic neurons in the spinal cord.Send offprint requests to S. Giuliani at the above address     

The effect of calcium free medium and nifedipine on the release of substance P-like immunoreactivity and contractions induced by capsaicin in the isolated guinea-pig and rat bladder

1. Capsaicin produced a prompt release of substance P-like immunoreactivity (SP-LI) from superfused mucosa-free muscle strips excised from the guinea-pig urinary bladder. A second application of capsaicin had no further effect, indicating desensitization. 2. Neither tetrodotoxin (1 microM) or nifedipine (10 microM) had any inhibitory effect on SP-LI release by capsaicin nor influenced the establishment of the desensitized state. Nifedipine produced per se some SP-LI release. 3. SP-LI release by capsaicin was abolished by incubation in a Calcium(Ca)-free medium containing EDTA (1.0 mM) which also afforded a partial protection toward desensitization. A lower EDTA concentration (0.1 mM) did not suppress SP-LI release by capsaicin but still inhibited desensitization. 4. When the concentration of CaCl2 in the medium was lowered to 1/10-1/100 of that present in normal Krebs solution, capsaicin still evoked a marked SP-LI release and desensitization occurred. In a nominally Ca free medium (maximal Ca concentration due to impurities was 6.7 microM) SP-LI release was still observed and desensitization was incomplete. 5. In a nominally Ca free medium, removal of Mg ions enhanced the SP-LI release induced by capsaicin and enhanced desensitization. 6. In functional studies, nifedipine greatly reduced or abolished the capsaicin- or SP-induced contraction of the rat or guinea-pig isolated bladder but did not prevent desensitization. Likewise, SP-LI depletion in the rat bladder following systemic capsaicin desensitization was not prevented by nifedipine pretreatment. On the other hand, the protective action of Ca free media (containing EDTA) was confirmed in organ bath studies (guinea-pig bladder). 7. These findings indicate that: (a) the requirements of extracellular calcium for activation of neuropeptide release from sensory nerves by capsaicin are very low; (b) both excitation of sensory fibers (SP-LI release) and desensitization are dependent upon the presence of extracellular calcium and (c) L-type voltage-sensitive Ca channels are not likely to be involved in the actions of capsaicin on sensory nerve terminals.     

Effects of resiniferatoxin desensitization of capsaicin-sensitive afferents on detrusor over-activity induced by intravesical capsaicin,acetic acid or ATP in conscious rats

Recent studies have provided evidence for a major role of urothelially released ATP acting on a subpopulation of pelvic afferent nerves in mechano-afferent transduction in the bladder. We investigated whether desensitization of capsaicin-sensitive nerve fibres by systemic resiniferatoxin (RTX)-pretreatment can counteract the detrusor over-activity induced by intravesical capsaicin, acetic acid or ATP. Cystometric investigations were performed on awake female Sprague-Dawley rats before and 24 h after injection of RTX (0.3 mg/kg s.c.) or vehicle. The effects of intravesically instilled ATP (0.1 or 1.0 mM), capsaicin (30 microM) or acetic acid (pH 4.0) were compared with those of intravesical saline. RTX, but not its vehicle, significantly increased threshold pressure, voiding interval, micturition volume and bladder capacity. In the vehicle-pretreated rats, intravesical instillation of capsaicin or acetic acid significantly decreased voiding interval, micturition volume, and bladder capacity. However, in the RTX-pretreated rats, neither capsaicin nor acetic acid affected any parameter. On the other hand, intravesical ATP (0.1 mM) significantly decreased voiding interval and micturition volume in both groups of animals. At 1.0 mM, ATP also increased basal pressure and decreased the pressure threshold for micturition in both groups. The present results support the view that increased extracellular ATP has a role in mechano-afferent transduction in the rat bladder and that ATP-induced facilitation of the micturition reflex is mediated, at least partly, by nerves other than capsaicin-sensitive afferent nerves.     

Species-related variations in the effects of capsaicin on urinary bladder functions: relation to bladder content of substance P-like immunoreactivity

Summary 1. The effect of capsaicin on bladder motility in vivo (urethane anaesthesia) and in vitro, plasma extravasation (Evans blue leakage technique) and content of substance P-like immunoreactivity (SP-LI) of the urinary bladder was investigated in various mammalian species. 2. Systemic capsaicin desensitization (rat and hamster, 50 mg/kg s.c. 4 days before; guinea-pig 55 mg/kg s. c. 4–7 days before) increased bladder capacity in rats and guinea-pigs and reduced voiding efficiency in guinea-pigs. All other urodynamic parameters were unaffected in both rats, guinea-pigs and hamsters. 3. Reflex bladder voiding was abolished by spinal cord transection in anaesthetized rats and hamsters. On the other hand, hexamethonium-(20 mg/kg i.v.)sensitive voiding contractions were obtained in response to saline filling 45 min from cord transection in guinea-pigs, indicating a profound interspecies variation in the basic organization of micturition. 4. Exposure to capsaicin (1 M) produced a contraction of the isolated bladder from rats, guinea-pigs (dome) and mice. Capsaicin produced only a slight contractile response in the guinea-pig bladder base. The motor response to capsaicin of the rat, guinea-pig and mouse bladder exhibited marked desensitization, suggesting a specific effect on sensory nerves. On the other hand, capsaicin (1 M) produced a slight relaxation of the hamster isolated bladder but this effect was reproducible at 1–2 h intervals, suggesting an unspecific effect. Capsaicin (1–10 M) did not affect motility of strips from the dome or the base of the rabbit bladder. 5. Intravenously administered capsaicin produced a marked plasma extravasation (Evans blue leakage) in the lower urinary tract of rats, mice and guinea pigs. In rats but not guinea-pigs the reaction in the bladder base was greater than in the dome. In hamsters intravenous capsaicin failed to induce any significant Evans blue leakage in the lower urinary tract. 6. SP-LI was detected in the lower urinary tract of rats, guinea-pigs, rabbits and mice but not hamsters. Bladder SP-LI was depleted by systemic capsaicin desensitization in rats, guinea-pigs and mice. Reverse phase HPLC indicated that all the immunoreactive material co-eluted with authentic substance P or its oxidized form. 7. These findings indicate that noticeable species-related differences exist with regard to the functions mediated by the Capsaicin-sensitive neurons in the urinary bladder. Send offprint requests to C. A. Maggi     

Vesico-inhibitory responses and capsaicin-sensitive afferents in rats

Summary (1) The effect of perineal pinching and distension of a balloon inserted into the colon on motility of the urinary bladder has been investigated in adult urethane-anesthetized rats pretreated with capsaicin (50 mg/kg s.c.) or its vehicle 4 days before the experiments. (2) At bladder volumes which were sufficient to elicit reflex micturition, perineal pinching or colonic distension transiently inhibited the ongoing bladder voiding contraction. The somato-vesical inhibitory response was markedly reduced or even abolished by division of pudendal nerves. Neither the somato-vesical nor the colovesical inhibitory response were modified by desensitization with systemically administered capsaicin. (3) Intraurethral administration of capsaicin produced a transient inhibition of the reflexly-activated bladder contractions. A second administration of the drug was less effective, indicating desensitization. Intravenously administered capsaicin had a similar inhibitory effect on bladder motility. (4) The vesico-inhibitory response produced by intraurethral administration of capsaicin was not affected by phentolamine, propranolol, guanethidine, picrotoxin or naloxone, while it was greatly reduced or even abolished by bilateral section of the pudendal nerves. (5) These findings provide evidence that capsaicin-sensitive chemoreceptors in the rat urethra are involved in generating a vesico-inhibitory response via pudendal nerves. On the other hand, no evidence was found for the participation of capsaicin-sensitive nerves in the generation of the somato- or colo-vesical inhibitory response. Send offprint requests to C. A. Maggi at the above address     

Neurogenic insulin resistance in guinea-pigs with cisplatin-induced neuropathy

The aim of the present work was to study whether neurotoxicity produced by cisplatin modified tissue insulin sensitivity in guinea-pigs. One week after selective sensory denervation of the anterior hepatic plexus by means of perineurial 2% capsaicin treatment, hyperinsulinaemic euglycaemic glucose clamp were performed to estimate insulin sensitivity in male guinea-pigs. The guinea-pigs underwent regional sensory denervation of the anterior hepatic plexus exhibited insulin resistance, whereas systemic capsaicin desensitization increased insulin sensitivity. Intraportal administration of L-nitro-arginine methyl ester (L-NAME decreased, whereas capsaicin increased insulin sensitivity. Neither atropine nor acetylcholine produced any significant effect. In animals with preceding regional capsaicin desensitization, none of the pharmacological maneuvers modified the resulting insulin resistant state. Cisplatin pretreatment induced sensory neuropathy and decreased insulin sensitivity. Insulin sensitivity did not change after either regional or systemic capsaicin desensitization in the cisplatin-treated animals. CGRP(8-37), a nonselective calcitonin gene-related peptide (CGRP) antagonist (50 microg/kg i.v.), significantly increased insulin sensitivity in normal animals but only a tendency to insulin sensitization was seen after cisplatin treatment. Cisplatin treatment, similar to regional capsaicin desensitization of the anterior hepatic plexus, produced a significant decrease in insulin-stimulated uptake of 2-deoxy-D [L-14C] glucose in cardiac and gastrocnemius muscle with no effect on percentage suppression of endogenous glucose production by hyperinsulinaemia. We conclude that the majority of cisplatin-induced insulin resistance is related to functional deterioration of the hepatic insulin sensitizing substance (HISS) mechanism.     

Nociceptin protects capsaicin-sensitive afferent fibers in the rat urinary bladder from desensitization

Chemical stimulation of primary afferent nerves in the rat urinary bladder in vivo with topical capsaicin (1 microg in 50 microl saline) determines a dual motor response, consisting of a contractile effect mediated by tachykinins released from sensory nerves in the bladder wall and a transient activation of a bladder-to-bladder micturition reflex organized at the supraspinal level (chemoceptive micturition reflex). Both responses undergo complete desensitization upon repeated applications of capsaicin. The i.v. administration of the novel neuropeptide nociceptin (100 nmol/kg) produced a long-lasting protection from capsaicin desensitization of afferent nerves which mediate the chemoceptive micturition reflex. In fact a chemoceptive micturition reflex could be repeatedly evoked by topical capsaicin in nociceptin-pretreated rats. In sharp contrast, nociceptin did not influence the development of desensitization of the local response to capsaicin, corresponding to the 'efferent' function of capsaicin-sensitive afferent neurons. These results suggest that the afferent and 'efferent' function of capsaicin-sensitive primary afferent neurons (CSPANs) in the rat bladder are differentiated by nociceptin. Alternative mechanisms underlying this phenomenon are discussed.     

Hepatic insulin sensitizing substance: a novel 'sensocrine' mechanism to increase insulin sensitivity in anaesthetized rats

1. We recently described the sensory nitrergic nature of the hepatic insulin sensitizing substance (HISS) mechanism linked to postprandial activation of anterior hepatic plexus fibres in rabbits. This study is designed to assess the involvement of the sensory pathways in this mechanism. 2. Selective sensory denervation of the anterior hepatic plexus (AHP) was achieved by a 3-day perineurial treatment with 2% capsaicin solution in Wistar rats (230-250 g). After 1 week, hyperinsulinaemic (100 micro U kg(-1)) euglycaemic (5.5 mmol kg(-1)) glucose clamp studies were performed to estimate insulin sensitivity. 3. The rats with regional AHP sensory denervation exhibited a significantly decreased insulin sensitivity, that is, 9.1+/-1.0 mg kg(-1) min(-1) glucose reinstalled euglycaemia vs 13.3+/-1.9 mg kg(-1) min(-1) glucose (P<0.01) in control rats. 4. Acute partial hepatic denervation by AHP cut was without effect on insulin sensitivity, whereas chronic hepatic denervation induced insulin resistance was similar to that achieved by regional AHP capsaicin treatment. 5. Intraportal administration of L-NAME (10 mg kg(-1)) decreased, whereas capsaicin (0.3 mg kg(-1) min(-1)) increased insulin sensitivity. Neither atropine (1 mg kg(-1)) nor acetylcholine (1-10 micro g mg min(-1)) produced any significant effect. In animals with preceding regional capsaicin desensitization, none of the pharmacological manoeuvres modified the resulting insulin-resistant state. 6. Cysteamine (200 mg kg(-1) s.c.) is known to cause functional somatostatin depletion-induced insulin resistance similar to that produced by either chronic partial hepatic denervation or perineurial AHP capsaicin desensitization. Intraportal capsaicin (0.3 mg kg(-1) min(-1)) was unable to modify insulin resistance achieved by cysteamine. 7. We conclude that capsaicin-sensitive sensory fibres play a crucial role in neurogenic insulin sensitization known as the HISS mechanism without involvement of anatomical reflex-mediated circuits. The results also suggest that HISS is identical to somatostatin of AHP sensory neural origin.     

Evidence for the involvement of bradykinin in chemically-evoked cystitis in anaesthetized rats

Summary The effect of Hoe 140, a potent bradykinin B2 receptor antagonist, on the micturition reflex and detrusor hyperreflexia induced by chemical cystitis has been investigated in anaesthetized rats. Hoe 140 (1–100 nmol/kg i. v.) produced a dose-dependent blockade of the contraction of the rat urinary bladder induced by i. v. administration of bradykinin (100 nmol/kg) without affecting the response produced by the selective tachykinin NK-1 receptor agonist, [Sar⁹] substance P (SP) sulfone (1 nmol/kg i. v.). At doses which produce selective and long-lasting blockade of bradykinin receptors in the urinary bladder, Hoe 140 did not modify urodynamic parameters in normal rats.Intravesical instillation of xylene in female rats decreased bladder capacity and increased micturition frequency. These effects also occurred in rats pretreated with capsaicin as adults. Hoe 140 did not modify xylene-induced cystitis. Intraperitoneal administration of cyclophosphamide (150 mg/kg, 48 h before) decreased bladder capacity and increased micturition frequency. These effects of cyclophosphamide were abolished in rats pretreated with capsaicin as adults. Hoe 140 increased bladder capacity and decreased micturition frequency in rats pretreated with cyclophosphamide.Addition of bradykinin (10 µmol/l) to the medium in the superfused rat urinary bladder preparation evoked a prompt increase in the outflow of calcitonin gene-related peptide like immunoreactivity (CGRP-LI). Hoe 140 (3 µmol/l) inhibited (by about 50%) the CGRP-LI outflow stimulated by bradykinin.These findings demonstrate the participation of bradykinin, through 132 receptors, in the genesis of detrusor hyperreflexia during cyclophosphamide-induced cystitis. Capsaicin-sensitive primary afferent neurons are a likely target for Hoe 140 action in this model of experimental cystitis, as exemplified by its ability to prevent CGRP-LI outflow by bradykinin.Correspondence to C. A. Maggi at the above address     

Capsaicin-like activity of some natural pungent substances on peripheral endings of visceral primary afferents

Summary 1. The effects of some naturally occurring pungent substances, piperine, mustard oil, eugenol and curcumin, were compared to those of capsaicin in the rat isolated urinary bladder. 2. All test compounds dose-dependently contracted the rat bladder and produced desensitization toward capsaicin (1 mol/l). Development of cross-tachyphylaxis among the natural pungent substances on one hand and capsaicin on the other, suggested a common site of action on visceral primary afferents. 3. Contractile responses to piperine, mustard oil and eugenol were partially tetrodotoxin and ruthenium red-sensitive, suggesting that activation of sensory terminals by these agents takes place indirectly, as well as by a direct action on sensory receptors. 4. The presence of the secondary acylamide linkage (present in the backbone of capsaicin, but not in that of test compounds) does not appear to be essential to produce desensitization of sensory nerve terminals. Send offprint requests to R. Patacchini at the above address     

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.     

Visceromotor responses to calcitonin gene-related peptide (CGRP) in the rat lower urinary tract: evidence for a transmitter role in the capsaicin-sensitive nerves of the ureter

Either intra-arterial or topical administration of calcitonin gene-related peptide (CGRP) had little effect on motility of the urinary bladder in urethane-anaesthetized rats. Only a high concentration (50 microM) of topical CGRP activated the micturition reflex and potentiated the response to exogenous substance P (SP). In the isolated rat bladder CGRP had inconsistent effects on spontaneous or field-stimulated contractions. CGRP neither produced any significant plasma extravasation (Evans blue leakage) in the rat lower urinary tract, nor potentiated the response to exogenous SP. CGRP inhibited motility in the rat isolated proximal urethra and ureters and counteracted the contractile response to neurokinins. An inhibitory effect of capsaicin on stimulated motility of the urethra was observed in all preparations and a small contractile response was evident in about 40% of cases. Lack of desensitization to the action of CGRP prevented the study of its interaction with capsaicin. The inhibitory effect of CGRP in the ureter exhibited a specific desensitization: if the preparations were pre-exposed to exogenous CGRP, the inhibition of motility produced by antidromic activation of the capsaicin-sensitive nerve terminals (field stimulation) as well as the response to capsaicin (1 microM) was prevented but the inhibitory response to isoprenaline was unaffected. These findings indicate that CGRP is able to influence markedly the motility of the rat lower urinary tract, but exhibits marked regional differences in its action. Endogenous CGRP could be the inhibitory transmitter which, when released from capsaicin-sensitive fibers, participate in the control of ureteral motility.     

Functional and fine structural characteristics of the sensory neuron blocking effect of capsaicin

Summary In the eye of rats the long-lasting specific desensitization induced by local or systemic capsaicin treatment is characterized by three phases: 1. complete insensitivity, 2. decreased sensitivity and a tendency to rapid adaptation, 3. normal initial sensitivity with a tendency to rapid adaptation to chemical pain stimuli. A low density of microvesicles and swollen mitochondria were found after local capsaicin treatment in certain nerve endings of the cornea of rats, but no signs of axonal degeneration or alteration in fine structure of non-neural elements were seen. Systemic capsaicin desensitization induced selective mitochondrial swelling in B type of neurons of the trigeminal ganglion which was demonstrable even 60 days after the pretreatment. Actinomycin-D, 8-azaguanine, 6-azauracil, aminopterin, mannomustin or cycloheximide in high doses did not alter the desensitizing effect of systemic capsaicin treatment. However, pretreatment of rats with colchicine or vinblastine prolonged the desensitizing effect of local capsaicin application, probably by inhibiting the axonal flow. It is concluded that capsaicin is a specific sensory neuron blocking agent having a practically irreversible effect in rats and guineapigs.     

MEN 11,420, a peptide tachykinin NK2 receptor antagonist, reduces motor responses induced by the intravesical administration of capsaicin in vivo

This study investigates the role of tachykinin NK₁ and NK₂ receptors in motor responses induced by the intravesical instillation of capsaicin in urethane-anaesthetized rats. SR 140,333 (1 μmol/kg, i.v.), a non-peptide NK₁ receptor antagonist, abolished urinary bladder contractions induced by the selective NK₁ receptor agonist [Sar⁹]SP-sulfone (0.1-100 nmol/kg, i.v.) without affecting those induced by the NK₂ receptor agonist [?Ala⁸]NKA(4-10). MEN 11,420 (100 nmol/kg, i.v.), a cyclic peptide NK₂ receptor antagonist, abolished bladder contractions induced by [?Ala⁸]NKA(4-10) (0.3-300 nmol/kg, i.v.) without modifying those induced by [Sar⁹]SP-sulfone. Intravesical instillation of capsaicin (6 nmol/0.6 ml/rat) produced a motor response consisting in a primary contraction followed by a series of high amplitude phasic contractions. The intravesical instillation of saline (0.6 ml/rat) produced a primary contraction of lower amplitude with respect to that induced by capsaicin and the total area under the curve was also lower in saline-instilled rats, however the number and the amplitude of phasic contractions was similar to that induced by capsaicin. MEN 11,420 (100 nmol/kg, i.v.) did not modify motor responses induced by the intravesical administration of saline. In contrast, in capsaicin-instilled rats, MEN 11,420 (100 nmol/kg, i.v.) reduced the primary contraction, the area under the curve and also the number of phasic contractions. SR 140,333 (1 μmol/kg, i.v.) reduced the primary contraction but not other parameters. The combination of SR 140,333 (1 μmol/kg, i.v.) and MEN 11,420 (100 nmol/kg, i.v.) produced an additive inhibitory effect on the primary contraction but not a further inhibition on other parameters with respect to that observed with MEN 11,420 alone. In hexamethonium (110 μmol/kg, i.v.)-pretreated animals the intravesical instillation of capsaicin produced a tonic contraction having greater amplitude and area than that induced by saline. MEN 11,420, but not SR 140,333, significantly reduced the bladder response to capsaicin in hexamethonium-pretreated rats. Again, the combined administration of MEN 11,420 and SR 140,333 did not produce further inhibitory effect in comparison to MEN 11,420 alone. It is concluded that the motor responses induced by the intravesical instillation of capsaicin are mediated by the activation of peripheral tachykinin NK₂ receptors. Received: 11 February 1997 / Accepted: 17 April 1997