Dale R. Bergren

Sensory receptor activation by mediators of defense reflexes in guinea-pig lungs

Histamine and bradykinin are mediators released within the lungs during lung defense. Both pulmonary rapidly-adapting receptors (RARs) and afferent C-fibers have been suggested to initiate defense reflexes evoked by these mediators. However, it is not known whether the sensory endings are directly stimulated by these mediators rather than indirectly by mechanical changes. Therefore, pulmonary RARs and C-fibers were challenged with aerosols of histamine, bradykinin and capsaicin in anesthetized guinea pigs. During histamine challenge tracheal pressure (PTr) and RAR nerve activity (NA) increased concurrently. After isoproterenol administration to attenuate increases in PTr, histamine-induced increases in RAR NA were similarly attenuated. Results with bradykinin or capsaicin challenge were similar. Therefore activation of RARs by histamine, capsaicin and bradykinin was dependent upon changes in lung mechanics. C-fibers were activated by capsaicin or bradykinin prior to any changes in PTr. However, C-fibers were not affected by histamine challenge despite substantial increases in PTr. C-fibers are activated directly by either capsaicin or bradykinin but not by histamine.

Neuropeptide depletion impairs postischemic recovery of the isolated rat heart: role of substance P

OBJECTIVES Ischemia of the myocardium stimulates cardiac sensory nerve endings resulting in the local release of neuropeptides. The significance of the release of neuropeptides, such as substance P (SP), for the function of the heart during ischemia and reperfusion is not known. We examined the effects of both chronic and acute neuropeptide depletion and of SP administration on contractile function and rhythmicity of the isolated rat heart during global ischemia and subsequent reperfusion. METHODS Experiments were conducted on the isolated perfused heart from vehicle and capsaicin-pretreated rats (100 mg/kg) to deplete neuropeptides from peripheral nerve terminals. The hearts were perfused with Krebs-Henseleit solution (95%O2 + 5% CO2, 37 degrees C, at constant pressure of 90 cmH2O). Left ventricular developed and diastolic pressures (LVDevP and LVEDP), heart rate (HR) and coronary flow (CF) were measured. Hearts were subjected to 20 min global no-flow ischemia and 30 min reperfusion. RESULTS Prior to interrupting coronary flow, LV pressures, HR and CF did not differ between vehicle and capsaicin-pretreated rats. However, throughout the reperfusion period, the recovery of LVDevP, HR and CF in hearts from capsaicin-pretreated rats was consistently less than in control hearts (P < 0.05), and the incidence of fibrillation during reperfusion was higher (P < 0.05). In other experiments, acute perfusion of isolated hearts with capsaicin (10(-6) M) for 5 min before ischemia had a similar limiting effect during reperfusion. Administration of SP (10(-6)-10(-9) M) to capsaicin-pretreated hearts before ischemia restored their ability to recover contractile function and CF during reperfusion. Administration of SP to untreated hearts before ischemia also improved their recovery above normal during reperfusion and decreased the incidence of fibrillation without affecting postischemic CF. The beneficial effects of SP were abolished by an NK-1 receptor antagonist, CP-96,345 (10(-6) M). CONCLUSIONS These data indicate that sensory neuropeptides play a role in protection of the isolated heart against ischemic damage and suggest a role of SP in the resistance of the myocardium to ischemia and reperfusion injury.

Chronic tobacco smoke exposure increases cough to capsaicin in awake guinea pigs.

Chronic exposure to irritants such as tobacco smoke (TS) can induce spontaneous and enhanced irritant-induced coughing, especially in asthma. To determine if the mechanism of enhanced coughing involves activation of capsaicin-sensitive sensory receptors (C-fibers), we exposed both non-sensitized (NS) and ovalbumin-sensitized guinea pigs to TS (5 mg/L air, 30 min exposure, and 7 days/week). Similar groups were exposed to compressed air. After 90 days of exposure, we challenged the airways with capsaicin, bradykinin, histamine and methacholine. Capsaicin induced coughing as well as bronchoconstriction in guinea pigs exposed to TS. In ovalbumin (OA) guinea pigs coughing and bronchoconstriction were enhanced. Tachykinin receptor antagonists attenuated coughing to both capsaicin and acute TS challenge. Bradykinin also induced coughing and bronchoconstriction in guinea pigs exposed to TS. There was no statistical separation between the two TS groups however. Histamine and methacholine induced similar bronchoconstriction but fewer coughs in all four experimental groups. In conclusion, chronic TS exposure induced coughing to capsaicin and bradykinin challenge. The effect of capsaicin was further enhanced in OA guinea pigs. Enhanced coughing induced by TS exposure likely involves activation of capsaicin-sensitive sensory C-fibers and neuropeptide release with possible subsequent activation of rapidly-adapting receptors.

Tobacco smoke is an adjuvant for maintained airway sensitization in guinea pigs.

Tobacco smoke (TS) exposure exacerbates asthma and may induce airway hyperresponsiveness in asymptomatic individuals. We hypothesized that TS exposure is an adjuvant to airway responsiveness. Ovalbumin (OA) sensitized guinea pigs were TS or air exposed. At 30 exposure days OA airway responsiveness was demonstrable in OA-treated animals exposed to either TS or air. After 130 exposure days only TS-exposed guinea pigs demonstrated OA airway responsiveness. Capsaicin airway responsiveness developed in non-sensitized and OA-sensitized guinea pigs exposed to TS. Therefore TS-exposure acts as an adjuvant to antigenic and neurogenic airway responsiveness. Combined antigen and adjuvant avoidance may attenuate or reverse airway responsiveness.

Tobacco smoke exposure and bombesin-like peptides in guinea pigs☆

Bombesin-like peptides (BLPs) are associated with tobacco smoke (TS)-induced diseases. We sought to determine if acute TS exposure releases BLPs into the pulmonary circulation. Sensitized and non-sensitized guinea pigs were chronically exposed to TS or compressed air. Thereafter, the lungs were acutely challenged with TS while perfused. Perfusates were analyzed for BLPs. TS increased BLPs in non-sensitized guinea pigs. A separate study determined daily bombesin exposure increased lung cell counts but not airway hyperresponsivensess. TS exposure releases BLPs into the pulmonary circulation but can be modified by host factors and bombesin itself does not induce airway hyperresponsiveness.

Pulmonary C-fiber activation before and after peptidase inhibition in rats.

Inhibition of peptidases within the lungs not only potentiates the effects of neuropeptides released from C-fibers but also the effects of bradykinin and capsaicin both of which stimulate C-fibers. To determine if peptidase inhibition potentiates C-fiber activation, we challenged pulmonary C-fibers in rats with capsaicin or bradykinin before and after inhibition of neutral endopeptidase (NEP) or angiotensin converting enzyme (ACE). Inhibition of NEP by phosphoramidon (10 mg/kg, i.v.) potentiated the effect of capsaicin (0.5-1 micrograms, i.v.) on C-fiber activity but did not change the response to bradykinin (1-2 micrograms, i.v.). Inhibition of ACE by captopril (5 mg/kg, i.v.) potentiated C-fiber activation by either bradykinin or capsaicin. Aerosol administration of either phosphoramidon (1 x 10(-5) M, 2 min) or captopril (4.6 x 10(-3) M, 2 min) potentiated C-fiber activation by capsaicin aerosol (1.6 x 10(-4) M, 1 min) but not by bradykinin aerosol (9.4 x 10(-5) M, 1 min). Therefore, inhibition of NEP or ACE may potentiate airway obstructive mechanisms initiated by C-fiber stimulation.

Antagonism of airway reactivity induced by ovalbumin antigen in guinea pigs by 5-amino-4-imidazolecarboxamide riboside

The effect of 5-amino-4-imidazolecarboxamide riboside (AICA riboside), a modulator of purine metabolism, was studied on antigen-induced bronchospasm in ovalbumin (OA)-sensitized guinea pigs. In separate experiments, sodium cromoglycate (SCG) and terbutaline were used to compare their effectiveness with that of AICA riboside (wt/vol). AICA riboside and SCG were administered as an aerosol daily for a minimum of 2 weeks before OA aerosol challenge. Terbutaline, as an aerosol, was administered once 5 minutes before OA challenge. Airway reactivity was determined through the use of a whole-body plethysmography by monitoring specific airway resistance (SRaw). OA aerosol challenge of 0.05%, 0.1%, and 0.25% (wt/vol), administered for a period of 1 minute, increased SRaw. Each of the three agents attenuated the effect of OA on SRaw, although terbutaline demonstrated more consistency and potency as compared to either AICA riboside or SCG. However, at moderate degrees of OA challenge, AICA riboside appeared to be as effective as either agent. Although the mechanism of action of AICA riboside remains uncertain, it may have therapeutic benefit in the treatment of asthma or allergic diseases.

Attenuation of antigen-induced bronchoconstriction in guinea pigs by a New Xanthine derivative (HWA448)

We examined the effect of a new xanthine derivative, HWA448, on antigen-induced bronchoconstriction in actively sensitized guinea pigs. Guinea pigs were sensitized by intraperitoneal injection of bovine serum albumin (BSA) on two occasions, separated by 10 days. Two weeks after the second injection, the animal was placed in a two-chambered whole body plethysmograph and specific airway resistance (SRaw) was monitored for 10 min after an aerosol inhalation of BSA. HWA448 prevented the increase in SRaw after challenge (at 5 and 20 mg/kg i.p.). Aminophylline also prevented the increase in SRaw at 20 mg/kg, but not at a 5-mg/kg dose. The concentration of HWA448, which produced 50% relaxation of the tracheal rings constricted with 0.1 mM of histamine, was 49.9 microM as compared with 18.2 microM in aminophylline. HWA448 has a protective effect on antigen-induced bronchoconstriction in guinea pigs and may be a useful agent in the therapy of bronchial asthma.

Interaction of tobacco smoke exposure and ovalbumin-sensitization promotes goblet cell and submucosal gland metaplasia in guinea pigs.

Exposure to irritants such as tobacco smoke (TS) causes acute airway inflammation. Chronic exposure may cause airway remodeling contributing to enhanced airway resistance. We hypothesize that combining airway sensitization and inhalation of irritants enhances the number of mucous producing cells beyond either agent alone. Guinea pigs were antigen sensitized or treated with its vehicle. These two groups were further divided into daily exposure to TS or air. After 3 months airway reactivity to ovalbumin (OA) was determined, airway and blood samples were examined and lung substance P quantified. Combining sensitization and TS exposure increased airway reactivity to OA, goblet cell and submucosal gland populations. Airway eosinophilia was greatest in the OA-sensitized group exposed to air rather than with its combination with TS exposure. Lung substance P levels were similarly elevated in both OA-sensitized groups. Airway irritant exposure in which airway sensitization exists enhances the potential of mucus production, airway resistance and mucus plugging of the airways through increasing the number of goblet cells and submucosal glands.

The effect of vasoactive agents on post-pressure hyperemia

The cutaneous hyperemic response following the release of direct pressure occlusion lasts much longer than the short-term hyperemia that occurs after proximal arterial occlusion. Post-pressure hyperemia may be an important mechanism to prevent pressure induced injury to the skin. The role of vasoactive mediators in modulating post-pressure hyperemia is unknown. In an effort to better understand this phenomenon, we performed an initial study using microdialysis infusion to measure the effect of several known mediators of vascular response on post-pressure hyperemia. A vise clamp was used to apply direct occlusive pressure to a laser Doppler sensor on the skin surface overlying the microdialysis fiber. Skin blood flow was measured continuously pre, during and post-occlusion while infusing the vasoactive substance or control phosphate buffer. Angiotensin II, Calcitonin gene related peptide and histamine had minimal effect on post pressure blood flow. Conversely, prostaglandin E1, prostaglandin E2, and L-NAME diminished the early phase of the post-occlusion hyperemic response. Perhaps the most profound effect we observed was the decrease in post-occlusive blood flow due to administration of epinephrine, dopamine and prostaglandin F2alpha. In contrast, adenosine and caffeine augmented blood flow post occlusion. In this initial survey study, we have demonstrated differential effects of various vascular mediators on the post-pressure hyperemic phenomenon. Our findings may lead to the development of agents to prevent pressure sores by augmenting the skin blood flow response to locally applied pressure.