Effect of histamine on lung contractile elements in growing cattle

OBJECTIVE: To determine the effect of histamine on the contractile elements of the respiratory tract in neonatal calves and young adult cattle. SAMPLE POPULATION: Samples of trachealis muscle, bronchi, and intrapulmonary arteries and veins dissected from the respiratory tracts of healthy bovids (2 to 8 days and 16 to 20 months old). PROCEDURE: Histamine cumulative concentration-effect curves (10(-6) to 10(-3) M) were constructed in duplicate smooth muscle samples mounted in organ baths. Contractile responses to histamine were compared with reference contractions elicited by methacholine (10(-5) M) for airways or KCl (127 mM) for vessels. RESULTS: In young adult cattle, trachealis muscle had a substantial contractile response to histamine (84% of methacholine-induced contraction), whereas bronchi reacted slightly (15 and 20% for large and small bronchi, respectively). Although contractile responses to KCl were comparable in arteries and veins, histamine-induced contractions were greater for intrapulmonary veins than for arteries (202 vs 48% of KCl-induced contraction). In neonatal calves, histamine-induced contraction of veins also exceeded that of arteries (230 vs 54% of KCl-induced contraction); however, unlike in young adult cattle, histamine produced notable contraction of large and small bronchi (48 and 60% of methacholine-induced contraction, respectively). CONCLUSIONS AND CLINICAL RELEVANCE: Compared with intrapulmonary arteries, intrapulmonary veins have greater contractile responses to histamine in neonatal and young adult cattle. Data suggest loss of histamine responsiveness in bronchial smooth muscle as neonatal calves grow to young adults. Venodilation may be useful in treatment of lung edema in cattle.     

Histamine mediates the muscle layer-specific responses in the isolated swine myometrium

To clarify the role of histamine in uterine contractility, the effect of this biogenic amine on the myometrium of cyclic mature gilts was investigated by an isometric tension recording study in vitro. In addition, using crude membrane preparations isolated from the longitudinal (LM) and circular muscle (CM), the distribution of H1 histamine receptors was characterized by ₃H-pyrilamine binding assay. Histamine caused a tetrodotoxin-resistant contractile response of LM and CM in Krebs solution, but LM (-logEC₅₀= 6.34) was more sensitive than CM (-logEC₅₀= 5.4). Pyrilamine decreased the excitatory response of histamine in both muscle layers. In pyrilamine-treated LM, a high concentration of histamine (1-30 μm) caused a slight inhibition of spontaneous contraction, and this inhibition was abolished by ranitidine. On the other hand, histamine did not cause any inhibition in the pyrilamine-treated CM preparations. Dimaprit (10-300 μm) concentration-dependently inhibited the spontaneous contraction of LM but not of CM. In the presence of pyrilamine and ranitidine, N α-methylhistamine, even at 10 μm, did not affect the spontaneous and electrical field stimulation (5Hz)-induced contraction of LM and CM layers. Specific ₃H-pyrilamine binding sites were distributed heterogeneously in the swine myometrium. The maximum number of binding sites in LM (132.5 ± 9.9 fmol/mg protein, n= 10) was 2.5 times higher than that in CM (52.2 ± 3.2 fmol/mg protein, n= 6). These results indicate that there is a muscle layer-dependent difference of histamine-induced response in the swine myometrium. In the LM layer, histamine acts on both H1 and H2 histamine receptors, and causes contraction (via H1 receptors at a low concentration) or relaxation (via H2 receptors at a high concentration in the presence of pyrilamine). However, histamine causes only a contraction in the CM layer, likely the result of the absence of H2 histamine receptors. Histamine-induced contraction is conspicuous in the LM layer, because of the heterogeneous distribution of H1-receptors between LM and CM.     

Vasomotor effects of histamine on bovine and equine basilar arteriesin vitro

The vasomotor effects of histamine on isolated bovine and equine basilar arteries were examined. Histamine induced contractions in both these preparations. The maximal response to and pEC₅₀ value for histamine of the equine artery were larger than those of bovine tissue. Similar results were obtained with endothelium-denuded basilar arteries. Diphenhydramine (H₁-receptor antagonist) inhibited histamine-induced contractions of the basilar arteries from both species in a concentration-dependent manner and its pA ₂ values (with 95% confidence limits) were 7.61 (7.39–7.83) and 8.15 (8.01–8.29) for the bovine and equine preparations, respectively. Cimetidine (H₂-receptor antagonist) slightly potentiated histamine-induced contractions of bovine, but not equine, basilar arteries. 2-Thiazolylethylamine (H₁-receptor agonist) induced contractions in both preparations, whereas impromidine (H₂-receptor agonist) induced weak relaxation of the bovine, but not the equine, tissue. These findings indicate that bovine basilar arterial smooth muscle cells possess H₁- and H₂-receptors. Stimulation of the former results in contraction, whereas stimulation of the latter results in weak relaxation. Equine basilar arterial smooth muscle cells possess H₁-receptors, stimulation of which results in contraction.Abbreviations CR concentration ratio - EC₅₀ concentration producing 50% maximal response - pA ₂ negative logarithm of the molar concentration of antagonist that produces a twofold rightward shift of a concentration-response curve - pEC₅₀ negative logarithm of EC₅₀ - PGF₂ prostaglandin F₂ - PGI₂ prostaglandin I₂     

Actions of histamine and other substances on the airway smooth muscle of swine (in vitro)

Isolated swine tracheal and bronchial smooth muscle strips contracted to carbachol and histamine. 5-HT, PGF₂ and bradykinin were inactive. Isoprenaline (a -adrenoceptor agonist), PGE₁, PGE₂, bradykinin and 4-methylhistamine (4-MeH: a specific H₂-receptor agonist) produced relaxation of carbachol contracted trachea and bronchi. Mepyramine (a specific H₁-antagonist) blocked histamine-induced contractions. After H₁-blockade, histamine induced relaxation of carbachol contracted trachea and bronchi. Metiamide (an H₂-receptor antagonist) antagonizes relaxation to 4-MeH and histamine, but not to isoprenaline. The results of this investigation showed the presence of both H₁- and H₂-histamine receptors mediating constriction and relaxation respectively in the airways of swine.     

Histamine: metabolism, physiology, and pathophysiology with applications in veterinary medicine

Objective – To review the human and veterinary literature on histamine physiology and pathophysiology and potential applications for clinical use in veterinary critical care. Data Sources – Human and veterinary clinical studies, reviews, texts, and recent research in histamine receptor and antagonist therapy. Human Data Synthesis – Recent progress in molecular biology has led to a more complete understanding of the enzymes involved in histamine metabolism and histamine receptor physiology. The past decade of research has confirmed the role of histamine in the classical functions (contraction of smooth muscle, increase in vascular permeability, and stimulation of gastric acid secretion) and has also elucidated newer ones that are now under investigation. Data on the roles of histamine in angiogenesis, circadian rhythm, bone marrow regeneration, bacterial eradication, and cancer are emerging in the literature. Newer histamine antagonists are currently in drug trials and are expected to advance the clinical field in treatment of allergic, gastrointestinal, and cognitive disorders. Veterinary Data Synthesis – Veterinary histamine research is directed at identifying the effects of certain pharmacological agents on blood histamine concentrations and establishing the relevance in clinical disease states. Research demonstrates important species differences in regards to histamine receptor physiology and tissue response. Studies in the area of trauma, sepsis, anaphylaxis, allergy, and gastrointestinal disorders have direct applications to clinical veterinary medicine. Conclusions – Histamine plays a key role in the morbidity and mortality associated with allergy, asthma, gastric ulcers, anaphylaxis, sepsis, hemorrhagic shock, anesthesia, surgery, cardiovascular disease, cancer, CNS disorders, and immune‐mediated disease. Histamine antagonism has been in common use to block its adverse effects. With recent advances in the understanding of histamine receptor physiology, pharmaceutical agents targeting these receptors have increased the therapeutic options.     

Vagal afferent activities and respiratory reflexes during drug-induced bronchoconstriction in the guinea pig.

Vagal afferent activities and respiratory reflexes during drug-induced bronchoconstriction were studied in 31 anesthetized, spontaneously breathing or artificially ventilated guinea pigs. Histamine (5, 10, 20 micrograms/kg), ACh (10, 20, 40 micrograms/kg) and endothelin-1 (2 micrograms/kg) were intravenously injected to the animals in order to induce the bronchoconstriction. In spontaneously breathing and vagi intact animals, a considerable respiratory change characterized by rapid-shallow breathing was elicited by histamine. Such respiratory change was abolished by bilateral vagotomy, indicating that the vagal pathway fairly participated in the respiratory change during bronchoconstriction. Indeed, recordings of electrical activities of single vagal afferent nerve fibers from pulmonary stretch and irritant receptors elucidated that the bronchoconstriction by the three drugs markedly influenced these receptor activities. The response of stretch receptors to bronchoconstriction was grouped into four types: two of those types showed a marked increase in their activities and the other two a decrease or no change. Such uneven response was assumed to be derived from heterogenous contraction and aeration among the intrapulmonary small airway. On the other hand, irritant receptors were invariably stimulated by increased transmural pressure during bronchoconstriction. Administration of isoproterenol (20 micrograms/kg) which inhibited the smooth muscle contraction abolished stimulatory effect of the drugs to irritant receptors, suggesting that the effect was due to indirect action through the muscle contraction rather than their direct action to the nerve endings.     

Effect of gastrin, histamine, serotonin, and adrenergic amines on gastroesophageal sphincter pressure in the dog

In nonrestrained dogs that had not been given chemicals and that were in the fasted and fed state, gastroesophageal sphincter pressure (GESP) was measured; results were compared with GESP induced in the same dogs by drugs that modified activity at cholinergic, adrenergic, histaminic, and gastrin receptors. Atropine reduced GESP from 38.5 +/- 1.3 (mean +/- SE) and 55.5 +/- 2.0 mm of Hg to 11.3 +/- 2.0 and 14.5 +/- 2.4 mm of Hg in fasted and fed dogs, respectively. Histamine induced phasic contractions that were not affected by anticholinergics or cimetidine. Iphenhydramine eliminated the phasic contractions and reduced GESP to 18.2 +/- 3.9 mm of Hg. In fed dogs, diphenhydramine reduced GESP to 37.0 +/- 2.5 mm of Hg, but cimetidine did not. Pentagastrin induced increases in GESP that were inversely related to basal GESP. Pentagastrin given during histamine infusion eliminated histamine-induced phasic contractions. In fed dogs, metoclopramide increased GESP from 48.8 +/- 4.0 mm of Hg to 76.0 +/- 4.0 mm of Hg; this increment was eliminated by diphenhydramine. Administration of atropine after metoclopramide reduced GESP the same as for dogs given atropine alone. An adrenergic amine with only alpha-adrenergic effects induced phasic contractions, and an adrenergic amine with only beta-adrenergic effects reduced GESP. Blockers of alpha and beta effects did not change GESP in fed dogs. Domperidone induced phasic contractions that were eliminated by feeding. Serotonin increased GESP. Canine GESP may be maintained in fed dogs by chemicals interacting with cholinergic, histaminic, gastrin, and serotonin receptors, but not by chemicals interacting with adrenergic receptors.     

The effect of Nesfatin-1 on food intake in neonatal chicks: role of CRF<Subscript>1</Subscript> /CRF2 and H1/ H3 receptors

The present study was designed to determine the effect of central injection of Nesfatin-1 and corticotropin and histaminergic systems on food intake in neonatal meat-type chicks. In this study, 7 experiments were designed, each with 4 treatment groups. In experiment 1, four groups of chicks received the ICV injection of (A) phosphate-buffered saline (PBS), (B) Nesfatin-1 (10 ng), (C) Nesfatin-1 (20 ng) and (D) Nesfatin-1 (40 ng). In experiment 2, (A) PBS, (B) Astressin-B (CRF₁/CRF₂ receptors antagonist; 30 µg), (C) Nesfatin-1 (40 ng) and (D) Nesfatin-1?+?Astressin-B were injected. In experiments 3–6, chicken received ICV injection of the Astressin2-B (CRF₂ receptor antagonist; 30 µg), α-FMH (alpha fluoromethyl histidine; as inhibitor of histidine decarboxylase, 250 nmol), Chlorpheniramine (histamine H₁ receptors antagonist, 300 nmol), Famotidine (histamine H₂ receptors antagonist, 82 nmol) and Thioperamide (histamine H₃ receptors antagonist, 300 nmol) instead of the Astressin-B. Then the cumulative food intake measured until 120 min post-injection. According to the results, ICV injection of Nesfatin-1 dose dependently decreased food intake in neonatal chicks (P?<?0.05). Co-injection of the Nesfatin-1 and Astressin-B (CRF₁/CRF₂) inhibited Nesfatin-1 induced hypophagia (P?<?0.05). ICV inejction of the Nesfatin-1?+?Astressin-B significantly inhibited the effect of Nesfatin-1 on food intake (P?<?0.05). In addition, α-FMH and chlorpheniramine attenuated Nesfatin-1-induced hypophagia in chicks (P?<?0.05); while thioperamide significantly amplified the effect of Nesfatin-1 on food intake in chicks (P?<?0.05). These results suggested Nesfatin-1 has an anorectic effect in 3-hour food deprived neonatal meat-type chicks and this effect was mediated by corticotropin CRF₁/CRF₂ as well as histamine H₁ and H₃ receptors.     

Effects of Alcohol Extract of Aster tataricus L.f.on the Contraction of Guinea Pig Tracheal Smooth Muscle in vitro

The aim of the experiment was to study the effect of alcohol extract of Aster tataricus L.f.on the contraction of isolated guinea pig tracheal smooth muscle.The guinea pig tracheal smooth muscle was prepared by isolated tracheal thermostatic perfusion method.The effects of Aster tataricus L.f.on tracheal smooth muscle under the resting state and contraction stimulated by acetylcholine (Ach),histamine (His),CaCl₂,Ca²⁺ release and influx in cells without calcium were measured by BL-420F biological function experiment systems.The results showed that Aster tataricus L.f.could induce the contraction of isolated trachea at resting state at a low concentrations of 0.002 to 0.008 g/mL and exerted a relaxation on the isolated trachea when at the higher concentrations of 0.008 to 0.196 g/mL.All of the three concentrations of Aster tataricus L.f.could inhibit the tension stimulated by Ach,His and CaCl₂ which were antispasmodic agents,led to the non-parallelled rightward moving of cumulative concentration-response curve and the decline of maximal responses.The suppressive effect on His was the strongest,followed by Ach and CaCl₂,and the suppression could counteract the contraction induced by extracellular Ca²⁺influx significantly,and they were all expressed concentration-dependent manner.These results indicated the alcohol extract of Aster tataricus L.f.could relax tracheal smooth muscle by acting on M-receptor and histamine receptor and blocking Ca²⁺ passage,thus inhibiting extracellular Ca²⁺influx.     

紫菀乙醇提取物对豚鼠离体气管平滑肌收缩功能的影响

本试验旨在研究紫菀乙醇提物对豚鼠离体气管平滑肌收缩功能的影响。采用离体气管恒温灌流的方法,将豚鼠气管制成气管螺旋条,通过 BL-420F 生物机能实验系统测定其张力的变化,观察紫菀乙醇提物对离体气管平滑肌静息状态下的舒张作用,以及在氯化乙酰胆碱(Ach)、磷酸组胺(His)、CaCl₂条件下和无钙下Ach诱导细胞内钙释放和外钙内流所致两种收缩条件下对离体气管平滑肌张力变化的影响。试验结果显示,低浓度紫菀乙醇提取物(0.002~0.008 g/mL)对静息状态下豚鼠离体气管平滑肌具有一定的收缩作用,高浓度(0.008~0.196 g/mL)时具有舒张作用;低、中、高3个剂量组均可抑制Ach、His和CaCl₂引起的气管平滑肌收缩强度,使各致痉剂的量效曲线非平行右移并降低最大效应。紫菀乙醇提取物对His的抑制作用强度最大,其次为Ach,最后是CaCl₂,且均呈剂量依赖性。以上结果表明紫菀乙醇提物具有舒张气管平滑肌的作用,其机制可能与抑制豚鼠气管平滑肌M受体、H₁受体和阻断Ca²⁺通道从而抑制细胞Ca²⁺内流有关。     

Participation of H1-receptors in histamine-induced contraction and relaxation of horse coronary artery in vitro.

The mechanisms of histamine-induced contraction and relaxation were investigated in rings isolated from a middle part of the left descending coronary arteries of horses. Intact and endothelium-denuded preparations were compared. Rings of horse coronary arteries contracted in response to histamine in a concentration dependent manner, but some of them relaxed with lower concentrations and contracted with higher concentrations. Removal of the endothelium abolished the relaxation and potentiated the contraction. The pD2 values were 4.70 +/- 0.08 in the rings with intact endothelium and 4.95 +/- 0.08 in endothelium-denuded rings. Histamine-induced contractions in intact and denuded preparations were not affected by an H2-antagonist, cimetidine, but were inhibited by an H1-antagonist, diphenhydramine in non-competitive manner in the rings with endothelium and in competitive manner in denuded rings. After precontraction with PGF2 alpha or norepinephrine, histamine relaxed preparations with intact endothelium (pD2 value, 7.80 +/- 0.11), although histamine-induced relaxations were not observed in denuded preparations. The relaxation was competitively inhibited by diphenhydramine. Relaxing response was significantly attenuated by methylene blue, quinacrine, L-nitro-arginine, gossypol and AA861 but not by indomethacin. These results suggest that the histamine-induced contraction and relaxation in horse coronary arteries are mediated mainly by H1-receptors in the smooth muscle and endothelium, respectively, and H1-receptor activation of endothelial cells may liberate vasodilator substances.     

The vascular responses of the isolated perfused bovine external ear to exogenous histamine and 5-HT (serotonin)

The responses of the vasculature of isolated, non-sensitized, bovine external ears to histamine and serotonin (5-HT) were evaluated while they were being perfused with Krebs-Henseleit solution, Histamine (10^–5 mol/L to 5×10^–3 mol/L) and 5-hydroxytryptamine (5-HT) (10^–9 mol/L to 10^–2 mol/L) caused increased vascular resistance. Mepyramine (10^–7 mol/L), cimetidine (10^–5 mol/L) and atropine (10^–6 mol/L) inhibited the responses to histamine. The responses to 5-HT were inhibited by methysergide (10^–9 mol/L) and potentiated by morphine (10^–5 mol/L). These results suggest the presence of H₁ and H₂ histamine, and 5-HT receptors in bovine auricular vessels, all of which cause net vasoconstriction.     

Diazepam potentiates the positive inotropic effects of histamine and forskolin in guinea-pig papillary muscles

There have been diverse reports on the effects of diazepam on cardiac contractility. The purpose of this study was to examine whether diazepam modifies the inotropic response elicited by histamine on an isolated guinea-pig papillary muscle. The responses of electrically driven papillary muscle to histamine and cyclic AMP-related inotropic agents were recorded in the absence and in the presence of diazepam. Histamine and forskolin, which directly stimulate adenylate cyclase, significantly increased the contractile force in the papillary muscle in a concentration-dependent manner. A histaminergic H₂-receptor antagonist, cimetidine, but not a H₁-receptor antagonist, diphenhydramine, at 10 μ M produced a rightward shift in the concentration-response curve for histamine. Diazepam (10 μ M ) shifted the concentration-response curve for histamine and forskolin to the left by 1.8 and 1.6 times, respectively. Neither a central type (fulmazenil) nor a peripheral type (PK11195) of benzodiazepine receptor antagonist modified the effect of diazepam on the histaminergic-evoked contraction. Phosphodiesterase blockade by 3-isobutyl-1-methylxanthine shifted the concentration-dependent curve for histamine to the left. A combination of 3-isobutyl-1-methylxanthine also produced a leftward shift of the curve. However, there was no significant difference between the 3-isobutyl-1-methylxanthine only group and the combination group. These results indicate that diazepam potentiates the positive inotropic effect produced by histamine, probably mediated via an increase in cyclic AMP levels induced by histamine.     

Time-dependent changes in inhibitory action of lipopolysaccharide on intestinal motility in rat

Endotoxin causes gastrointestinal motility disorder. Aim of this study is to clarify inhibitory mechanisms of lipopolysaccharide (LPS) on smooth muscle contraction in rat ileum. Ileal tissues were isolated from control rat or from LPS-induced peritonitis model rat. Treatment with LPS inhibited carbachol (CCh)-mediated contraction in a time-dependent manner. Cyclooxygenase-2 (COX-2) and inducible nitric oxide synthase (iNOS) genes were also upregulated, but iNOS expression was preceded by a rising of COX-2. All subtypes of prostaglandin E₂ (PGE₂) receptors (EP1-EP4) were expressed in ileum, and PGE₂ and selective EP2 or EP4 agonist inhibited CCh-mediated contraction. Selective iNOS inhibitor did not reverse LPS-induced inhibition of contraction by CCh at 1 and 2 hr, but reduced the inhibitory action at 4 hr after the LPS treatment. COX-2 inhibitor reversed the inhibitory action by LPS in all exposure time. Finally, in ileal tissues isolated from peritonitis model rat, iNOS expression was upregulated only at 4 hr after LPS administration, resulting in enhanced inhibitory action of LPS against CCh-induced contraction. In conclusion, LPS induces COX-2 to produce PGE₂, which initially activates EP2 and/or EP4 on smooth muscle cells to inhibit the contractility in early phase of LPS exposure. Moreover, in late phase of LPS treatment, iNOS is expressed to produce NO, which in turn inhibited the contraction by CCh. The inhibitory cascade is similar in the ileum isolated from peritonitis model rat, indicating time-dependent changes of inhibitory action by LPS on intestinal motility in peritonitis.     

The expression of histamine H4 receptor mRNA in the skin and other tissues of normal dogs

The histamine 4 (H₄) receptor was first cloned and characterized in 2000 using the human H₃ receptor DNA sequence. The H₄ receptor has been shown to participate in various aspects of inflammation, such as chemotaxis, upregulation of adhesion molecule expression and modulation of cytokine secretion. The primary goal of this study was to determine whether H₄ receptor mRNA is expressed in normal canine skin by performing an RT‐PCR. An additional goal was to determine the expression of this receptor in the colon, liver, spleen and kidney. Tissues were collected from five healthy, young‐adult pit bull dogs. Samples were immediately placed in RNAlater^® solution and stored at ?20°C until processed. The amplified products in all skin samples in addition to the colon, liver, spleen and kidney (variable expression) had the expected size of 400–500 bp. The sequenced amplicons matched the National Center for Biotechnology Information published sequence for the canine H₄ receptor. The study results showed that canine normal skin expresses the H₄ receptor mRNA. Further studies using immunohistochemistry should be conducted to demonstrate the expression of the H₄ receptor at the protein level and to localize the expression of this receptor in the skin.     

奶牛输卵管平滑肌前列腺素类受体的分析研究

本研究选用了前列腺素类化合物(Prostaglandin E2（PGE2）、Prostaglandin F2α（PGF2α）、Prostaglandin D2（PGD2)）和受体选择性激动剂（Butaprost、U-46619）,用多道生理信号采集系统测定其对体外分离的奶牛输卵管峡部及壶腹部平滑肌收缩的影响,以此初步揭示受体的种类。结果发现,PGE2和Butaprost均抑制了奶牛输卵管峡部、壶腹部的自发性收缩运动,呈现明显的浓度依存性舒张反应;PGF2α在高浓度(1～10 μmol/L)下,使峡部和壶腹部的自发性收缩运动有了显著增强;PGD2在低浓度时轻微抑制了壶腹部平滑肌的收缩,但在高浓度(1～10 μmol/L)时加强了峡部和壶腹部平滑肌的收缩;U-46619从低浓度便引起了输卵管峡部和壶腹部平滑肌的强烈收缩。结果表明,EP4、EP2、FP、DP和TP受体同时存在于奶牛输卵管平滑肌上,能与内源性前列腺素类结合并参与调节输卵管平滑肌的自发性收缩。     

Central histaminergic system interplay with suppressive effects of immune challenge on food intake in chicken

1. The aim of the current study was to investigate the interaction of the lipopolysaccharide (LPS) and histaminergic systems on appetite regulation in broilers. Effects of intracerebroventricular (ICV) injection of α-fluoromethylhistidine (α-FMH, histidine decarboxylase inhibitor), chlorpheniramine (histamine H₁ receptor antagonist), famotidine (histamine H₂ receptor antagonist) and thioperamide (histamine H₃ receptor antagonist) on LPS-induced hypophagia in broilers were studied.

2. A total of 128 broilers were randomly allocated into 4 experiments (4 groups and 8 replications in each experiment). A cannula was surgically implanted into the lateral ventricle. In Experiment 1, broilers were ICV injected with LPS (20 ng) prior to α-FMH (250 nmol). In Experiment 2, chickens were ICV injected with LPS followed by chlorpheniramine (300 nmol). In Experiment 3, broilers were ICV injected with famotidine (82 nmol) after LPS (20 ng). In Experiment 4, ICV injection of LPS was followed by thioperamide (300 nmol). Then, cumulative food intake was recorded until 4 h post-injection.

3. According to the results, LPS significantly decreased food intake. Chlorpheniramine significantly amplified food intake, and LPS-induced hypophagia was lessened by injection of chlorpheniramine. α-FMH, famotidine and thioperamide had no effect on LPS-induced hypophagia.

4. These results suggest that there is an interaction between central LPS and the histaminergic system where LPS-induced hypophagia is mediated by H₁ histamine receptors in 3 h food-deprived broilers.

     

Expression and function of 5-HT7 receptors in smooth muscle preparations from equine duodenum, ileum, and pelvic flexure

In horses, gastrointestinal (GI) disorders occur frequently and cause a considerable demand for efficient medication. 5-Hydroxytryptamine receptors (5-HT) have been reported to be involved in GI tract motility and thus, are potential targets for treating functional bowel disorders. Our studies extend current knowledge on the 5-HT₇ receptor in equine duodenum, ileum and pelvic flexure by studying its expression throughout the intestine and its role in modulating contractility in vitro by immunofluorescence and organ bath experiments, respectively.5-HT₇ immunoreactivity was demonstrated in both smooth muscle layers, particularly in the circular one, and within the myenteric plexus. Interstitial cells of Cajal (ICC), identified by c-Kit labeling, show a staining pattern similar to that of 5-HT₇ immunoreactivity.The selective 5-HT₇ receptor antagonist SB-269970 increased the amplitude of contractions in spontaneous contracting specimens of the ileum and in electrical field-stimulated specimens of the pelvic flexure concentration-dependently.Our in vitro experiments suggest an involvement of the 5-HT₇ receptor subtype in contractility of equine intestine. While the 5-HT₇ receptor has been established to be constitutively active and inhibits smooth muscle contractility, our experiments demonstrate an increase in contractility by the 5-HT₇ receptor ligand SB-269970, suggesting it exerting inverse agonist properties.     

Histamine Receptor Expression in the Gastrointestinal Tract of Dogs

Histamine is an important mediator of many physiological processes including gastrointestinal function that acts via four different histamine receptors (H1R to H4R). Elevated histamine levels and increased HR messenger ribonucleic acid (mRNA) have been shown in humans with gastrointestinal disorders such as irritable bowel syndrome or allergic intestinal diseases. As there is limited knowledge concerning the distribution of histamine receptors (HR) in dogs, one aim of this study was to investigate the expression of histamine 1 receptor (H1R), histamine 2 receptor (H2R) and histamine 4 receptor (H4R) in the canine gastrointestinal tract at protein level using immunohistochemistry. Histamine 1 receptor, H2R and H4R were widely expressed throughout the canine gastrointestinal tract including epithelial, mesenchymal, neuronal and immune cells. In addition, in situ hybridisation was established for detecting canine H4R mRNA. Results showed H4R mRNA to be present in enterocytes, lamina propria immune cells and submucosal plexus in the duodenum and colon of nearly all investigated animals. The results elucidate the importance of HR in the canine gut and represent the basis for investigating their possible impact on canine inflammatory gastrointestinal disorders.     

Effects of histamine on chicken airways

This study showed that chicken bronchus is relatively insensitive to histamine. H₁ histamine receptors appear to mediate bronchoconstriction to histamine. In the presence of mepyramine, high doses of histamine (10^–3 to 5×10^–3M) produce weak bronchorelaxation which is susceptible to cimetidine.Cimetidine alone potentiated the bronchoconstriction to histamine. This shows the presence of a small population of histamine H₂-receptors in chicken bronchus, which may modulate bronchospasm during pulmonary allergic reactions.