Luigi Abelli

Cutaneous lesions in capsaicin-pretreated rats. A trophic role of capsaicin-sensitive afferents?

Summary1. The time course and regional distribution of ‘spontaneous’ cutaneous lesions in rats desensitized to capsaicin as newborns was correlated to behavioural observations and regional distribution of substance P-like immunoreactivity (SP-LI) and tachykinin-like immunoreactivity (TK-LI) in various skin areas. 2. ‘Spontaneous’ skin lesions in the form of wounds, scabs and areas of alopecia were observed in 80–90% of rats desensitized to capsaicin. No major sex-related differences were observed with regard to incidence and distribution of the lesions with the possible exception of a lesser tendency to bilateral lesions in female rats. 3. ‘Spontaneous’ skin lesions were almost restricted to the head: the areas most frequently affected were snouts, periocular and retroauricular regions and ventral area of the neck. 4. No major differences were observed between capsaicin- or vehicle-treated animals in spontaneous or novelty-induced grooming as well as in open-field gross behaviour. Likewise, no differences were observed in the mouse-killing behaviour. 5. Both SP-LI and TK-LI in various skin areas were significantly reduced by systemic capsaicin pretreatment. The rank order of various skin areas for SP-LI or TK-LI levels was: snouts > thigh > neck > abdomen ≃ retroauricular region. 6. Intradermal injection of Arg-neurokinin B, a potent and water soluble derivative of neurokinin B, produced a similar plasma extravasation (Evans blue leakage technique) in the skin of vehicle- or capsaicin-pretreated rats. 7. In capsaicin-desensitized rats fur regrowth (measured at abdominal level, 28 days after shaving) was significantly less than in vehicle-treated animals. 8. The s. c. injection of 1 N HCl in the dorsal thoracic region (an area devoid of ‘spontaneous’ lesions in capsaicin-desensitized animals) produced cutaneous ulcers whose area and depth were greater in capsaicin- than vehicle-treated rats. 9. These findings are consistent with the hypothesis that capsaicin-sensitive nerves play a trophic role in the rat skin and contribute to its ability to react and repair injuries. The most consistent explanation for the restricted localization of ‘spontaneous’ skin lesions to the head seems to be that ‘normal’ injurious factors (such as grooming) operate on a distrophic skin to induce lesions by repeated microtrauma.

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.

The contribution of capsaicin-sensitive sensory nerves to xylene-induced visceral pain in conscious, freely moving rats

Summary1.Intravesical instillation of xylene (10–100%, dissolved in silicone oil) through a catheter implanted into the bladder of conscious, freely-moving rats produced behavioural effects (licking of lower abdomen or perineal region) suggestive of intense visceral pain, not mimicked by topical application of the irritant on the urethral outlet.2.The xylene-induced visceral pain was prevented, to the same extent, by systemic desensitization to capsaicin (50 mg/kg s.c.) performed in either adult or newborn rats, as well as by extrinsic bladder denervation (pelvic ganglionectomy), thus indicating the involvement of primary afferents in the bladder wall.3.Other behavioural responses induced by xylene instillation into the bladder (hind limb hyperextension, grooming) were not affected by systemic capsaicin desensitization in either adult or newborn rats, but were abolished by bladder denervation.4.Systemic capsaicin desensitization produced an almost complete depletion of substance P-, neurokinin A-like and calcitonin gene-related peptide-like immunoreactivity in the rat urinary bladder.5.These findings indicate that, in addition to their role in activating reflex micturition, the neuropeptides-containing capsaicin-sensitive sensory nerves of the rat bladder are involved in chemogenic visceral pain.

Regional differences in the effects of capsaicin and tachykinins on motor activity and vascular permeability of the rat lower urinary tract

Summary1. The effects of capsaicin, substance P (SP) and neurokinin A (NKA) on motor activity and vascular permeability was investigated in the rat lower urinary tract (bladder dome and neck, proximal urethra and ureters). 2. Capsaicin produced contractions of the rat bladder dome and neck and of the proximal urethra in vitro, which were unaffected by tetrodotoxin and abolished by ganglionectomy. SP and NKA were almost equipotent in producing a contraction of the rat isolated bladder dome or neck and urethra. However, the maximal response to NKA was about twice that of SP on the urethra and bladder neck. 3. Capsaicin did not affect motility of the unstimulated rat isolated ureter, while NKA or SP activated rhythmic contractions, NKA being about 850 times more potent than SP. Either capsaicin or field stimulation produced a transient inhibition of the NKA-activated rhythmic contractions of the rat isolated ureter which was prevented by capsaicin-desensitization. 4. The capsaicin-(1 μM) or field stimulation-induced inhibition of NKA-activated rhythmic contractions of the rat isolated ureter were unaffected by removal of pelvic ganglia but abolished by cold storage (72 h at 4°C). 5. Intravenous capsaicin induced an inflammatory response (Evans blue leakage) in the bladder, proximal urethra and ureters in vivo. Plasma extravasation was greater in the ureters, urethra and bladder neck than in the dome. SP, NKA and histamine produced a dose-dependent dye leakage in all segments of the rat urinary tract, the response being slightly greater in the bladder neck than in the dome. 6. The capsaicin-induced inflammatory response was abolished by systemic capsaicin-desensitization and reduced, to a variable extent, by pelvic ganglionectomy, in the various tissues examined. Topical application of tetrodotoxin on the bladder dome failed to affect the capsaicin-induced plasma extravasation in the urinary bladder. 7. These findings indicate that chemoceptive, capsaicin-sensitive nerves are present throughout the whole rat lower urinary tract and their activation determines a variety of visceromotor responses and an increase of vascular permeability. In various instances the response to capsaicin may be explained by the action of tachykinins but some effects may involve other sensory neuropeptides.

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

Summary1. 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 μM) 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 μM) 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 μM) 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.

Further studies on the mechanisms of the tachykinin-induced activation of micturition reflex in rats: evidence for the involvement of the capsaicin-sensitive bladder mechanoreceptors

The relative ability of substance P, neurokinin A, neurokinin B and kassinin to activate the micturition reflex was investigated in urethane-anaesthetized rats. When administered topically neurokinin A, neurokinin B and kassinin were 14, 36 and 280 times, respectively, more potent than substance P to activate micturition. On the other hand substance P, neurokinin A and kassinin were practically equipotent (and neurokinin B was about 3-4 times less potent than substance P) to stimulate the contraction of the rat isolated bladder and to potentiate the contractions induced by electrical field stimulation. This indicates that neither a direct action on muscle cells nor a potentiating effect on efferent neurotransmission can account for the rank order of potency of tachykinins for activation of the micturition reflex. The ability of topical tachykinins to activate the micturition reflex was largely impaired in 2 months old rats pretreated with capsaicin (50 mg/kg s.c.) on their second day of life, indicating that integrity of the capsaicin-sensitive bladder mechanoreceptors is essential for the production of this effect. These findings indicate that an NK-B receptor, possibly located on sensory nerves in the bladder wall, participates in the tachykinin-induced activation of reflex micturition.

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.

A Method for Studying Pain Arising from the Urinary Bladder in Conscious, Freely-Moving Rats

A new technique has been developed suitable for quantitative studies on physio-pharmacology of pain arising from the urinary bladder in conscious freely-moving rats. The method involves the intravesical instillation of xylene or its vehicle (0.3 cc of silicone oil) through a catheter chronically implanted into the rat bladder. The instillation of xylene (10 to 100%) produced behavioural effects (licking of lower abdomen or perineal region, hind paws hyperextension) suggestive of visceral pain. All the behavioural responses produced by xylene instillation were prevented by extrinsic bladder denervation (pelvic ganglionectomy). Morphine HCl (two to five mg./kg. s.c., 30 min. before) or (+/-)-baclofen (2.5-10 mg./kg. s.c., 60 min. before) reduced or abolished the response to xylene instillation, thus indicating that the action of analgesic drugs can be quantitated using the present model.

The motor effect of the capsaicin-sensitive inhibitory innervation of the rat ureter

Neurokinins activate a series of tetrodotoxin (TTX)-insensitive rhythmic contractions of the rat isolated ureter. Field stimulation or capsaicin (1-3 microM) produced a transient inhibition of neurokinin-activated ureteral motility in preparations from control but not from capsaicin-pretreated (50 mg/kg s.c.) rats. The inhibitory action of field stimulation but not that of capsaicin was prevented by TTX. It is concluded that a capsaicin-sensitive inhibitory innervation exists in the rat ureter.

In vivo pharmacology of [βAla8]neurokinin A-(4-10), a selective NK-2 tachykinin receptor agonist

We studied the effect of [beta Ala8]neurokinin A-(4-10), a newly developed selective NK-2 tachykinin receptor agonist, on various parameters in anaesthetized rats (blood pressure, urinary bladder motility, plasma extravasation) and guinea-pigs (salivation, increase of pulmonary insufflation pressure) as compared to the response produced by tachykinins. [beta Ala8]Neurokinin A-(4-10) was as active as, or more active than, neurokinin A (NKA) or NKA-(4-10) in producing rat bladder contraction or bronchospasm in guinea-pigs, two effects known to involve activation of NK-2 receptors. On the other hand, the synthetic peptide was weakly active, if active at all, in producing hypotension or plasma extravasation in the rat bladder as well as salivation in guinea-pigs, effects known to involve activation of NK-1 receptors. These findings provide evidence that [beta Ala8]NKA-(4-10) acts as a selective NK-2 agonist in vivo and that it can be used to explore the distribution and function of NK-2 receptors.