Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histamine and other mediators have been shown to be involved in the ethanol-induced jejunal plasma protein loss. In this study we have investigated whether the histamine (H)-related component of this protein loss is mediated by H1-receptors, H2-receptors or both. Four groups of dogs (n = 12 in each) were studied. They were: untreated, H1 + H2-receptor blockade, H1-receptor blockade and H2-receptor blockade. Chlorpheniramine and ranitidine were used to block H1 and H2-receptor blockade. Chlorpheniramine and ranitidine were used to block H1 and H2-receptors respectively. In all animals, jejunal protein loss was measured over 10 min periods for 90 min. Ethanol increased protein loss in all time periods (p less than 0.001). This protein loss was depressed by H1 + H2-receptors blockade throughout 90 min (p less than 0.01). H1-receptor blockade caused a similar depression of ethanol effect but only during 20 to 40 min (p less than 0.05). In contrast, H2-receptor blockade aggravated the protein losing effect of ethanol throughout 90 min (p less than 0.01). Analyses of data tend to suggest that the ethanol-induced protein loss is mediated principally by H1-receptors, and that a complete inhibition of the histamine-related ethanol-induced protein loss can be achieved only by a simultaneous blockade of both H1 and H2-receptors, and not by H1- or H2-receptor blockade alone.
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PMID:The role of histamine1 and histamine2 receptors in the ethanol-induced jejunal plasma protein loss. 152 91

The intracerebroventricular (icv) administration of histamine but not N-telemethylhistamine and 1-methyl-4-imidazole acetic acid induced catalepsy in mice. Histamine H1-receptor blockers such as cyproheptadine, mepyramine and diphenhydramine reduced histamine-induced catalepsy. However, astemizole which is known to be without central effects, did not reduce histamine-induced catalepsy. The icv pretreatment with histamine H2-receptor blockers, such as metiamide and cimetidine, also had no effect. Moreover, various antidepressants, both imipramine- and atypical-type drugs antagonized histamine-induced catalepsy to various degrees in this experiment. Thus, the induction of catalepsy by icv administration of histamine was mediated through histamine H1-receptors, and suggested that antidepressants reduced histamine-induced catalepsy via this mechanism. Histamine-induced catalepsy is a possible new animal model of depression which can also be used for evaluation of atypical antidepressants.
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PMID:Effects of antidepressants and antihistaminics on catalepsy induced by intracerebroventricular administration of histamine in mice. 167 50

This study was aimed at evaluating the effect of histamine on tumor necrosis factor (TNF alpha) secretion by purified human blood monocytes. TNF alpha was measured by radioimmunoassay. Histamine caused a dose-dependent inhibition of lipopolysaccharide-induced TNF alpha production from human blood monocytes, averaging maximally 50% at 10(-5) M. Preincubation of mononuclear cells with an H2 antagonist (cimetidine), but not with an H1 antagonist (promethazine) prevented this inhibitory effect of histamine. In conclusion, histamine causes, in vitro, a depression of TNF alpha secretion by human monocytes through activation of H2 receptors.
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PMID:Effect of histamine on tumor necrosis factor production by human monocytes. 193 30

The response of guinea pig trachea to 5-hydroxytryptamine (serotonin; 5-HT) was investigated by studying tracheal strips suspended in organ chambers for isometric tension measurements. Serotonin concentrations of 0.1 to 10 microM produced concentration-dependent contractions, whereas at higher concentrations (10-300 microM) the agonist caused concentration-dependent relaxations. The 5-HT2 antagonist ketanserin shifted the bimodal 5-HT response-curve to the right (pA2 for ketanserin was 8.98). The 5-HT1A agonist, (+)-8-hydroxy-2-(di-N-propylamino)tetralin hydrobromide and 5-HT3 antagonist, ICS 205930 (3-tropanyl-indole-3-carboxylate) had no effect on the 5-HT-response curve. Incubation with atropine resulted in a depression of the maximal contractility and an increase in the EC50 without changing the bimodal nature of the concentration-response curve. Hexamethonium was able to block the atropine effect without significantly affecting the 5-HT concentration-response curve. Neither the constriction nor the relaxation was altered by propranolol, chlorpheniramine or capsaicin pretreatment. Histamine and carbachol preconstricted airways were also relaxed by 5-HT in a concentration-dependent fashion and this relaxation was antagonized by ketanserin (pKb for ketanserin in histamine preconstricted airways was 9.4). Epithelial denudation did not inhibit the 5-HT-induced relaxation. 5-HT stimulated inositol-monophosphate production which also exhibited a bimodal response and correlated well with the functional response. The above findings suggest that 5-HT causes both constriction and relaxation of the guinea pig airway, and that both responses are antagonized by a 5-HT2 receptor blocker. In addition, part of the constrictor response of 5-HT is mediated through a cholinergic preganglionic pathway. Finally, inositol-monophosphate production induced by 5-HT correlates with the functional response.
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PMID:Serotonin induces constriction and relaxation of the guinea pig airway. 197 97

Histamine H2-receptor antagonists (H2RAs) often are administered to intensive care unit patients in an attempt to reduce gastric acidity and to prevent stress-related mucosal damage. These agents have an extremely low overall incidence and severity of adverse reactions; however, hemodynamically significant hypotension has been noted. Clinical studies with rapidly administered intravenous cimetidine in critically ill patients have demonstrated a depression in blood pressure in up to 75 percent of patients. Ranitidine, also studied in this setting, does not appear to induce similar hemodynamic changes. The newer H2RAs, famotidine and nizatidine, have not been evaluated in critically ill patients.
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PMID:Hemodynamic effects of H2-receptor antagonists. 198 Jan 82

Measurements were made of the effects of methoxyphenamine hydrochloride on histamine-, acetylcholine- and U46619-induced bronchoconstriction in pentobarbitone-anaesthetized guinea-pigs, and on histamine- and acetylcholine-induced contractions of guinea-pig ileum in vitro. Methoxyphenamine (20 mg/kg, i.v.) did not affect bronchoconstriction induced by acetylcholine or the thromboxane A2-mimetic U46619. However, it produced a parallel rightward shift [2.94-(1.79, 4.41) fold, 95% confidence limits in parentheses] of the curve relating bronchoconstrictor responses to log-dose of histamine at a total dose of 13 mg/kg, i.v., which was not significantly different from the shift [3.30-(1.93, 5.56) fold] produced by 3 micrograms/kg, i.v., of the histamine antagonist mepyramine maleate. Histamine-induced contractions of the isolated guinea-pig ileum were antagonized by methoxyphenamine (10(-5) to 10(-3) M). The histamine log-concentration-response curve was shifted to the right in a parallel manner by methoxyphenamine (10(-5) to 10(-4) M), without depression of maximum responses. However, at higher concentrations, maximum responses were reduced. The slope of the Schild plot was significantly different from -1. The degree of the rightward shift of the concentration-response curves to histamine, produced by 10(-5) M of methoxyphenamine [3.90-(2.83, 4.97) fold], was not significantly different from that produced by 3 x 10(-9) M of mepyramine [4.60-(2.86, 6.52) fold]. Methoxyphenamine, at concentrations of 10(-5) to 3 x 10(-4) M, had no significant effect on responses of guinea-pig ilea to acetylcholine (10(-9) to 10(-5) M). These results indicate that methoxyphenamine antagonizes the effects of histamine both in vivo and in vitro. In vitro studies indicate a noncompetitive antagonism.
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PMID:Methoxyphenamine inhibits histamine-induced bronchoconstriction in anaesthetized guinea-pigs and histamine-induced contractions of guinea-pig ileum in vitro. 198 67

Five mouse strains, CBA/J, BALB/c, C3H/HeJ, A/J, and C57Bl/6J-bg-bg, all showed similar expulsion kinetics for Nippostrongylus brasiliensis (infective dose = 500 L3). Typically, parasite recovery was maximal on day 2 in the lungs and by day 4 in the small intestine. Few worms (less than 5% infective dose) were recovered on day 14 in all strains. These same mouse strains exhibited immune depression on day 5 of infection with mesenteric lymph node cells (MLN) showing reduced (10-30% normal) IgM, IgG, and IgA responses against heterologous antigen. The intestinal mast cell numbers and tissue histamine levels were examined in CBA/J mice. Mast cell numbers increased (normal = less than 1/villous crypt unit; VCU) from day 5 and peaked on day 12 (greater than 15/VCU). Intestinal histamine levels did not completely correlate with mast cell numbers with maximum concentrations (240 +/- 73 ng/g, 2-fold over normal) reached by day 8. Histamine concentrations in the intestine returned to normal levels by day 20.
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PMID:Characterization of Nippostrongylus brasiliensis infection in different strains of mice. 235 68

Heart fragments obtained from human right atrium contain 1.5 +/- 0.2 micrograms of histamine per gram of wet tissue. Human heart spontaneously synthesizes significant amounts of PGI2, PGF2 alpha, PGE2 and TxA2. The Ca2+ ionophore A 23187 (0.5-3 micrograms/ml) dose-dependently induces histamine release and prostanoid production. Histamine (0.5-1 micrograms/kg/min) infusion in 10 normal donors produced an increase in heart rate and a significant depression of the ST segment. Selective H1 receptor stimulation in patients undergoing cardiac catheterization resulted in a decrease of the mean aortic pressure and of coronary vascular resistance.
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PMID:Histamine and human heart. 240 15

Intracellular recordings were made from submucous plexus neurons of the guinea-pig cecum maintained in vitro. Histamine (0.3-10 microM) produced a dose-dependent membrane depolarization (congruent to 13 mV with 3 microM) in about 28% of the cells tested; most of these cells showed a prominent calcium-activated potassium conductance (AH cells). The depolarization was due primarily to an inactivation of potassium conductance which is available at the resting membrane potential of -60 mV. Peak amplitude of the fast excitatory postsynaptic potential was depressed by histamine (0.1-10 microM) in a dose-dependent manner (congruent to 62% depression with 1 microM). This was observed even in those cells in which histamine did not produce any membrane depolarizations (mostly S cells). The depression of the fast excitatory postsynaptic potential resulted from the presynaptic inhibition of acetylcholine release. Histamine also reduced the amplitude of the non-cholinergic, presumably peptidergic, slow excitatory postsynaptic potential by suppressing peptide release from presynaptic nerve terminals. Peak amplitude of the adrenergic inhibitory synaptic potential was not depressed by histamine suggesting that histamine receptors are not present on presynaptic terminals of sympathetic nerve fibres. Both postsynaptic and presynaptic actions of histamine were blocked by cimetidine or ranitidine but not by pyrilamine implying that H2 receptors are involved.
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PMID:Histamine H2 receptor mediates postsynaptic excitation and presynaptic inhibition in submucous plexus neurons of the guinea-pig. 271 Mar 40

Histamine, in vitro, via H2-receptor activation, exerts an inhibitory effect on polymorphonuclear (PMN) chemotaxis and T-lymphocyte proliferation. The aim of this study was to verify these histamine inhibitory effects in man. Healthy and asymptomatic asthmatic volunteers inhaled a histamine (0.1%), methacholine (0.1%) or saline aerosol for 3 min. Asthmatics were selected on the basis of low bronchial sensitivity to pharmacological agents. Blood was taken before and at different times following aerosol challenge. PMN chemotaxis was studied in vitro by the Boyden assay. T-lymphocyte proliferation was measured by counting H3-thymidine incorporation in cultured mononuclear cells. Plasma histamine was measured by a specific and sensitive radioimmunoassay. Inhalation of histamine or methacholine caused a 22-43% decrease in forced expiratory volume in one second (FEV1) in asthmatics only. In both groups, there was a transient increase of plasma histamine immediately following histamine inhalation, and 2 and 4 h later, a significant decrease of PMN chemotaxis and T-lymphocyte proliferation. Inhalation of methacholine or saline had no effect on leukocytes. Oral administration of an H2-receptor antagonist, cimetidine, before histamine inhalation, prevented the decrease of PMN chemotaxis and T-lymphocyte proliferation, whereas astemizole, an H1-antagonist, had no effect. In conclusion, histamine, at a dose commonly used for bronchial provocation tests, causes, in man, 2 and 4 h after inhalation, a depression of PMN chemotaxis (tested in vitro) and T-lymphocyte proliferation through activation of H2-receptors.
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PMID:Depression of polymorphonuclear chemotaxis and T-lymphocyte proliferation following histamine inhalation in man. 280 7


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