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We have been investigating the yearly change of prevalence rate of childhood allergic diseases using same method and in same region in five primary schools in Fukuoka City for the last fifteen years. From 1981 to 1995, revised ATS-DLD questionnaire had been administered yearly to the first graders of primary school children (6-7 yrs). The total number of subjects for fifteen years were 8000. The average number of children in each year was 533. 1. The cumulative prevalence of bronchial asthma statistically increased from 5.7% (average of 1981 to 1983) to 7.7% (1993 to 1995). It was 1.7 times higher on boys. 2. The cumulative prevalence of atopic dermatitis did not change yearly and its average was 36.3%. The boys/girls ratio was 1.2. Remission rate of atopic dermatitis statistically increased from 14.3% (average of 1987 and 1988) to 19.6% (1994 and 1995). 3. The cumulative prevalence of allergic rhinitis did not change yearly and its average was 17.6%. It was 1.5 times higher on boys. 4. The cumulative prevalence of allergic conjunctivitis statistically increased from 8.4% (average of 1987 and 1988) to 11.1% (1994 and 1995).

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To elucidate the role of endogenous nitric oxide (NO) in allergen- (AIB) and hyperventilation-induced bronchoconstriction (HIB), the effects of an NO synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), on AIB and HIB were studied in guinea-pigs. In the AIB group, 21 anaesthetized guinea-pigs, actively sensitized with 1% ovalbumin, were challenged with aerosolized 0.1% ovalbumin solution under mechanical ventilation. In the HIB group, 14 guinea-pigs were challenged with hyperventilation (tidal volume of 12 mL x kg(-1) at 150 breaths x min(-1) with 21% O2 and 5% CO2 dry gas) for 5 min. In both groups, lung resistance (RL) was measured using a pressure-volume-sensitive body plethysmograph, with or without L-NAME pretreatment (8 mg x kg(-1) i.v. followed by 2 mg x kg(-1) x min(-1) i.v.). The NO precursor, L-arginine was injected at a rate of 15 mg x kg(-1) x min(-1) after L-NAME injection (10 mg x kg(-1)) in the AIB group. The results were as follows. In the AIB group, the maximal RL change was significantly potentiated by pretreatment with L-NAME. This potentiating effect of L-NAME was reversed by L-arginine. In the HIB group, the pretreatment with L-NAME had no effect on increases in RL. These findings suggest that endogenous nitric oxide may play an important role in the modulation of allergen-, but not hyperventilation-induced bronchoconstriction in guinea-pigs.

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To elucidate the role of tachykinins in bronchoconstriction induced by intravenous administration of bradykinin (Bk), we studied the effects of FK224, a neurokinin-1 (NK1) and neurokinin-2 (NK2) receptor antagonist, on the bronchoconstriction induced by intravenous (i.v.) administration of Bk (5-100 micrograms.kg-1) in guinea-pigs. Total pulmonary resistance -(RL) was measured using a pressure-volume sensitive body plethysmograph in anaesthetized artificially ventilated guinea-pigs pretreated with atropine (1 mg.kg-1) and propranolol (1 mg.kg-1). In the control group, i.v. administration of Bk produced a dose-dependent increase in RL. In animals pretreated with FK224, bronchoconstriction induced by higher doses of Bk (10, 50 and 100 micrograms.kg-1) was significantly reduced, whilst the bronchoconstriction caused by lower doses of Bk (5 and 7.5 micrograms.kg-1) was not. Pretreatment with a combination of FK224 and indomethacin markedly inhibited the bronchoconstriction induced by each dose of Bk compared with the groups pretreated with FK224 alone. Although pretreatment with indomethacin alone significantly reduced RL at a high dose of Bk (50 micrograms.kg-1), the reduction was significantly lower than that produced by a combination of FK224 and indomethacin. These results suggest that intravenous administration of a high dose of bradykinin causes bronchoconstriction both by cyclo-oxygenase products and by release of tachykinins.

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The aim of the present study was to examine whether endogenous neuropeptides released from sensory nerves can potentiate airway responsiveness to histamine. Total pulmonary resistance (RL) was measured to assess the bronchial responsiveness to increasing doses of histamine (1.25, 2.5, 5, and 10 micrograms/kg) administered intravenously in 29 anesthetized and artificially ventilated guinea pigs. Pretreatment with aerosolized capsaicin (3 micrograms/ml for 15 to 60 s) 30 min before obtaining the dose-response to histamine significantly potentiated percent increase in RL caused by each dose of intravenously administered histamine. Pretreatment with substance P (0.5 ml/kg of 10(-5) M) administered intravenously also potentiated the airway responsiveness to histamine. As assessed by the amount of extravasation of Monastral blue pigments, both capsaicin aerosol and substance P injected intravenously induced increased vascular permeability in the tracheal mucosa. These findings suggest that endogenous neuropeptides, especially tachykinin such as substance P, can induce airway hyperresponsiveness to nonspecific stimuli and play a possible role in producing airway hyperresponsiveness in bronchial asthma.

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The goal of this study was to determine whether neutrophils that adhere to the vascular endothelium in association with neurogenic inflammation in the respiratory tract migrate out of the blood vessels or whether they detach and reenter the circulation. We also sought to determine whether the fate of the neutrophils is influenced by neutral endopeptidase (NEP), an enzyme that degrades the tachykinins that produce neurogenic inflammation. Neutrophils in the tracheal mucosa of anesthetized pathogen-free rats were examined 5 min or 4 h after neurogenic inflammation was produced by an injection of capsaicin (100 or 200 micrograms/kg iv). In whole mounts of these tracheae stained histochemically for myeloperoxidase, adherent intravascular neutrophils had a spherical or teardrop (regular) shape and migrating neutrophils had a polarized amoeboid (irregular) shape. The number of regular neutrophils in the tracheae was increased at both times, but the increase at 4 h was only half that present at 5 min. The reduction between 5 min and 4 h was not offset by an appreciable increase in the number of irregular neutrophils, unless NEP was inhibited by phosphoramidon. We interpret these results as indicating that the rapid adherence of neutrophils to the vascular endothelium after an injection of capsaicin is followed by a gradual reentry of the neutrophils into the circulation and comparatively little neutrophil migration. However, when the effect of the stimulus is increased and/or prolonged by inhibition of NEP, some of the adherent neutrophils migrate out of the vessels. Thus the activity of NEP can regulate both the magnitude of the neutrophil adherence and the fate of the adherent cells.

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In this study, we examined whether inhalation of hypertonic saline aerosols increases vascular permeability in the rat trachea, and we examined the role of neurogenic inflammation in this response. Stereological point counting was performed to measure the percent area occupied by Monastral blue-labeled blood vessels as a means of quantifying the increase in vascular permeability in tracheal whole mounts. Hypertonic saline aerosols (3.6-14.4% NaCl) increased vascular permeability in a dose-dependent fashion compared with 0.9% NaCl. Thus, the area density of Monastral blue-labeled vessels after inhalation of 3.6% NaCl was greater (21.2 +/- 3.5% mean +/- SEM, n = 5) than after 0.9% NaCl aerosol (3.3 +/- 0.9%, n = 5, P less than 0.5). The neutral endopeptidase inhibitor phosphoramidon (2.5 mg/kg, i.v.) significantly potentiated the increase of vascular permeability caused by 3.6% NaCl. Desensitization of sensory nerve endings by pretreatment with capsaicin markedly reduced the usual increase in vascular permeability caused by 3.6% NaCl, but the increase in vascular permeability induced by aerosolized substance P (10(-4) M) was unchanged. These findings suggest that hypertonic saline increases vascular permeability in the rat trachea by stimulating the release of neuropeptides from sensory nerves.

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The goal of this study was to determine whether Sendai (parainfluenza type I) virus infection potentiates neurogenic inflammatory responses in the trachea. Pathogen-free F344 male rats were inoculated into each nostril with Sendai virus or with sterile culture medium. Six days after the inoculation, a threshold dose of capsaicin (75 micrograms/kg) or the vehicle used to dissolve the capsaicin was injected intravenously, and Monastral blue pigment was injected to measure the increase in vascular permeability produced by the capsaicin or vehicle (n = 6 per group). Five minutes later the tracheae were fixed by vascular perfusion, removed, and treated with a histochemical reaction for myeloperoxidase to stain the neutrophils in the mucosa, and the magnitude of the Monastral blue extravasation was determined both by stereological point counting and by microspectrophotometry. Capsaicin produced a larger number of Monastral blue-labeled blood vessels in the rats infected with Sendai virus than in the uninfected rats or in any of the rats that received only the vehicle. In addition, capsaicin further increased the already large number of neutrophils in the tracheal mucosa of the infected rats. However, in the dose used, it had no detectable effect on neutrophils in the uninfected rats. We conclude that Sendai virus infection causes neutrophil chemotaxis but does not increase vascular permeability in the trachea; it does, however, make the trachea abnormally susceptible to neurogenic inflammation, as manifested by an unusually large increase in vascular permeability and an exaggerated influx of neutrophils in response to sensory nerve stimulation by capsaicin.

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The present study was performed to determine whether neurogenic inflammation in the rat trachea can be exaggerated by inhibiting neutral endopeptidase, an enzyme that degrades tachykinins that are believed to mediate neurogenic inflammation. Neurogenic inflammation was produced by antidromic electrical stimulation of one vagus nerve (2.5 Hz, 1 ms, 5 V for 5 min) in the presence of atropine or by an intravenous injection of capsaicin (100 micrograms/kg). Neutrophils that adhered to the endothelium of venules were visualized and counted in tracheal whole mounts that were stained by a histochemical reaction for myeloperoxidase. Neural inflammation increased the number of adherent neutrophils. Pretreatment with the neutral endopeptidase inhibitor phosphoramidon (1.0 or 2.5 mg/kg iv) increased neutrophil adhesion induced by neural inflammation. As assessed by the amount of extravasation of Monastral blue pigment, neural inflammation also increased vascular permeability, and this change was potentiated by phosphoramidon. These results are consistent with the concept that neuropeptides released from sensory nerves in the tracheal mucosa cause neutrophils to adhere to venules and increase vascular permeability and that these effects are modulated by neutral endopeptidase.

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To determine whether neutral endopeptidase (NEP), also called enkephalinase (EC 3.4.24.11), modulates the effects of exogenous and endogenous tachykinins in vivo, we studied the effects of aerosolized phosphoramidon, a specific NEP inhibitor, on the responses to aerosolized substance P (SP) and on the atropine-resistant response to vagus nerve stimulation (10 V, 5 ms for 20 s) in guinea pigs. SP alone (10(-7) to 10(-4) M; each concentration, 7 breaths) caused no change in total pulmonary resistance (RL, P greater than 0.5). Phosphoramidon (10(-4) M, 90 breaths) caused no change either in base-line RL (P greater than 0.5) or in the response to aerosolized acetylcholine (P greater than 0.5). However, in the presence of phosphoramidon, SP (7 breaths) produced a concentration-dependent increase in RL at concentrations greater than or equal to 10(-5) M (P less than 0.001). Phosphoramidon (10(-7) to 10(-4) M; each concentration, 90 breaths) induced a concentration-dependent potentiation of SP-induced bronchoconstriction (10(-4) M, 7 breaths; P less than 0.01). Vagus nerve stimulation (0.5-3 Hz), in the presence of atropine, induced a frequency-dependent increase in RL (P less than 0.001). Phosphoramidon potentiated the atropine-resistant responses to vagus nerve stimulation (P less than 0.001) at frequencies greater than 0.5 Hz. The tachykinin antagonist [D-Arg1,D-Pro2,D-Trp7,9,Leu11]-substance P abolished the effects of phosphoramidon on the atropine-resistant response to vagus nerve stimulation (2 Hz, P less than 0.005). NEP-like activity in tracheal homogenates of guinea pig was inhibited by phosphoramidon with a concentration producing 50% inhibition of 5.3 +/- 0.8 nM.(ABSTRACT TRUNCATED AT 250 WORDS)

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