Triton X-100 as a specific inhibitor of the mammalian NADH-ubiquinone oxidoreductase (Complex I)

Triton X-100 inhibits the NADH oxidase and rotenone-sensitive NADH-Q1 reductase activities of bovine heart submitochondrial particles (SMP) with an apparent Ki of 1x10-5 M (pH 8.0, 25 degrees C). The NADH-hexammineruthenium reductase, succinate oxidase, and the respiratory control ratio with succinate as the substrate in tightly coupled SMP are not affected at the inhibitor concentrations below 0.15 mM. The succinate-supported aerobic reverse electron transfer is less sensitive to the inhibitor (Ki=5x10-5 M) than NADH oxidase. Similar to rotenone, limited concentrations of Triton X-100 increase the steady-state level of NAD+ reduction when the nucleotide is added to tightly coupled SMP oxidizing succinate aerobically. Also similar to rotenone, Triton X-100 partially protects Complex I against the thermally induced deactivation and partially activates the thermally deactivated enzyme. The rate of the NADH oxidase inhibition by rotenone is drastically decreased in the presence of Triton X-100 which indicates a competition between these two inhibitors for a common specific binding site. In contrast to rotenone, the inhibitory effect of Triton X-100 is instantly reversed upon dilution of the reaction mixture. The NADH-Q1 reductase activity of SMP is inhibited non-competitively by added Q1 whereas a simple competition between Q1 and the inhibitor is seen for isolated Complex I. The results obtained show that Triton X-100 is a specific inhibitor of the ubiquinone reduction by Complex I and are in accord with our previous findings which suggest that different reaction pathways operate in the forward and reverse electron transfer at this segment of the mammalian respiratory chain.

The posterior nasal nerve plays an important role on cardiopulmonary reflexes to nasal application of capsaicin, distilled water and l-menthol in anesthetized dogs

The sensory innervation of the cardiopulmonary reflexes to nasal application of capsaicin (CAPS), distilled water (DW) and l-menthol (LM) was studied in anesthetized dogs breathing through tracheostomy. A marked cardiopulmonary reflex was observed by CAPS and DW into the nasal cavity, while a prolongation of expiration was induced by LM. All these reflexes were significantly decreased by bilateral section of the posterior nasal nerve (PNN) and completely abolished by topical nasal anesthesia with lidocaine. Responses of the whole nerve activity of the PNN to these substances corresponded to the magnitude of the reflexes. These results indicate that PNN afferents play an important role on the reflex elicitation of the noxious, water and cold stimuli from the nasal cavity.

Contribution of the hyperpolarization-activated current to the resting membrane potential of rat nodose sensory neurons

1. The voltage- and time-dependent characteristics of the hyperpolarization-activated current (IH) and its contribution to the resting membrane potential of neonatal rat nodose sensory neurons were investigated using the whole-cell tight seal method of voltage and current clamp recording. 2. IH was found in all neonatal nodose neurons in vitro, contrary to previous reports where its presence was particular for A-type neurons. We used the presence of both tetrodotoxin-sensitive (TTX-S) and tetrodotoxin-resistant (TTX-R) sodium currents to distinguish C- from A-type neurons (TTX-S only). We obtained further support for the presence of IH in C-type neurons with experiments in which IH was demonstrated in a subset of neurons sensitive to capsaicin. 3. In both groups IH activated at potentials negative to -50 mV, developed slowly with time and was inhibited by 1-5 mM extracellular caesium. At -120 mV, IH activated with a fast time constant of 73 +/- 3 ms in A-type neurons and 163 +/- 37 ms in C-type neurons (P < 0.05). A second, slower time constant of 682 +/- 83 ms was observed in A-type neurons and 957 +/- 122 ms in C-type neurons. 4. A- and C-type neurons differed in the amplitude of IH. The mean magnitude of IH at -110 mV was -2338 +/- 258 pA in A-type neurons but only -241 +/- 40 pA (P < 0.001) in C-type neurons. This disparity persisted when currents were normalized for capacitance. The reversal potentials for IH were -39 +/- 4 mV for A-type neurons and -37 +/- 5 mV for C-type neurons (P > 0.05). 5. During current clamp recording IH caused time-dependent rectification in response to hyperpolarizing current injections from the resting membrane potential. CsCl abolished the rectification and hyperpolarized the resting potential of A-type neurons from -55 +/- 3 mV to -61 +/- 4 mV and C-type neurons from -62 +/- 2 mV to -71 +/- 3 mV. Taken together, the results in these studies indicate that IH contributes to the resting membrane potential in all nodose neurons.

Effect of omega-conotoxin GVIA and omega-agatoxin IVA on the capsaicin-sensitive calcitonin gene-related peptide release and autoregulatory vasodilation in rat pial arteries

This study assesses the effect of neuronal voltage-sensitive Ca2+ channel blockers, omega-conotoxin GVIA (CTX), and omega-agatoxin IVA (AgTX) on the vasodilation and release of calcitonin gene-related peptide (CGRP), both of which were induced by either application of capsaicin or acute stepwise hypotension. Changes in pial arterial diameter were determined directly through a closed cranial window. The vasodilation of pial artery induced by either CGRP (0.1 micromol/L) or capsaicin (0.3 micromol/L) was significantly inhibited by CGRP(8-37) (0.1 micromol/L) (P < 0.05 and P < 0.05, respectively). The autoregulatory vasodilation to acute stepwise hypotension was severely attenuated by pretreatment with either CTX or AgTX. When the hypotension was kept for 2, 4, and 10 minutes, the releasable CGRP-like immunoreactivity (CGRP-LI) level (vehicle, 13.4+/-1.5 fmol/mm2/30 min) by 10 micromol/L capsaicin from the isolated pial arteries was significantly reduced in the 4- and 10-minute hypotension groups (11.3+/-1.2 fmol/mm2/30 min, P < 0.05, and 11.1+/-1.5 fmol/mm2/30 min, P < 0.05, respectively), but not in 2-min group. Moreover, the CGRP-LI level released by 10 micromol/L capsaicin (13.7+/-0.9 fmol/mm2/30 min) also was significantly depressed by pretreatment with 1 micromol/L CTX to 10.4+/-1.0 fmol/mm2/30 min (P < 0.01) and with 0.1 micromol/L AgTX to 8.7(1.7 fmol/mm2/30 min (P < 0.001), as well as by pretreatment with 10 micro-mol/L capsaicin (6.0+/-1.6 fmol/ mm2/30 min, P < 0.001). These results suggest that the neuronal N- and P-type voltage-sensitive Ca2+ channels are implicated in the release of CGRP from capsaicin-sensitive perivascular sensory nerves in response to acute hypotension, and that the released CGRP may contribute to the autoregulatory vasodilation in the cerebral microcirculation.

Neurogenic plasma leakage in mouse airways

1. This study sought to determine whether neurogenic inflammation occurs in the airways by examining the effects of capsaicin or substance P on microvascular plasma leakage in the trachea and lungs of male pathogen-free C57BL/6 mice. 2. Single bolus intravenous injections of capsaicin (0.5 and 1 micromol kg(-1), i.v.) or substance P (1, 10 and 37 nmol kg(-10, i.v.) failed to induce significant leakage in the trachea, assessed as extravasation of Evans blue dye, but did induce leakage in the urinary bladder and skin. 3. Pretreatment with captopril (2.5 mg kg(-1), i.v.), a selective inhibitor of angiotensin converting enzyme (ACE), either alone or in combination with phosphoramidon (2.5 mg kg(-1), i.v.), a selective inhibitor of neutral endopeptidase (NEP), increased baseline leakage of Evans blue in the absence of any exogenous inflammatory mediator. The increase was reversed by the bradykinin B2 receptor antagonist Hoe 140 (0.1 mg kg(-1), i.v.). 4. After pretreatment with phosphoramidon and captopril, capsaicin increased the Evans blue leakage above the baseline in the trachea, but not in the lung. This increase was reversed by the tachykinin (NK1) receptor antagonist SR 140333 (0.7 mg kg(-1), i.v.), but not by the NK2 receptor antagonist SR 48968 (1 mg kg(-1), i.v.). 5. Experiments using Monastral blue pigment as a tracer localized the leakage to postcapillary venules in the trachea and intrapulmonary bronchi, although the labelled vessels were less numerous in mice than in comparably treated rats. Blood vessels of the pulmonary circulation were not labelled. 6. We conclude that neurogenic inflammation can occur in airways of pathogen-free mice, but only after the inhibition of enzymes that normally degrade inflammatory peptides. Neurogenic inflammation does not involve the pulmonary microvasculature.

Effects of intravesical capsaicin and resiniferatoxin on distension-induced bladder contraction in conscious rats with and without chronic spinal cord injury

PURPOSE

To compare conscious, normal rats and rats with chronic spinal cord injury (CSI) in terms of the rhythmic bladder contractions (RBCs) induced by intravesical infusion of saline, and to determine how these contractions are influenced by intravesical capsaicin and resiniferatoxin.

MATERIALS AND METHODS

Female Sprague-Dawley rats, normal or with spinal transection at the level of Th8-Th9, were investigated cystometrically under isovolumetric conditions before and after intravesical administration of capsaicin or resiniferatoxin.

RESULTS

Spinal transection induced a significant increase in bladder weight. In both control and CSI animals, intravesical saline instillation induced reproducible RBCs that could be blocked by hexamethonium. Four weeks after the transection, the CSI animals had a significantly larger threshold volume than the controls, even after correction for bladder weight. The mean amplitude and duration of the RBCs did not differ between the two groups, but the frequency was significantly lower in CSI animals. Both capsaicin (0.1 and 1 mM) and resiniferatoxin (1 and 10 microM), instilled intravesically, were found to inhibit RBCs in both normal and CSI rats. There were no qualitative differences in the response to the drugs between the two groups. However, resiniferatoxin was approximately 100 times more potent than capsaicin.

CONCLUSION

Capsaicin and resiniferatoxin inhibited RBCs in both normal and CSI rats, suggesting that activity in sensory fibers (C and Adelta), which are sensitive to the action of these drugs, is initiated by bladder filling in both types of rat.

Anandamide transport inhibition by the vanilloid agonist olvanil

The structural similarities between the anandamide transport inhibitor N-(4-hydroxyphenyl)-arachidonylamide (AM404) and the synthetic vanilloid agonist olvanil [(N-vanillyl)-9-oleamide], prompted us to investigate the possibility that olvanil may interfere with anandamide transport. The intracellular accumulation of [3H]anandamide by human astrocytoma cells was prevented by olvanil with a Ki value of 14.1+/-7.1 microM. By contrast, capsaicin [(8-methyl-N-vanillyl)-6-noneamide], a plant-derived vanilloid agonist, and capsazepine (N-[2-(4-chlorophenyl)ethyl]-1,3,4,5-tetrahydro-7,8-dihydroxy-2 H-2-benzazepine-2-carbothioamide), a vanilloid antagonist, had no such effect (Ki > 100 microM). These results indicate that, although less potent than AM404 (Ki 2.1+/-0.2 microM), olvanil may reduce anandamide clearance at concentrations similar to those needed for vanilloid receptor activation.

Neurokinin type-1 receptor antagonist inhibits enhancement of T cell functions by substance P in normal and neuromanipulated capsaicin-treated rats

Substance P (SP) plays a major role in the regulation of the interaction between immune and nervous systems. SP administration stimulates Con A-induced proliferation of spleen and peripheral blood lymphocytes from normal and neonatally capsaicin treated rats, which correlated with enhanced IL-2 production and expression of activation antigens such as IL-2 receptor alpha chain (CD25) and RT1B MHC class II molecule. Moreover, SP markedly increased the percentage of CD5+ and CD4+ T lymphocytes in the peripheral blood of capsaicin-treated rats. Concomitant administration of SP with the non-peptide Neurokinin-1 receptor (NK1R) antagonist SR140333 completely inhibited the SP-mediated augmentation of Con A-induced PBL proliferation and IL-2 production as well as of CD4+ CD25+ and CD4+ RT1B+ T cell numbers in normal and capsaicin-treated rats. SR 140333 also blocked the increased percentage of peripheral blood CD4+ T cells induced by SP in capsaicin-treated rats.

The effects of inflammation and inflammatory mediators on nociceptive behaviour induced by ATP analogues in the rat

1. We have studied the behavioural effects of intraplantar injections of adenosine 5'-triphosphate (ATP) and related compounds in freely moving rats and investigated whether these nociceptive effects are augmented in the presence of inflammatory mediators. 2. We find that in normal animals ATP and analogues produce dose-dependent nocifensive behaviour (seen as bursts of elevation of the treated hindpaw), and localized thermal hyperalgesia. The rank order of potency was: alpha,beta-methyleneadenosine 5'-triphosphate (alpha,beta-methylene ATP) > 2-methylthioadenosine triphosphate (2-methylthio ATP) > ATP. After neonatal treatment with capsaicin, to destroy small calibre primary sensory neurones, nocifensive behaviour was largely absent. 3. The effects of ATP analogues were assessed in three models of peripheral sensitization: 2 h after dilute intraplantar carrageenan (0.25% w v(-1)); 24 h after irradiation of the hindpaw with ultraviolet (U.V.) B; immediately following prostaglandin E2 (PGE2) treatment. In all models the effect of alpha,beta-methylene ATP was greatly augmented. After carrageenan, significant hindpaw-lifting behaviour activity was induced by injection of only 0.05 nmol of alpha,beta-methylene ATP, some 100 times less than necessary in normal skin. 4. Our data suggest that it is much more likely that endogenous levels of ATP will reach levels capable of exciting nociceptors in inflamed versus normal skin. Our data also suggest the involvement of P2X3 receptor subunits in ATP-induced nociception.

Involvement of endogenous cholecystokinin and somatostatin in gastroprotection induced by intraduodenal fat

Duodenal fat such as oleate is known to influence gut functions by release of cholecystokinin (CCK), but the contribution of CCK endogenously released by duodenal fat or by diversion of pancreatic juice from the duodenum in the mechanism of mucosal integrity and gastroprotection has been little studied. This study was designed to compare the effect of CCK-8 and intraduodenal (i.d.) instillation of sodium oleate, or diversion of the pancreatic biliary secretions that are known to release CCK, on the gastric mucosal lesions induced by topical application of 100% ethanol or acidified aspirin (ASA) in rats with or without the pretreatment with a CCK-A receptor antagonist, loxiglumide, or with L-365,260 to block CCK-B receptors. In addition, the effect of suppression of prostaglandin (PG) biosynthesis by indomethacin (5 mg/kg i.p.), inhibition of nitric oxide (NO)-synthase by L-NAME (5 mg/kg i.v.), or blockade of sensory nerves by capsaicin (125 mg/kg s.c.) on the protective activity of sodium oleate was determined. Sodium oleate (50-200 mM i.d.), or diversion of pancreatic juice from the duodenum for 3 h that produced significant rise in plasma CCK levels, significantly reduced gastric lesions induced by 100% ethanol to an extent similar to that induced by exogenous CCK-8 (5 nmol/kg s.c.). The protective effect of oleate or diversion of pancreatic juice was accompanied by an increase in gastric blood flow (GBF). Both protection and accompanying hyperemia were completely abolished by blockade of CCK-A receptors with loxiglumide, whereas L-365,260, an antagonist of CCK-B receptors, had no effect. Oleate given i.d. significantly attenuated acidified ASA-induced gastric lesions and gastric secretion while increasing the luminal concentration of somatostatin. These effects were significantly reduced by loxiglumide but not by L-365,260. In contrast, CCK-8, which stimulated gastric acid secretion, failed to affect the lesions induced by acidified ASA and the decrease in the GBF produced by this ulcerogen. Indomethacin, which suppressed PG generation by approximately 90%, failed to influence the protective activity of oleate or CCK-8 against ethanol-induced lesions, whereas L-NAME, vagotomy, or sensory denervation significantly attenuated this protection and accompanying hyperemia. Addition to L-NAME of L-arginine, but not D-arginine, restored the protective and hyperemic effects of CCK-8 and duodenal oleate against gastric lesions induced by ethanol or acidified ASA. We conclude that endogenous CCK released by oleate or diversion of pancreatic secretion exerts a potent gastroprotective action on the stomach involving predominantly CCK-A receptors and depending on vagal activity, and hyperemia mediated by NO and sensory nerves but unrelated to acid secretory effects and endogenous PG.

Transient overconsumption of novel foods by deafferentated rats: effects of novel diet composition

We recently demonstrated that capsaicin-treated rats consume more of an unfamiliar high-fat diet than vehicle-treated controls, but only on initial exposure (Chavez et al, 1997). We hypothesized that negative feedback signals carried by capsaicin-sensitive visceral afferents are critical for the regulation of intake of novel foods, but redundant pathways take over during subsequent exposures. To examine the role of nutrient content of the novel diet, rats were systemically treated with capsaicin (n = 15) or vehicle (n = 10), and exposed to 1) a fat/olestra diet that was isocaloric with chow; 2) a readily accepted fat-free cake; and 3) pure corn oil. Each 3-h feeding trial was preceded by 24-h food deprivation. Treated rats did not overconsume familiar chow, but did consume 50% more than controls of both the fat/olestra diet and the corn oil on first exposure; this suggests that capsaicin eliminated visceral afferents that normally carry satiety signals. However, the effect with the fat/olestra mixture was due primarily to depressed intake by controls, unlike the pure fat diets; this apparent neophobic response was blunted in treated rats. Because treated rats failed to overconsume the fat-free cakes, the neural system damaged by capsaicin appears to be linked to energy or fat sensory mechanisms, and possibly to hedonic responsiveness.

Spike generation from dorsal roots and cutaneous afferents by hypoxia or hypercapnia in the rat in vivo

The present study aimed at investigating the responsiveness of different parts of the primary afferent neurones to a brief hypoxia, hypercapnia or ischaemia under in vivo conditions. Action potentials were recorded in separate groups of anaesthetized rats from (i) the peripheral end of the central stump of the cut L3, L4 or L5 dorsal root (dorsal root preparation); (ii) the central end of the peripheral stump of the cut saphenous nerve (saphenous-receptor preparation); (iii) the distal end of a segment of the saphenous nerve cut at both ends (axon preparation). In paralysed animals interruption of artificial ventilation for 20-60 s elicited or increased the frequency of action potentials in both the dorsal root and saphenous-receptor preparations. Activation of these preparations was also achieved by inspiration of gas mixtures containing 10-0% oxygen (mixed with nitrogen) or 20-50% carbon dioxide (mixed with oxygen) which elicited in the blood a decrease in PO2 or an increase in PCO2 with a fall in pH. Occlusion of the femoral artery for 3 min also caused spike generation in the saphenous-receptor preparations with little alteration in blood pressure. All these stimuli failed to evoke action potentials in the axon preparations. Systemic (300 mg kg-1 s.c.) or perineural (2%) capsaicin pretreatment failed to inhibit the effect of hypoxia, hypercapnia or ischaemia, indicating a significant contribution of capsaicin-insensitive neurones to the responses. It is concluded that central and peripheral terminals but not axons of primary afferent neurones are excited by a brief hypoxia or hypercapnia and the peripheral terminals by a short local ischaemia as well. Excitation of central terminals by hypoxia or hypercapnia revealed in this way an antidromic activation of dorsal roots in response to natural chemical stimuli.

Cough induced by low pH

Citric acid has been used as a tussive agent in the investigation of the cough reflex. The mechanism of cough stimulation remains unclear. We conducted studies to compare the cough response of citric acid to an organic (acetic acid) and an inorganic acid (phosphoric acid). We also compared the cough response of citric acid to capsaicin, a non-acid tussive stimulus. In study 1, 26 subjects inhaled equimolar concentrations of citric and acetic acid. In study, 2, 22 subjects inhaled citric acid and phosphoric acid in concentrations of similar pH. Eighteen subjects from study 2 completed a capsaicin cough challenge test. The cough response was recorded and the concentration causing two coughs, the cough threshold, calculated (D2). The correlation of cough thresholds between both citric and acetic acid (r = 0.79, 95% CI 0.37-0.90, P < 0.0001) and citric acid and phosphoric acid (r = 0.68, 95% CI 0.37-0.86, P = 0.0005) were significant. There was no correlation between the citric acid and capsaicin cough thresholds. These results show that an individual's cough response to acetic and phosphoric acid are similar to that caused by citric acid. Thus these acids may cause cough by a common mechanism such as disturbance of the pH of the airway surface liquid. Capsaicin does not appear to share this common pathway.

Physiological oxygen concentration gives an oscillating spontaneous tone in guinea-pig tracheal preparations

The spontaneous tone in isolated six-segment preparations of guinea-pig trachea was examined. In 12% oxygen (corresponding to normal systemic arterial oxygen pressure) the preparations developed a spontaneous tone with regular oscillations (6.6 min(-1)), usually grouped in so-called complexes (7.5 h(-1)). The average tone during an entire complex amounted to 12% of a maximum KCl-induced contraction. The complex tone was highly stable during observation periods of at least 4 h, and was reversibly transformed to the 'classical', smooth type when exposed to 94% oxygen. Stretch of preparations in low oxygen resulted in a fast, stable change of tone, while preparations in traditionally high oxygen reacted slower, and lost 40% of the active tension during the hour following stretch. Indomethacin (10 microM) did not eliminate the oscillating behaviour, but reduced the average size of the tone by 44%. Exposure to the C-fibre blocking agent capsaicin (50 microM) and the local anaesthetic lidocaine (1 mM) completely eliminated the oscillations and complexes, although the preparations retained a smooth tone. Atropine, propranolol and tetrodotoxin did not affect the complex tone. This study demonstrates for the first time that guinea-pig tracheal preparations that are exposed to near-physiological oxygen concentrations develop a new type of oscillating spontaneous tone, which is largely prostaglandin-independent, but appears to require transmitter release from sensory C-fibres. We argue that the complex tone is physiological, and that traditionally high oxygen (95%) probably results in non-physiological hyperoxic changes in this preparation.

Cell type-specific ATP-activated responses in rat dorsal root ganglion neurons

1. The aim of our study is to clarify the relationship between expression pattern of P2X receptors and the cell type of male adult rat (Wistar) dorsal root ganglion (DRG) neurons. We identified the nociceptive cells of acutely dissociated DRG neurons from adult rats type using capsaicin sensitivity. 2. Two types of ATP-activated currents, one with fast, the other with slow desensitization, were found under voltage-clamp conditions. In addition, cells with fast but not slow desensitization responded to capsaicin, indicating that there was a relationship between current kinetics and capsaicin-sensitivity. 3. Both types of neurons were responsive to ATP and alpha, beta methylene-ATP (alpha,betameATP). The concentration of alpha,(beta)meATP producing half-maximal activation (EC50) of neurons with fast desensitization was less (11 microM) than that of neurons with slow desensitization (63 microM), while the Hill coefficients were similar. Suramin and pyridoxal-phosphate-6-azophenyl-2',4'-disulphonic acid tetrasodium (PPADS) antagonized alpha,betameATP-induced currents in both types of neurons. 4. In situ hybridization revealed that small cells of the DRG predominantly expressed mRNAs of P2X3 and medium-sized cells expressed mRNAs of P2X2 and P2X3. In contrast, both of mRNAs were not detected in large cells of the DRG. 5. These results suggest that capsaicin-sensitive, small-sized DRG neurons expressed mainly the homomeric P2X3 subunit and that capsaicin-insensitive, medium-sized DRG neurons expressed the heteromultimeric receptor with P2X2 and P2X3.

Biphasic relaxant response of ovine trachealis muscle to electrical field stimulation: influence of cooling

Electrical field stimulation of ovine trachealis muscle produced neurogenic atropine-sensitive contractions under resting conditions. However, when the tissues were precontracted with 5-hydroxytryptamine in the presence of atropine, electrical field stimulation induced a frequency-dependent tetrodotoxin-sensitive relaxation. The relaxation was biphasic, consisting of fast and slow phases. The fast component was attenuated by propranolol, indicating an action on beta-adrenoceptors. The slow phase was attenuated by capsaicin and, therefore, involved release of a peptide. These results showed that excitatory responses in ovine trachealis muscles are cholinergically mediated, while both adrenergic and peptidergic components mediate electrically induced relaxation in the trachea. We also examined the influence of lowering bath temperature to 20 degrees C on electrically evoked responses. These were significantly reduced by cooling. At 20 degrees C, under resting conditions, the time-to-peak tension was lengthened, and the amplitude of the contractile responses was significantly (p < 0.05) reduced. In the same preparation, carbachol-induced contractions were not reduced by cooling, indicating that the reduction in electrically induced contractions was probably due to a reduction in transmitter release. Cooling also abolished the fast inhibitory phase (adrenergic in nature) without significantly inhibiting the slow (non-adrenergic, non-cholinergic) component. Propranolol (1 micromol/l) and capsaicin (100 micromol/l) did not affect significantly the slow relaxation observed during cooling. It was concluded that cooling inhibited cholinergically mediated, electrically induced contractions and selectively abolished the adrenergic component of electrically induced relaxant responses.

A sensitive sandwich enzyme immunoassay for calcitonin gene-related peptide (CGRP): characterization and application

Thirty mouse monoclonal antibodies (mAbs) directed against rat calcitonin gene-related peptide-alpha (CGRP-alpha) have been obtained. These mAbs are classified in 2 groups, one recognizing the peptide N-terminus and the other binding the C-terminus. A two-site immunometric assay was developed using mAb CGRP-83 as capture antibody, whereas mAb CGRP-72 acts as tracer, covalently labeled with enzyme acetylcholinesterase. This assay appeared sensitive (limit of detection: 2 pg/ml) and precise, allowing quantitative measurement of all human and murine CGRP isoforms. The assay was used to determine specific concentrations of CGRP in different rat, mice and guinea pig samples. The validity of the test was demonstrated by HPLC fractionation experiments.

Activation by Phoneutria nigriventer spider venom of autonomic nerve fibers in the isolated rat heart

In the isolated rat heart, Phoneutria nigriventer spider venom (10-100 microg) produced a dose-dependent and reversible rise in left ventricular developed pressure. A low dose (10 microg) of venom induced a short-lasting, positive inotropic effect (P < 0.05) with no change in heart rate or coronary flow. At a dose of 50 microg, the venom caused significant positive inotropic and chronotropic responses associated with occasional ventricular arrhythmia, whereas coronary flow was not significantly affected within 10 min after venom administration. The highest dose of venom (100 microg) caused bradycardia, transient cardiac arrest, rhythm disturbances and an increase in end diastolic pressure followed by a reduction in coronary flow. Hearts treated with the non-selective beta-adrenoceptor antagonist propranolol (3 microM) and the selective beta1-adrenoceptor antagonist CGP-20712A (10 microM) were protected against all the cardiac actions of the venom. The selective beta2-adrenoceptor antagonist butoxamine (10 microM) slightly reduced the cardiac response to 50 microg, but not to 100 microg of venom. Butoxamine also prevented the reduction in coronary flow induced by 100 microg of venom. Hearts from reserpine-treated rats (5 mg kg(-1) day(-1), i.p., for 2 days) showed a marked decrease in all venom (< or = 100 microg)-induced cardiac responses. The muscarinic receptor antagonist atropine (1 microM) slightly potentiated the response to 50 microg of venom but had little or no effect on the responses to 100 microg of venom. The cardiac responses to venom (50-100 microg) were unaltered in hearts from rats treated with 8-methyl N-vanillyl-6-nonenamide (capsaicin; 50 mg/kg, s.c.). These findings indicate that P. nigriventer venom releases norepinephrine from cardiac sympathetic nerve endings and this may explain the observed increase in contractile force and heart rate.

Capsaicin-induced desensitization is prevented by capsazepine but not by ruthenium red in guinea pig bronchi

In isolated guinea pig bronchi, the influence of ruthenium red, capsazepine and extracellular Ca2+ on capsaicin-induced desensitization was examined to investigate whether this desensitization was mediated via a specific receptor coupled with an ion channel. Pre-exposure of tissues to capsaicin (1, 3 or 10 microM) caused a dose-dependent desensitization to the second application of capsaicin. However, the contractile responses to exogenous tachykinins were not changed after pre-exposure of tissues to capsaicin. This capsaicin-induced desensitization was prevented by capsazepine (30 microM), but not by ruthenium red added to tissues 20 min before pretreatment with capsaicin (3 microM). While the excitatory contractile response to capsaicin was markedly reduced in the absence of extracellular Ca2+, the desensitization induced by capsaicin was not changed by the removal of extracellular Ca2+. In summary, the results from the present study suggest that in vitro functional desensitization induced by capsaicin in guinea pig bronchi may involve changes in the vanilloid receptor and occur through a ruthenium red-insensitive pathway.

Subthreshold concentration of endothelin-1-enhanced, capsaicin-induced bronchoconstriction in anaesthetized guinea-pigs

An increasing number of studies have been performed to address a possible role for endothelin-1 (ET-1) as a significant mediator in asthma. However, the effects of subthreshold concentrations of ET-1, which cannot elicit bronchial smooth muscle contraction itself, in asthma has yet to be determined. This study determined these effects of ET-1 on capsaicin-induced bronchoconstriction in anaesthetized guinea-pigs. Aerosolized ET-1 administered at doses of 10(-9) M and higher induced a dose-dependent increase in pulmonary resistance, but ET-1 at 10(-10) M did not have any bronchoconstrictive effect. However, this subthreshold concentration of ET-1 potentiated capsaicin-induced bronchoconstriction. In addition, the potentiation of capsaicin-induced bronchoconstriction by this subthreshold concentration of ET-1 was completely abolished by BQ788 (ET(B) receptor antagonist), but not BQ123 (ET(A) receptor antagonists). Immunoreactive substance P (SP) levels in bronchoalveolar lavage fluid after capsaicin administration were significantly higher than those after solvent administration. However, ET-1 alone did not significantly stimulate immunoreactive SP release and ET-1 (10(-10) M) did not potentiate capsaicin-induced immunoreactive SP release. In contrast, ET-1 (10(-10) M) potentiated exogenous neurokinin A- and SP-induced bronchoconstriction. These findings suggest that a subthreshold concentration of endothelin-1 does not potentiate the tachykinin release induced by capsaicin but the airway smooth muscle contraction through endothelin-B receptors.

Amiloride-sensitive Na+ channels in pelvic uroepithelium involved in renal sensory receptor activation

Stretching the renal pelvic wall increases ipsilateral afferent renal nerve activity (ARNA). This response is enhanced by inhibiting Na+-K+-ATPase with ouabain, suggesting a modulatory role for intracellular Na+ in the activation of mechanosensitive neurons. The messenger RNA for alpha-, beta-, and gamma-subunits of epithelial Na+ channels (ENaC) is found in collecting duct cells. Because ENaC subunits show homology with genes involved in mechanosensation, we examined whether ENaC mRNA could be found in the pelvic wall and whether the ARNA response to increased renal pelvic pressure was modulated by blockers of the Na+ channel. alpha-, beta-, and gamma-subunits are present in the pelvis. The messenger RNA for the beta- and gamma-subunits is readily detected by in situ hybridization throughout the uroepithelium. The ARNA response to increased renal pelvic pressure was reduced by 53 +/- 10% and 40 +/- 10% (P < 0.01) by renal pelvic perfusion with the inhibitors amiloride and benzamil, respectively. Amiloride inhibited the ouabain-induced enhancement of the ARNA response to increased renal pelvic pressure. The magnitude of this inhibition was inversely correlated with the magnitude of the amiloride-mediated blockade of the ARNA response to increased renal pelvic pressure (P < 0.001). Amiloride also reduced the ARNA response to renal pelvic administration of substance P, a mediator of the ARNA response to increased renal pelvic pressure. We conclude that the ENaC complex in the pelvic uroepithelium participates in the activation of renal pelvic mechanosensitive neurons.

[Effects of stimulation and damage of afferent nerves on the glucose and free fatty acid levels in the rat blood under various glycemic conditions]

Capsaicin stimulation of afferent neurones increased hyperglycaemic responses to glucose and decreased hypoglycaemia in control rats. Elevation of the free fatty acids level occurred following both the stimulation alone and that combined with insulin. Neonatal capsaicin pre-treatment decreased the hypoglycaemic response effect of insulin and the FFA level. Treatment of adult rats with capsaicin did not affect hypoglycaemia following insulin administration but did decrease the FFA level. In capsaicin pre-treated rats, the capsaicin stimulation exerted no effect upon the hypoglycaemia following insulin administration but abolished the insulin effect on the FFA level. The findings suggest that the capsaicin-sensitive nerves play a major role in mediating the glucose and the FFA metabolic responses.

Effect of inflammation on the delivery of drugs to dental pulp

Although numerous studies have evaluated the effects of drugs on inflammation, comparatively few studies have evaluated the effects of inflammation on drugs. In this study, we have evaluated whether pulpal inflammation alters the delivery of flurbiprofen or Evan's blue, two agents that bind with high affinity to plasma proteins. The results indicate that pulpal inflammation alters the delivery of these agents to inflamed molars, that activation of capsaicin-sensitive nerves increases pulpal content of protein-bound agents, and that reduced pH increases free drug concentrations of flurbiprofen. Thus, alterations in both plasma extravasation and tissue pH seem to be relevant factors regulating the delivery and bioavailability of this nonsteroidal anti-inflammatory drug to dental pulp. Because many drugs used in endodontics (e.g. nonsteroidal anti-inflammatory drugs, clindamycin, bupivacaine, etc.) are heavily bound to plasma proteins, it is likely that the status of pulpal inflammation is a contributing factor in modifying the pharmacological efficacy of these agents.

Hyperreflexia of the urinary bladder: possible role of the efferent function of the capsaicin sensitive primary afferents

PURPOSE

Capsaicin sensitive primary afferents (CSPA) have been implicated in the pathogenesis of hyperreflexia after spinalization. In this study we investigated the role of the efferent function of these fibers in detrusor hyperreflexia and its effect on detrusor physiology and pharmacology.

MATERIALS AND METHODS

Four groups of female Sprague Dawley rats were included in our study. These groups were normal controls, capsaicin treated normal rats, spinalized rats and capsaicin treated spinalized rats. Six weeks following spinalization, animals were subjected to cystometric study, and bladders were obtained for either in vitro detrusor contractility study or substance P (SP), neurokinin A (NKA) and calcitonin gene related peptide (CGRP) quantification by radioimmunoassay.

RESULTS

Spinalized animals consistently developed hyperreflexia after spinalization in the form of uninhibited contractions more than 15 cm. water in amplitude. This was accompanied by increased urinary bladder total content of the neuropeptides but without any change in the detrusor contractility or neurokinin receptor pharmacology as shown by responses to KCl, electric field stimulation and neurokinin receptor selective agonists in the in vitro study. In the control group, urinary bladder total content of SP, NKA and CGRP was 0.19+/-0.03, 0.15+/-0.01 and 0.84+/-0.1 pmol/bladder respectively. In contrast, in the spinalized animals, these were 0.44+/-0.07, 0.21+/-0.03 and 2.28+/-0.34 pmol/bladder for the same peptides, respectively. Capsaicin treatment abolished hyperreflexia, which corresponded with the decrease in the neuropeptide content of the urinary bladder. The number and amplitude of the uninhibited contractions decreased dramatically. SP, NKA and CGRP reached 0.06+/-0.01, 0.07+/-0.01 and 0.44+/-0.18 pmol/bladder 2 weeks after capsaicin treatment in spinalized animals. This was associated with the occurrence of detrusor super-sensitivity to both neurokinin receptor selective agonists.

CONCLUSION

This study demonstrates the importance of the efferent function of the CSPA in the pathogenesis of hyperreflexia. On the other hand, detrusor changes were shown to be a noncrucial factor in the development of hyperreflexia.