SummaryReasons for performing study: One of the causes of equine laminitis is hyperinsulinaemia, which may be associated with endothelial dysfunction and insulin resistance of vessels. Hypothesis and objectives: Insulin resistance can be induced in palmar digital vessels by continued exposure to insulin in vitro. The objective was to evaluate this in vitro model for future studies.
1 The hypothesis that the non-adrenergic, non-cholinergic excitatory (NANC-e) innervation is involved in the induction of asthma and that antagonists of NANC-e neurotransmitter could reduce bronchoconstriction during asthma was tested. 2 The first objective was to identify the neurotransmitter(s) of NANC-e innervation from a group of selected putative neurotransmitters. The second objective was to use the antagonist of the identified neurotransmitter(s) to determine its effectiveness against bronchoconstriction to ovalbumin (OVA) in sensitized guinea-pigs. 3 Neurotransmitter identification was performed using the "tracheal pouch"', a surgical preparation established for demonstrating NANC innervation, in anaesthetized guinea-pig airways. A segment of trachea was cannulated and clamped at one end and the other end was connected to a pressure transducer. The stump of the trachea was connected to a ventilator to keep the blood gas values within the normal range. The vagus nerve and the sympathetic nerves were isolated bilaterally and cut. The left carotid artery was cannulated to monitor blood pressure and for sampling blood for blood gas analysis. The jugular vein was cannulated for administration of test agents. 4 Both NANC-e and NANC-i (inhibitory) control responses of airways were obtained by bilateral vagal stimulation after complete autonomic blockade with atropine, propranolol and prazosin. The relaxation of the tracheal pouch was indicative of the NANC-i response and the increase in insufflation pressure of the ventilated peripheral airways was due to NANC-e stimulation. 5 The involvement of the putative neurotransmitters such as neurokinin-A (NK-A), histamine, serotonin and endothelin (ET) was investigated by using the respective antagonists, MEN-10376, pyrilamine maleate, cyproheptadine hydrochloride, and two ET receptor antagonists (BQ-123 and IRL-1038), respectively. The antagonists were administered at the dose rate of 4 mg kg-1 i.v. which was determined from preliminary studies by testing against the respective agonists. 6 MEN-10376 (neurokinin-2 receptor antagonist) significantly inhibited the insufflation pressure (peripheral airway pressure) increase caused by NANC-e stimulation. MEN-10376 also inhibited the fall in blood pressure caused by bilateral vagal stimulation. The 5-HT antagonist, cyproheptadine, significantly enhanced the NANC-e response. 7 After identifying the NANC-e neurotransmitter as NK-A, the effectiveness of its antagonist, MEN-10376, was evaluated for its ability to attenuate the increase in insufflation pressure (bronchoconstriction) induced in guinea-pigs sensitized by OVA. Guinea-pigs were sensitized to OVA (200 mg i.p.) and 10 days later prepared for the determination of tracheal pouch and insufflation responses to 100 microg of OVA administered i.v. (challenge dose). This caused an increase in insufflation pressure in the presence of adrenergic and cholinergic blockade, which was significantly attenuated by MEN-10376. 8 These studies indicated that neurokinin-2 receptors were ...
1. The role of endothelium in modulating equine colonic vessel responses to histamine (HST), 5-hydroxytryptamine (5-HT), bradykinin (BK) and acetylcholine (ACh) was evaluated in vitro. 2. Segments of mesenteric arteries and veins were collected from the left ventral colon of six adult horses destined for euthanasia for reasons unrelated to cardiovascular or gastrointestinal systems. Vessels were gently cleansed and cut into 4 mm wide rings. 3. Three vessel conditions namely endothelium intact, endothelium removed and N omega-nitro-L-arginine methyl ester (L-NAME)-treated were used for both arterial and venous rings. Each ring was placed in an organ bath with oxygenated Tyrode's solution. One side of the ring was fixed to the floor of the bath and the other side to a force-displacement transducer interfaced with a polygraph. 4. An initial tension of 2 g was applied to rings which were allowed to equilibrate for 45 min. The bath solution was gently replaced every 15 min and tension was readjusted to 2 g each time except following the last wash. 5. Rings were precontracted with a single EC25 dose of noradrenaline and after the response plateaued, cumulative concentration (10(-12)-10(-4) M) response curves were determined for each agent on separate rings. The relaxation from the precontracted level to the baseline was considered as 100% relaxation. Maximal relaxation and maximal contractions were statistically analyzed. 6. All agents induced a relaxation response initially, followed by a contractile phase as the concentrations increased in both arteries and veins, thus, making a biphasic concentration-response curve. In arteries, relaxation produced by ACh was significantly greater than 5-HT. Endothelium removal and L-NAME treatment significantly reduced relaxation in arteries. Only endothelium removal produced a significant reduction of relaxation in veins. 7. In both arteries and veins, HST and 5-HT produced significantly greater contraction than ACh or BK. No significant change in contraction was observed in arteries either by endothelium removal or L-NAME treatment, however, contraction was significantly reduced in veins by endothelium removal. 8. These findings suggest that the endothelium plays a major role in modulating equine colonic arterial relaxation via nitric oxide and venous contraction via endothelium-derived contractile mediators, probably endothelin and/or arachidonates.
We examined the inhibitory and excitatory components of the nonadrenergic noncholinergic (NANC) innervation of the guinea pig airways by in vivo and in vitro methods. Electrical stimulation of the vagus in chloralose-urethan-anesthetized guinea pigs after cholinergic and adrenergic blockade produced peripheral airway constriction (insufflation pressure) and tracheal relaxation (pouch pressure). Vagal stimulation was applied for 90 s at 5-V pulses of 2-ms duration at frequencies of 5, 15, 25, and 35 Hz in each group (n = 6). The pouch relaxation peaked at 15 Hz. The insufflation pressure was highest at 5 Hz. Field stimulations of the same frequencies were applied on tracheal spirals and lung parenchymal strips. The maximal relaxation of the trachea occurred at 15-35 Hz. The lung parenchymal strip tensions increased almost linearly as the frequency increased from 5 to 35 Hz. The results of the study indicated a frequency-dependent response for both excitatory and inhibitory components of the NANC, which operate at different frequencies for optimal responses.
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