Absence of nonadrenergic noncholinergic relaxation in the cat cervical trachea

Published in vivo experiments have not supported in vitro reports of the presence of nonadrenergic noncholinergic (NANC) inhibitory pathways in the cat trachea. We therefore examined these pathways, measuring tension in an innervated tracheal segment, flow resistance in more distal airways, and dynamic compliance, in 10 anesthetized mechanically ventilated cats. Initially, cervical vagal stimulation evoked contraction followed by relaxation of smooth muscle of trachea and lower airways; sympathetic stimulation evoked relaxation only. After muscarinic blockade and restoration of smooth muscle tone with 5-hydroxytryptamine (5-HT) applied topically to the tracheal mucosa, vagal stimulation did not affect tracheal segment tension, whereas sympathetic-evoked relaxation was preserved. Similar results were found when tone was restored with intravenous 5-HT, with vagal stimulation also decreasing resistance and increasing compliance. We conclude that NANC pathways are present in lower airways but not in the cervical trachea of the cat. We hypothesize that parasympathetic constriction of cat airway smooth muscle can occur without simultaneous NANC activation, whereas NANC activity occurs only in tandem with parasympathetic stimulation.     

Hydrocortisone and the release of prostaglandins from spleen

An infusion of noradrenaline (1 μg/ml/min) released a PGE-like substance (PGEs) from superfused splenic strips of rabbits and from perfused cat spleen. The release of PGEs from rabbit splenic strips was not inhibited by the treatment of strips with hydrocortisone (40 – 150 μg/ml), but it was completely abolished in strips obtained from animals pretreated with hydrocortisone (1 mg/kg). The release of PGEs from the perfused cat spleen was reduced by hydrocortisone and abolished by indomethacin. It is concluded that the route of administration of hydrocortisone is essential for an appearance of its inhibitory effect on the PG release.     

Evidence for lipoxygenase pathway involvement in allergic tracheal contraction

Challenge of actively sensitized guinea-pig trachea in vitro led to a contraction which was enhanced by the cyclo-oxygenase inhibitors, indomethacin and sodium meclofenamate. Cyclo-oxygenase inhibitors eliminated the release of PGE-like material induced by arachidonic acid (AA), histamine, and antigen challenge. AA (10 microgram./ml.) and PGE2 (100 ng./ml.) usually relaxed the trachea, whereas in the presence of cyclo-oxygenase inhibitors a contraction occurred. Phenidone and ETYA, which also blocked the lipoxygenase pathway of AA metabolism inhibited the enhancement of allergic tracheal contraction induced by cyclo-oxygenase inhibitors, decreased the time that the trachea remained contracted, and also eliminated the contraction induced by AA and PGE2. Thus, cyclo-oxygenase inhibitors may enhance allergic tracheal contraction by diverting AA metabolism into the lipoxygenase pathway and product of the latter pathway, possibly SRS-A, may be responsible for the enhancement and for the prolonged phase of allergic tracheal contraction. An analogous mechanism may account for aspirin-induced asthma in man.     

Influence of ventrolateral surface of medulla on reflex tracheal constriction

To assess the role of structures located superficially near the ventrolateral surface of the medulla on the reflex constriction of tracheal smooth muscle that occurs when airway and pulmonary receptors are stimulated mechanically or chemically, experiments were conducted in alpha-chloralose-anesthetized, paralyzed, and artificially ventilated cats. Pressure changes within a bypassed segment of the trachea were used as an index of alterations smooth muscle tone. The effects of focal cooling of the intermediate areas or topically applied lidocaine on the ventral surface of the medulla on the response of the trachea to mechanical and chemical stimulation of airway receptors were examined. Atropine abolished tracheal constriction induced by mechanical stimulation of the carina or aerosolized histamine, showing that the responses were mediated over vagal pathways. Moderate cooling of the intermediate area (20 degrees C) or local application of lidocaine significantly decreased the tracheal constrictive response to mechanical activation of airway receptors. Furthermore, when the trachea was constricted by histamine, cooling of the intermediate area significantly diminished the increased tracheal tone, whereas rewarming restored tracheal tone to the previous level. These findings suggest that under the conditions of the experiments the ventral surface of the medulla plays an important role in constriction of the trachea by inputs from intrapulmonary receptors and in the modulation of parasympathetic outflow to airway smooth muscle.     

Effect of prostaglandin E2 on the pressor response to periarterial stimulation and norepinephrine of the isolated perfused rabbit kidney.

The interaction of prostaglandin E2 (PGE2) and aspirin with the responses to peri-arterial stimulation (PS) and norepinephrine (NE) was studied in the isolated kidney of rabbit perfused through the renal artery at constant flow with Krebs' solution. NE and PS increased vascular perfusion pressure of kidney and caused a contraction on the isolated rabbit aortic strip superfused with the effluent from kidney. Addition of PGE2 to the perfusion medium decreased the PS-induced rise in perfusion pressure without changing the effect of exogenous NE. In contrast, addition of aspirin to the perfusion medium induced a potentiation of the response to PS but not to NE. These results suggest that PGE2 modulates the effect of PS probably by inhibiting the releases of NE from sympathetic nerve endings.     

Evidence for lipoxygenase pathway involvement in allergic tracheal contraction

Challenge of actively sensitized guinea-pig trachea in vitro led to a contraction which was enhanced by the cyclo-oxygenase inhibitors, indomethacin and sodium meclofenamate. Cyclo-oxygenase inhibitors eliminated the release of PGE-like material induced by arachidonic acid (AA), histamine, and antigen challenge. AA (10 μg./ml.) and PGE₂ (100 ng./ml.) usually relaxed the trachea, whereas in the presence of cyclo-oxygenase inhibitors a contraction occurred. Phenidone and ETYA, which also blocked the lipoxygenase pathway of AA metabolism inhibited the enhancement of allergic tracheal contraction induced by cyclo-oxygenase inhibitors, decreased the time that the trachea remained contracted, and also eliminated the contraction induced by AA and PGE₂. Thus, cyclo-oxygenase inhibitors may enhance allergic tracheal contraction by diverting AA metabolism into the lipoxygenase pathway and a product of the latter pathway, possibly SRS-A, may be responsible for the enhancement and for the prolonged phase of allergic tracheal contraction. An analogous mechanism may account for aspirin-induced asthma in man.     

Noncholinergic contractile response to nicotine in the guinea pig isolated tracheal smooth muscle

The existence of substance P immunoreactive nerves in the trachea of guinea pig is known. In this study, capsaicin induced a long-lasting and marked contraction in the guinea pig trachea and nicotine-induced contraction was partially reduced in the capsaicin-treated muscle. Furthermore, the contractile response to nicotine (10(-5) M) in the presence of atropine (10(-7) M) was abolished by a substance P antagonist, [D-Arg1, D-Pro2, D-Trp7,9 Leu11]substance P (10(-5) M). These findings suggest that noncholinergic contractile response to nicotine may be due to the release of material(s) resembling substance P in the isolated tracheal smooth muscle preparation of guinea pig.     

Effect of prostaglandin E2on the pressor response to peri-arterial stimulation and norepinephrine of the isolated perfused rabbit kidney

The interaction of prostaglandin E₂ (PGE₂) and aspirin with the responses to peri-arterial stimulation (PS) and norepinephrine (NE) was studied in the isolated kidney of rabbit perfused through the renal artery at constant flow with Krebs' solution. NE and PS increased vascular perfusion pressure of kidney and caused a contraction on the isolated rabbit aortic strip superfused with the effluent from kidney. Addition of PGE₂ to the perfusion medium decreased the PS-induced rise in perfusion pressure without changing the effect of exogenous NE. In contrast, addition of aspirin to the perfusion medium induced a potentiation of the response to PS but not to NE. These results suggest that PGE₂ modulates the effect of PS probably by inhibiting the release of NE from sympathetic nerve endings.     

Capsaicin-induced release of tachykinins: effects of enzyme inhibitors.

We studied the effects of neutral endopeptidase (NEP) and angiotensin-converting enzyme (ACE) inhibition on the airway responses and the recovery of endogenously released substance P- and neurokinin A-like immunoreactivities (SP-LI and NKA-LI) after tracheal injection of capsaicin in isolated guinea pig lungs superfused through the trachea. Capsaicin in doses from 10(-10) to 10(-7) mol induced a dose-dependent increase in airway opening pressure and release of SP-LI and NKA-LI. Airway opening pressure changes and the recovery of SP-LI and NKA-LI were significantly greater in lungs superfused with the NEP inhibitor SCH 32615 than in control lungs. ACE inhibition with captopril did not increase the mechanical response or the recovery of SP-LI compared with lungs not receiving captopril. In lungs from guinea pigs pretreated with high doses of capsaicin 7-10 days before study, a regimen designed to deplete endogenous tachykinins, there was a significant decrease in the content and release of NKA-LI and SP-LI. There were no detectable airway effects of acute capsaicin infusion even after doses of 10(-5) mol. Because NEP is important in modulating the airway effects of endogenously released tachykinins after tracheal infusion of capsaicin, but ACE is not, it seems likely that tracheal administration of capsaicin releases tachykinins from epithelial rather than endothelial loci.     

Induction of rhythmic contraction in canine tracheal smooth muscle

Na(+)-K+ ATPase activity of the canine tracheal smooth muscle membrane is responsible for the electrogenic pumping of Na+ and K+ ions. It has been shown that this activity results in muscle relaxation. Based on the results of the current study, we suggest that prolonged electrical stimulation induces increased Na(+)-K+ ATPase activity in isolated tracheal smooth muscle. Tracheal smooth muscle pretreated with prolonged electrical stimulation developed graded mechanical activity when subsequently treated with histamine, serotonin, acetylcholine, or 80 mM K+. This increased isometric tension was interrupted by rhythmic activity, which was elicited by histamine or serotonin but not by acetylcholine or 80 mM K+ stimulation. The spontaneous phasic activity was not inhibited by atropine or propranolol but was totally inhibited by 10(-6) M ouabain. These results suggested that the relaxation phase of rhythmic contraction in response to histamine and serotonin stimulation could be the result of stimulated Na(+)-K+ ATPase activity.     

Seasonal variations in the content of catecholamines in carp heart (Cyprinus carpio)

1. Seasonal changes in epinephrine and norepinephrine contents were demonstrated in ventricular muscle tissues of carp heart. 2. Patterns of changes in epinephrine and norepinephrine contents were similar; high during late spring-to-summer and low in winter; however, the fluctuation in epinephrine content was greater than that of norepinephrine. 3. Tyramine caused a positive inotropic effect in isolated electrically-stimulated ventricular muscles of carp heart. The inotropic effect was totally blocked by reserpine, reduced by propranolol, but not altered by atenolol. 4. These results suggest that the catecholamines released from sympathetic nerve terminals may contribute to the regulation of the seasonal change in the function of cardiac muscles in the carp.     

Substance P released from intrinsic airway neurons contributes to ozone-enhanced airway hyperresponsiveness in ferret trachea.

Exposure to ozone (O3) induces airway hyperresponsiveness mediated partly through the release of substance P (SP) from nerve terminals in the airway wall. Although substantial evidence suggests that SP is released by sensory nerves, SP is also present in neurons of airway ganglia. The purpose of this study was to investigate the role of intrinsic airway neurons in O3-enhanced airway responsiveness in ferret trachea. To remove the effects of sensory innervation, segments of ferret trachea were maintained in culture conditions for 24 h before in vitro exposure to 2 parts/million of O3 or air for 1 h. Sensory nerve depletion was confirmed by showing that capsaicin did not affect tracheal smooth muscle responsiveness to cholinergic agonist or contractility responses to electrical field stimulation (EFS). Contractions of isolated tracheal smooth muscle to EFS were significantly increased after in vitro O3 exposure, but the constrictor response to cholinergic agonist was not altered. Pretreatment with CP-99994, an antagonist of the neurokinin 1 receptor, attenuated the increased contraction to EFS after O3 exposure but had no effect in the air exposure group. The number of SP-positive neurons in longitudinal trunk ganglia, the extent of SP innervation to superficial muscular plexus nerve cell bodies, and SP nerve fiber density in tracheal smooth muscle all increased significantly after O3 exposure. The results show that release of SP from intrinsic airway neurons contributes to O3-enhanced tracheal smooth muscle responsiveness by facilitating acetylcholine release from cholinergic nerve terminals.     

Role of the epithelial layer in the generation of superoxide anion by the guinea-pig isolated trachea.

The lucigenin-dependent chemiluminescence generation by guinea-pig isolated tracheal two rings preparations was studied. Tracheal preparations stimulated with phorbol myristate acetate (PMA) or opsonized zymosan generated chemiluminescence. The total amount of chemiluminescence generated in 120 min was 754+/-63 mV x min for PMA and 4832+/-396 mV x min for zymosan. Generation of chemiluminescence was decreased by more than 50% when the tissues were co-incubated with superoxide dismutase (100 U/ml). Also, addition of direct donors of nitric oxide diminished chemiluminescence generation by zymosan-activated tracheal rings significantly by about 50%. However, the presence of the precursor or of inhibitors of nitric oxide synthase did not influence zymosan-induced chemiluminescence. Removal of the epithelial layer from tracheal rings caused an approximately 90% decrease in chemiluminescence response. However, isolated epithelial cell suspensions did not generate chemiluminescence. Histologic examination showed that the number of eosinophils in the tracheal tissue was reduced from 56+/-7 to 18+/-8 per mm basal membrane when the epithelial layer was removed. These results indicated that (1) superoxide anion formation can take place in the guinea-pig trachea, (2) eosinophils in the epithelial and submucosal layers of guinea-pig trachea are likely candidates for superoxide generation although other cell types can also be involved, and (3) besides relaxing airway smooth muscle, nitric oxide donors may also affect superoxide in the airways.     

A release of prostaglandins may be responsible for acute tolerance to norepinephrine infusions

A chick isolated rectum pretreated with atropine and indomethacin and superfused with the oxygenated mixed venous blood of anaesthetized cats, was selectively contracted by PGE₁ and PGE₂ at concentrations of <1 ng/ml. Intravenous infusion of norepinephrine (0.2 – 8.0 μg/kg/min) into the cats resulted in a contraction of the blood-bathed chick rectum. This was matched by contractions produced by PGE₂ (0.4 – 7 ng/ml) infused directly over the assay organ. The appearance of a chick rectum contracting substance in the venous blood was paralleled by a decline in the pressor response to norepinephrine. A single injection of indomethacin (3 – 10 mg/kg) prevented both the formation of the prostaglandin-like material and the acute tolerance to the pressor response to norepinephrine. Both effects could then be reproduced by an intra-arterial infusion of PGE₂ at a rate 0.125 – 0.5 μg/kg/min. β-Adrenoceptor blockade had no influence on the response of chick rectum and arterial blood pressure to an infusion of norepine phrine, but α-adrenoceptor blockade abolished both responses. It is postulated that the acute tolerance to norepinephrine infusions is the result of a release of PGE-like material from the contracting vascular bed.     

Studies of mediator involvement in cooling-induced alterations of guinea pig tracheal smooth muscle contractility

Heat loss from airway smooth muscle is a potent stimulus which causes substantial, but poorly understood, alterations in muscle tension. This study considered the involvement of endogenous mediators in cooling-induced tension changes in incubated guinea pig trachea. Smooth muscle tension was monitored in tracheal cylinders which were carefully cooled from 37 to 30 degrees C in the presence or absence of various inotropic mediators. In our study, cooling alone, at a rate of 1 degree C/min, was associated with an average loss of smooth muscle tension of 88.2 mg. Cooling tracheal tissue that had been previously exposed to 3 X 10(-6) M histamine, however, caused an additional increase in tracheal tension of 133 mg, over and above that caused by histamine alone. In the presence of 10(-5) M prostaglandin F2 alpha, or 10(-5) M thromboxane B2, cooling was associated with respective losses of smooth muscle tension of 211.4 and 211.2 mg, as compared to the tension associated with these mediators when they were used alone under control conditions. When the speed of tracheal cooling was increased to 40 degrees C/min, there was a slight increase in tension for 20 sec followed by a pronounced and sustained relaxation. The mechanisms involved in the response of airway smooth muscle to cooling are complex. The results of our study, however, suggest that mediators may play a role in the cooling-induced alterations of airway smooth muscle tension.     

Effects of neutrophil depletion and repletion on PAF-induced hyperresponsiveness of canine trachea.

Platelet-activating factor (PAF) has been implicated as a mediator of airway hyperresponsiveness. PAF, infused intra-arterially into the canine cervical trachea, causes adherence of neutrophils to vascular endothelium, increases vascular permeability, and increases the responsiveness of tracheal muscle to parasympathetic stimulation. We hypothesized that the increase in airway responsiveness induced by PAF in this model depends on the presence of neutrophils. To test this hypothesis, we perfused a cervical tracheal segment with autologous blood depleted of leukocytes or with similar leukocyte-depleted blood that had been repleted with its neutrophils. Fifteen minutes after the onset of perfusion with either leukocyte-depleted or neutrophil-repleted blood, PAF infusion was begun into the tracheal arterial vasculature. The contractile response of the tracheal muscle to parasympathetic stimulation was measured before and 15 and 30 min after the onset of PAF infusion. PAF did not significantly change the response of tracheal muscle during perfusion with neutrophil-depleted blood but increased the response of tracheal muscle during perfusion with neutrophil-repleted blood. We conclude that the increase in canine tracheal muscle response induced by intra-arterial PAF depends on neutrophils.     

Differential recovery of prostacyclin synthesis in cultured vascular endothelial vs. smooth muscle cells after inactivation of cyclooxygenase with aspirin

Conflicting findings from clinical trials on the use of aspirin in preventing myocardial infarction emphasize the importance of understanding the effects of aspirin on vascular cells. Cultured vascular endothelial cells and smooth muscle cells of human, rat and bovine origin synthesized prostacyclin, a key component in vascular homeostasis, when superfused with 14C arachidonic acid. Prostacyclin synthesis was inactivated following brief treatment with aspirin, which irreversibly acetylates cyclooxygenase. Marked differences were observed between endothelial and smooth muscle cells in the recovery of cyclooxygenase after aspirin treatment. Smooth muscle cells recovered within 3 hours by a process that required serum factors replaceable by epidermal growth factor (EGF) and TGF-beta. Recovery in both smooth muscle and endothelial cells was blocked by cycloheximide but not by actinomycin-D. Endothelial cell recovery occurred much more slowly, requiring up to 24 hours and was not dependent on serum factors or EGF. Furthermore, it was suppressed by growth inducing agents such as endothelial cell growth factor (ECGF) and was enhanced by conditions favoring growth arrest and cellular differentiation. Regulation of expression and recovery of cyclooxygenase following inactivation by aspirin thus differs considerably in the endothelial and smooth muscle compartments of the vasculature.     

Thelebolus microsporus mycelial mats in the trachea of wild brown skua (Catharacta antarctica lonnbergi) and South Polar skua (C. maccormicki) carcasses

Sixteen brown skuas (Catharacta antarctica lonnbergi) and seven South Polar skuas (C. maccormicki) were found dead near Boekella Lake, Hope Bay, Antarctica, in February 1997. Postmortem examination revealed conspicuous caseous, deep yellow fungal/mycelial mats or cores in the trachea of nine of 19 carcasses that were examined. These mycelial cores, highly suggestive of aspergillomas, completely occluded the tracheal lumen in four of these nine carcasses. Thelebolus microsporus, a psychrophilic ascomycetous fungus commonly isolated from skua dung and skua nesting material, was isolated in pure culture from these tracheal plugs. Awareness of pseudolesions resulting from Thelebolus microsporus profuse postmortem growth in the trachea of dead skuas will minimize potential confusion with aspergillosis when investigating causes of epornithics in Antarctica.     

Anisotropic material behaviours of soft tissues in human trachea: an experimental study

BackgroundHuman trachea is a multi-component structure composed of cartilage, trachealis muscle, mucosa and submucosa membrane and adventitial membrane. Its mechanical properties are essential for an accurate prediction of tracheal deformation, which has a significant clinic relevance. Efforts have been made in quantifying the material behaviour of tracheal cartilage and trachealis muscle. However, the material behaviours of other components have been least investigated.MethodsThree human cadaveric trachea specimens were used in this study. Trachealis muscle, mucosa and submucosa membrane and adventitia membrane were excised to perform the uniaxial test in axial and circumferential directions. In total, 72 tissue strips were prepared and tested. Tangent modulus was used to quantified the stiffness of each tissue strip at various stretch levels.ResultsThe obtained results indicated that all types of tracheal soft tissues were highly non-linear and anisotropic. Trachealis muscle in the circumferential direction had the most excellent extensibility; and the adventitial collagen membrane in the circumferential direction was the stiffest.ConclusionThis study is helpful in understanding the material behaviour of trachea. Obtained results can be used for computational and analytic modelling to quantify the tracheal deformation.     

The effect of estradiol on isolated rat uterine motility and on prostaglandin generation

The motility of isolated uterine horns as well as the generation of PGE and PGF like material by the uterus from estrus and spayed rats, treated or untreated with 17-beta estradicl, were studied. Following 40 minutes of mounting the spontaneous motility of uteri from estrus rats had a lower magnitude than that from spayed ones. The amount of PGF-like material was similar in both groups whereas the first one liberated less PGE-like substance. In spayed animals treated with 1 μg of 17-beta estradiol the decay of spontaneous contractile force was higher than that observed in untreated rats, and similar to that displayed by uteri from estrus. Less PGE-like material was liberated in comparison with spayed animals and a tendency to produce higher quantity of PGF-like compounds was observed, although the level was not significantly different. With 50 μg of 17-beta estradiol the spontaneous reduction of contractile activity was higher than in spayed animals and than in those treated with 1 μg. The amount of PGF-like material liberated was higher than in spayed rats and less PGE-like substance was generated comparing with spayed and 1 μg-treated animals. These findings show that estradiol decreases the release of PGE-like compound. It would also appear that this may have some relationship with the levels of spontaneous contractile activity of the isolated rat uterus.