Your search keyword '"Methylhistamines metabolism"' showing total 187 results

1. Why Monoamine Oxidase B Preferably Metabolizes N -Methylhistamine over Histamine: Evidence from the Multiscale Simulation of the Rate-Limiting Step.

Author

Maršavelski A, Mavri J, Vianello R, and Stare J

Subjects

Brain metabolism, Computer Simulation, Density Functional Theory, Histamine chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Methylhistamines chemistry, Molecular Structure, Oxidation-Reduction, Substrate Specificity, Histamine metabolism, Methylhistamines metabolism, Monoamine Oxidase metabolism

Abstract

Histamine levels in the human brain are controlled by rather peculiar metabolic pathways. In the first step, histamine is enzymatically methylated at its imidazole N τ atom, and the produced N -methylhistamine undergoes an oxidative deamination catalyzed by monoamine oxidase B (MAO-B), as is common with other monoaminergic neurotransmitters and neuromodulators of the central nervous system. The fact that histamine requires such a conversion prior to oxidative deamination is intriguing since MAO-B is known to be relatively promiscuous towards monoaminergic substrates; its in-vitro oxidation of N -methylhistamine is about 10 times faster than that for histamine, yet this rather subtle difference appears to be governing the decomposition pathway. This work clarifies the MAO-B selectivity toward histamine and N -methylhistamine by multiscale simulations of the rate-limiting hydride abstraction step for both compounds in the gas phase, in aqueous solution, and in the enzyme, using the established empirical valence bond methodology, assisted by gas-phase density functional theory (DFT) calculations. The computed barriers are in very good agreement with experimental kinetic data, especially for relative trends among systems, thereby reproducing the observed MAO-B selectivity. Simulations clearly demonstrate that solvation effects govern the reactivity, both in aqueous solution as well as in the enzyme although with an opposing effect on the free energy barrier. In the aqueous solution, the transition-state structure involving histamine is better solvated than its methylated analog, leading to a lower barrier for histamine oxidation. In the enzyme, the higher hydrophobicity of N -methylhistamine results in a decreased number of water molecules at the active side, leading to decreased dielectric shielding of the preorganized catalytic electrostatic environment provided by the enzyme. This renders the catalytic environment more efficient for N -methylhistamine, giving rise to a lower barrier relative to histamine. In addition, the transition state involving N -methylhistamine appears to be stabilized by the surrounding nonpolar residues to a larger extent than with unsubstituted histamine, contributing to a lower barrier with the former.

Published

2022

2. How good are mast cell mediators?

Author

Weiler CR

Subjects

Humans, Leukotriene E4 urine, Methylhistamines blood, Methylhistamines metabolism, Prostaglandins urine, Tryptases blood, Tryptases genetics, Tryptases metabolism, Inflammation Mediators blood, Inflammation Mediators urine, Mast Cells metabolism, Mastocytosis diagnosis

Published

2021

3. Samelisant (SUVN-G3031), a potent, selective and orally active histamine H3 receptor inverse agonist for the potential treatment of narcolepsy: pharmacological and neurochemical characterisation.

Author

Nirogi R, Benade V, Daripelli S, Subramanian R, Kamuju V, Bhyrapuneni G, Muddana NR, Mekala VR, Petlu S, Jayarajan P, Badange R, Shinde A, and Jasti V

Subjects

Animals, Electroencephalography, Histamine metabolism, Humans, Male, Methylhistamines metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Orexins genetics, Rats, Rats, Wistar, Sleep drug effects, Wakefulness drug effects, Histamine Agonists pharmacology, Morpholines pharmacology, Narcolepsy drug therapy, Piperidines pharmacology

Abstract

Rationale: Samelisant (SUVN-G3031) is a potent and selective histamine H3 receptor (H3R) inverse agonist with good brain penetration and oral bioavailability., Objectives: Pharmacological and neurochemical characterisation to support the utility of Samelisant (SUVN-G3031) in the treatment of sleep-related disorders like narcolepsy., Methods: Samelisant (SUVN-G3031) was tested in rat brain microdialysis studies for evaluation of modulation in histamine, dopamine and norepinephrine. Sleep EEG studies were carried out in orexin knockout mice to study the effects of Samelisant (SUVN-G3031) on the sleep-wake cycle and cataplexy., Results: Samelisant (SUVN-G3031) has a similar binding affinity towards human (hH3R; K i = 8.7 nM) and rat (rH3R; K i = 9.8 nM) H3R indicating no inter-species differences. Samelisant (SUVN-G3031) displays inverse agonist activity and it exhibits very high selectivity towards H3R. Samelisant (SUVN-G3031) treatment in mice produced a dose-dependent increase in tele-methylhistamine levels indicating the activation of histaminergic neurotransmission. Apart from increasing the levels of histamine, Samelisant (SUVN-G3031) also modulates dopamine and norepinephrine levels in the cerebral cortex while it has no effects on dopamine levels in the striatum or nucleus accumbens. Treatment with Samelisant (SUVN-G3031; 10 and 30 mg/kg, p.o.) produced a significant increase in wakefulness with a concomitant decrease in NREM sleep in orexin knockout mice subjected to sleep EEG. Samelisant (SUVN-G3031) also produced a significant decrease in Direct REM sleep onset (DREM) episodes, demonstrating its anticataplectic effects in an animal model relevant to narcolepsy. Modulation in cortical levels of histamine, norepinephrine and dopamine provides the neurochemical basis for wake-promoting and anticataplectic effects observed in orexin knockout mice., Conclusions: Pre-clinical studies of Samelisant (SUVN-G3031) provide a strong support for utility in the treatment of sleep-related disorders related to EDS and is currently being evaluated in a phase 2 proof of concept study in the USA for the treatment of narcolepsy with and without cataplexy.

Published

2021

4. Fecal Concentrations of N-methylhistamine in Common Marmosets ( Callithrix jacchus ).

Author

Parambeth JC, López FR, Lopez R, Keyser SB, Lidbury JA, Suchodolski JS, and Steiner JM

Subjects

Animals, Biomarkers metabolism, Callithrix, Enteritis metabolism, Feces, Female, Male, Methylhistamines metabolism, Enteritis veterinary, Monkey Diseases metabolism

Abstract

Chronic lymphocytic enteritis (CLE) is a frequent disease in common marmosets. However, no diagnostic test for early detection of CLE is available. Mast cells have an important role in gastrointestinal disease. The purpose of this study was to measure fecal concentrations of N-methylhistamine (NMH), a breakdown product of histamine metabolism, in common marmosets. A previously established NMH gas chromatography-mass spectrometry assay for canine feces and urine was used, and partial validation was performed. The reference intervals ( n = 30) established for fecal NMH concentrations in common marmoset were 118.2 ng/g or less for a single fecal sample, 121.7 ng/g or less for the 3-d mean, and less than or equal to 167.5 ng/g for the 3-d maximum. Considerable day-to-day variation was observed in fecal NMH concentrations; the mean %CV was 42.2% (minimum, 7.1%; maximum, 141.4%). Fecal NMH concentrations were measured in 14 marmosets for which necropsy reports were available; 7 of the 8 marmosets with CLE and the 1 animal with lymphoma and ulcerative enteritis had increased fecal NMH concentrations. Increased fecal NMH concentrations may serve as a potential marker for CLE; however, further studies exploring the role of mast cells in marmosets with CLE are needed.

Published

2019

5. Mast Cell Activation and KSHV Infection in Kaposi Sarcoma.

Author

Ayers LW, Barbachano-Guerrero A, McAllister SC, Ritchie JA, Asiago-Reddy E, Bartlett LC, Cesarman E, Wang D, Rochford R, Martin JN, and King CA

Subjects

Adult, Aged, Aged, 80 and over, Biomarkers, Cytokines metabolism, Disease Susceptibility, Female, Humans, Immunohistochemistry, Male, Mast Cells metabolism, Methylhistamines metabolism, Middle Aged, Models, Biological, Sarcoma, Kaposi metabolism, Sarcoma, Kaposi pathology, Skin metabolism, Skin pathology, Tryptases metabolism, Herpesviridae Infections complications, Herpesviridae Infections virology, Herpesvirus 8, Human, Mast Cells immunology, Sarcoma, Kaposi etiology

Abstract

Purpose: Kaposi sarcoma (KS) is a vascular tumor initiated by infection of endothelial cells (ECs) with KS-associated herpesvirus (KSHV). KS is dependent on sustained proinflammatory signals provided by intralesional leukocytes and continued infection of new ECs. However, the sources of these cytokines and infectious virus within lesions are not fully understood. Here, mast cells (MCs) are identified as proinflammatory cells within KS lesions that are permissive for, and activated by, infection with KSHV. Experimental Design: Three validated MC lines were used to assess permissivity of MCs to infection with KSHV and to evaluate MCs activation following infection. Biopsies from 31 AIDS-KS cases and 11 AIDS controls were evaluated by IHC for the presence of MCs in KS lesions and assessment of MC activation state and infection with KSHV. Plasma samples from 26 AIDS-KS, 13 classic KS, and 13 healthy adults were evaluated for levels of MC granule contents tryptase and histamine. Results: In culture, MCs supported latent and lytic KSHV infection, and infection-induced MC degranulation. Within KS lesions, MCs were closely associated with spindle cells. Furthermore, MC activation was extensive within patients with KS, reflected by elevated circulating levels of tryptase and a histamine metabolite. One patient with clinical signs of extensive MC activation was treated with antagonists of MC proinflammatory mediators, which resulted in a rapid and durable regression of AIDS-KS lesions. Conclusions: Using complimentary in vitro and in vivo studies we identify MCs as a potential long-lived reservoir for KSHV and a source of proinflammatory mediators within the KS lesional microenvironment. In addition, we identify MC antagonists as a promising novel therapeutic approach for KS. Clin Cancer Res; 24(20); 5085-97. ©2018 AACR ., (©2018 American Association for Cancer Research.)

Published

2018

6. Monoamine oxidase-dependent histamine catabolism accounts for post-ischemic cardiac redox imbalance and injury.

Author

Costiniti V, Spera I, Menabò R, Palmieri EM, Menga A, Scarcia P, Porcelli V, Gissi R, Castegna A, and Canton M

Subjects

Animals, Disease Models, Animal, Heart Ventricles cytology, Humans, Isolated Heart Preparation, Male, Metabolomics, Methylhistamines metabolism, Mice, Mice, Inbred C57BL, Mitochondria metabolism, Monoamine Oxidase Inhibitors pharmacology, Myocardial Reperfusion Injury etiology, Myocardium cytology, Myocardium metabolism, Myocytes, Cardiac cytology, Myocytes, Cardiac metabolism, Myocytes, Cardiac pathology, Oxidation-Reduction, Oxidative Stress, Pargyline pharmacology, Reactive Oxygen Species metabolism, Heart Ventricles pathology, Histamine metabolism, Monoamine Oxidase metabolism, Myocardial Reperfusion Injury pathology, Myocardium pathology

Abstract

Monoamine oxidase (MAO), a mitochondrial enzyme that oxidizes biogenic amines generating hydrogen peroxide, is a major source of oxidative stress in cardiac injury. However, the molecular mechanisms underlying its overactivation in pathological conditions are still poorly characterized. Here, we investigated whether the enhanced MAO-dependent hydrogen peroxide production can be due to increased substrate availability using a metabolomic profiling method. We identified N 1 -methylhistamine -the main catabolite of histamine- as an important substrate fueling MAO in Langendorff mouse hearts, directly perfused with a buffer containing hydrogen peroxide or subjected to ischemia/reperfusion protocol. Indeed, when these hearts were pretreated with the MAO inhibitor pargyline we observed N 1 -methylhistamine accumulation along with reduced oxidative stress. Next, we showed that synaptic terminals are the major source of N 1 -methylhistamine. Indeed, in vivo sympathectomy caused a decrease of N 1 -methylhistamine levels, which was associated with a marked protection in post-ischemic reperfused hearts. As far as the mechanism is concerned, we demonstrate that exogenous histamine is transported into isolated cardiomyocytes and triggers a rise in the levels of reactive oxygen species (ROS). Once again, pargyline pretreatment induced intracellular accumulation of N 1 -methylhistamine along with decrease in ROS levels. These findings uncover a receptor-independent mechanism for histamine in cardiomyocytes. In summary, our study reveals a novel and important pathophysiological causative link between MAO activation and histamine availability during pathophysiological conditions such as oxidative stress/cardiac injury., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

7. External Influences on Invertebrate Brain Histamine and Related Compounds via an Automated Derivatization Method for Capillary Electrophoresis.

Author

Parrot S, Pavón Vergés M, Perrot-Minnot MJ, and Denoroy L

Subjects

Animals, Brain metabolism, Calibration, Reproducibility of Results, Rivers, Seasons, Amphipoda metabolism, Automation, Laboratory methods, Electrophoresis, Capillary methods, Histamine metabolism, Histidine metabolism, Methylhistamines metabolism

Abstract

Histamine has been shown to modulate visual system and photic behavior in arthropods. However, few methods are available for the direct quantification of histamine and its precursor and metabolites in arthropod brain. In this work, a method for the separation of histamine, its precursor histidine, and its metabolite N-methyl-histamine from brain extracts of a freshwater crustacean has been developed using capillary electrophoresis with laser-induced fluorescence detection. Molecules were tagged on their primary amine function with naphthalene-2,3-dicarboxaldehyde, but derivatized histamine and N-methyl-histamine exhibited poor stability in contrast to derivatized histidine. To overcome this limitation, an automated derivatization performed within the capillary electrophoresis instrument was optimized and quantitatively validated. The limits of detection were 50, 30, and 60 nmol/L for histidine, histamine, and N-methyl-histamine, respectively. This study reports, for the first time, the amounts of histamine and its related compounds in brain extracts from populations of the freshwater amphipod Gammarus fossarum, and shows that these amounts vary mainly according to population and season, but are not affected by an experimental electrical shock.

Published

2017

8. Identification of Histamine H 3 Receptor Ligands Using a New Crystal Structure Fragment-based Method.

Author

Frandsen IO, Boesgaard MW, Fidom K, Hauser AS, Isberg V, Bräuner-Osborne H, Wellendorph P, and Gloriam DE

Subjects

Amino Acid Sequence, Binding Sites, Binding, Competitive, Crystallography, X-Ray, Databases, Pharmaceutical, Gene Expression, HEK293 Cells, High-Throughput Screening Assays, Histamine Agonists metabolism, Histamine Antagonists metabolism, Humans, Inositol Phosphates metabolism, Kinetics, Ligands, Methylhistamines metabolism, Molecular Docking Simulation, Protein Binding, Protein Conformation, alpha-Helical, Protein Interaction Domains and Motifs, Receptors, Histamine H3 genetics, Receptors, Histamine H3 metabolism, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Structure-Activity Relationship, Thermodynamics, User-Computer Interface, Histamine Agonists chemistry, Histamine Antagonists chemistry, Inositol Phosphates chemistry, Methylhistamines chemistry, Receptors, Histamine H3 chemistry

Abstract

Virtual screening offers an efficient alternative to high-throughput screening in the identification of pharmacological tools and lead compounds. Virtual screening is typically based on the matching of target structures or ligand pharmacophores to commercial or in-house compound catalogues. This study provides the first proof-of-concept for our recently reported method where pharmacophores are instead constructed based on the inference of residue-ligand fragments from crystal structures. We demonstrate its unique utility for G protein-coupled receptors, which represent the largest families of human membrane proteins and drug targets. We identified five neutral antagonists and one inverse agonist for the histamine H 3 receptor with potencies of 0.7-8.5 μM in a recombinant receptor cell-based inositol phosphate accumulation assay and validated their activity using a radioligand competition binding assay. H 3 receptor antagonism is of large therapeutic value and our ligands could serve as starting points for further lead optimisation. The six ligands exhibit four chemical scaffolds, whereof three have high novelty in comparison to the known H 3 receptor ligands in the ChEMBL database. The complete pharmacophore fragment library is freely available through the GPCR database, GPCRdb, allowing the successful application herein to be repeated for most of the 285 class A GPCR targets. The method could also easily be adapted to other protein families.

Published

2017

9. What a Difference a Methyl Group Makes: The Selectivity of Monoamine Oxidase B Towards Histamine and N-Methylhistamine.

Author

Maršavelski A and Vianello R

Subjects

Binding Sites, Biocatalysis, Catalytic Domain, Histamine chemistry, Humans, Methylhistamines chemistry, Molecular Dynamics Simulation, Monoamine Oxidase chemistry, Quantum Theory, Thermodynamics, Histamine metabolism, Methylhistamines metabolism, Monoamine Oxidase metabolism

Abstract

Monoamine oxidase (MAO) enzymes catalyze the degradation of a very broad range of biogenic and dietary amines including many neurotransmitters in the brain, whose imbalance is extensively linked with the biochemical pathology of various neurological disorders. Although sharing around 70 % sequence identity, both MAO A and B isoforms differ in substrate affinities and inhibitor sensitivities. Inhibitors that act on MAO A are used to treat depression, due to their ability to raise serotonin concentrations, whereas MAO B inhibitors decrease dopamine degradation and improve motor control in patients with Parkinson disease. Despite this functional importance, the factors affecting MAO selectivity are poorly understood. Here, we used a combination of molecular dynamics (MD) simulations, molecular mechanics with Poisson-Boltzmann and surface area solvation (MM-PBSA) binding free energy evaluations, and quantum mechanical (QM) cluster calculations to address the unexpected, yet challenging MAO B selectivity for N-methylhistamine (NMH) over histamine (HIS), differing only in a single methyl group distant from the reactive ethylamino center. This study shows that a dominant selectivity contribution is offered by a lower activation free energy for NMH by 2.6 kcal mol -1 , in excellent agreement with the experimental ΔΔG ≠ EXP =1.4 kcal mol -1 , together with a more favorable reaction exergonicity and active-site binding. This study also confirms the hydrophobic nature of the MAO B active site and underlines the important role of Ile199, Leu171, and Leu328 in properly orienting substrates for the reaction., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

10. Hydralazine is involved in tele-methylhistamine metabolism by inhibiting monoamine oxidase B in pregnancy-associated hypertensive mice.

Author

Kawasaki S, Kako K, Nagashima Y, Kanou A, Ishida J, and Fukamizu A

Subjects

Amines blood, Animals, Antihypertensive Agents pharmacology, Biocatalysis drug effects, Chromatography, High Pressure Liquid methods, Female, Humans, Hypertension, Pregnancy-Induced enzymology, Hypertension, Pregnancy-Induced metabolism, Methylhistamines blood, Mice, Pregnancy, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Substrate Specificity, Hydralazine pharmacology, Hypertension, Pregnancy-Induced drug therapy, Methylhistamines metabolism, Monoamine Oxidase metabolism

Abstract

Hypertensive disorders of pregnancy globally affect 6-8% of gestation and remain a major cause of both foetal and maternal morbidity and mortality. However, the antihypertensive medications for the patients of this disease are strictly limited due to the teratogenic potentials. Here, we found that tele-methylhistamine (tMH) increased in response to the administration of hydralazine (Hdz), a vasodilative agent, in the pregnancy-associated hypertensive (PAH) mice. Hdz abrogated the degradation of tMH catalyzed by monoamine oxidase B (MAO-B) in vitro. These results suggested that Hdz inhibited the MAO-B activity and consequently tMH increased in the maternal circulation of PAH mice., (© The Authors 2016. Published by Oxford University Press on behalf of the Japanese Biochemical Society. All rights reserved.)

Published

2017

11. Altered histamine neurotransmission in HPRT-deficient mice.

Author

Tschirner SK, Gutzki F, Kaever V, Seifert R, and Schneider EH

Subjects

3,4-Dihydroxyphenylacetic Acid metabolism, Animals, Brain metabolism, Dopamine analogs & derivatives, Dopamine metabolism, Homovanillic Acid metabolism, Imidazoles metabolism, Lesch-Nyhan Syndrome genetics, Methylhistamines metabolism, Mice, Knockout, Synaptic Transmission, Histamine metabolism, Hypoxanthine Phosphoribosyltransferase genetics

Abstract

Lesch-Nyhan syndrome (LNS) is an X-chromosomal disorder with congenital deficiency of the purine salvage enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT) as underlying defect. We determined the concentrations of dopamine, histamine and their metabolites in brains of HPRT knockout mice, which serve as an animal model for LNS, and compared the results to those obtained from wild-type controls. Analyses were performed by high performance liquid chromatography (HPLC)-coupled tandem mass spectrometry (MS/MS). Besides a decrease of dopamine and 3-methoxytyramine (3-MT) concentrations in the cerebral hemisphere, HPRT-deficient mice also exhibited significantly reduced 1-methylhistamine (1-MH) and 1-methylimidazole-4-acetic acid (1-MI4AA) concentrations in the brain hemisphere and medulla. Moreover, the amount of 1-MI4AA was significantly decreased in the cerebellum. Our findings show that neuronal perturbations caused by HPRT deficiency are not restricted to the dopamine system but also affect histaminergic neurotransmission. These new insights into the brain metabolism of an LNS mouse model may help to find new therapeutic strategies to improve the quality of life of LNS patients., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published

2015

12. Urinary and faecal N-methylhistamine concentrations do not serve as markers for mast cell activation or clinical disease activity in dogs with chronic enteropathies.

Author

Anfinsen KP, Berghoff N, Priestnall SL, Suchodolski JS, Steiner JM, and Allenspach K

Subjects

Animals, Biomarkers analysis, Chronic Disease, Dogs, Female, Intestinal Diseases pathology, Intestinal Diseases physiopathology, Male, Methylhistamines urine, Cell Degranulation, Dog Diseases pathology, Dog Diseases physiopathology, Intestinal Diseases veterinary, Mast Cells physiology, Methylhistamines metabolism

Abstract

Background: This study sought to correlate faecal and urinary N-methylhistamine (NMH) concentrations with resting versus degranulated duodenal mast cell numbers in dogs with chronic enteropathies (CE), and investigate correlations between intestinal mast cell activation and clinical severity of disease as assessed by canine chronic enteropathy clinical activity index (CCECAI), and between urinary and faecal NMH concentrations, mast cell numbers, and histopathological scores. Twenty-eight dogs with CE were included. Duodenal biopsies were stained with haematoxylin and eosin (H&E), toluidine blue, and by immunohistochemical labelling for tryptase. Duodenal biopsies were assigned a histopathological severity score, and duodenal mast cell numbers were counted in five high-power fields after metachromatic and immunohistochemical staining. Faecal and urinary NMH concentrations were measured by gas chromatography-mass spectrometry., Results: There was no correlation between the CCECAI and faecal or urinary NMH concentrations, mast cell numbers, or histopathological score - or between faecal or urinary NMH concentration and mast cell numbers. Post hoc analysis revealed a statistically significant difference in toluidine blue positive mast cells between two treatment groups (exclusion diet with/without metronidazole versus immunosuppression (IS)), with higher numbers among dogs not requiring IS., Conclusion: Faecal and urinary NMH concentrations and duodenal mast cell numbers were not useful indicators of severity of disease as assessed by the CCECAI or histological evaluation. The number of duodenal mast cells was higher in dogs that did not need IS, i.e. in dogs responding to an exclusion diet (with/without metronidazole), than in dogs requiring IS. Further studies comparing the role of mast cells in dogs with different forms of CE are needed.

Published

2014

13. Functional characterization of histamine H4 receptor on human mast cells.

Author

Jemima EA, Prema A, and Thangam EB

Subjects

Cells, Cultured, Cytokines metabolism, Gene Expression, Humans, Immune System metabolism, Infant, Newborn, Inflammation Mediators metabolism, Leukotrienes metabolism, Methylhistamines metabolism, Receptors, G-Protein-Coupled metabolism, Receptors, Histamine metabolism, Receptors, Histamine H1 genetics, Receptors, Histamine H1 metabolism, Receptors, Histamine H4, Th1 Cells metabolism, Th2 Cells metabolism, Mast Cells immunology, Receptors, G-Protein-Coupled physiology, Receptors, Histamine physiology

Abstract

Among the four different types of histamine receptors (H1-H4), H4R is predominantly expressed in immune cells and involved in immunomodulatory response. Here, in this study we determined the expression of H4R in human mast cells (HMC-1, LAD-2 and primary cord blood derived CD34+ human mast cells) and characterized its functional properties. Interestingly, we found that human mast cells responded to both histamine (natural ligand) and 4-methylhistamine (selective H4R agonist) for sustained intracellular calcium mobilization, degranulation and cytokine production. However, only histamine induced the release of cAMP, but 4-methylhistamine down regulates cAMP indicating that H4R mediates its effect through Gαi/o protein and H1R via Gαq protein. Furthermore, both histamine and 4-methylhistamine induced the production of cysteinyl leukotrienes and LTB4. Using human inflammation antibody array membrane, we found that H4R induced the expression of various inflammatory proteins, involving pro-inflammatory cytokines and chemokines and these are TGF-β1, TNF-α, TNF-β, PDGF-BB, TIMP-2, M-CSF, IP-10, IL-16, IL-6, IL-3, IL-10, MIP-1α, IL-1α, ICAM-1, Eotaxin-2, RANTES, IL-8, MCP-1, and IL-6sR. We also quantified the level of various inflammatory cytokines produced by human mast cells through H4R. It was observed that, the production level of Th2 cytokines IL-4(401.34 pg/ml), IL-5 (64.21 pg/ml) and IL-13 (1044 pg/ml) and classical proinflammatory cytokines IL-6 (221.27 pg/ml) and IL-1β (34.24 pg/ml) and chemokines MCP-1(106 pg/ml) and IL-8 (818.32 pg/ml). Furthermore, activation of H4R caused the phosphorylation of ERK and PI3K in a time dependent manner. Taken together these data demonstrate that, the activation of H4R in human mast cells produced not only inflammatory mediators that are associated with allergic reactions but also other inflammatory conditions., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

14. Fecal and urinary N-methylhistamine concentrations in dogs with chronic gastrointestinal disease.

Author

Berghoff N, Hill S, Parnell NK, Mansell J, Suchodolski JS, and Steiner JM

Subjects

Animals, Biomarkers metabolism, Biomarkers urine, Chronic Disease, Dog Diseases immunology, Dogs, Feces chemistry, Gastrointestinal Diseases diagnosis, Gastrointestinal Diseases immunology, Inflammation diagnosis, Inflammation immunology, Intestinal Mucosa metabolism, Mast Cells metabolism, Methylhistamines urine, Dog Diseases diagnosis, Gastrointestinal Diseases veterinary, Inflammation veterinary, Methylhistamines metabolism

Abstract

Due to their ability to release inflammatory mediators, such as histamine, mast cells are potentially important in gastrointestinal disease. The purpose of this study was to measure N-methylhistamine (NMH), a histamine metabolite, in fecal and urine samples from dogs with chronic gastrointestinal disease. Fecal and urinary NMH concentrations were compared between dogs with chronic gastrointestinal disease and control dogs, and/or to control ranges. Correlation between fecal and urinary NMH concentrations, serum C-reactive protein (CRP) concentration, the clinical disease activity index (CCECAI), and gastrointestinal mucosal mast cell numbers (where available) in dogs with gastrointestinal disease was evaluated. Seven of 16 dogs with gastrointestinal disease had increased urinary or fecal NMH concentrations, but there was no correlation between NMH concentrations and the CCECAI or mucosal mast cells numbers. Urinary NMH concentrations were positively associated with histological grading and serum CRP concentrations. The lack of correlation between NMH concentrations and the CCECAI suggests that NMH may not be a good marker for clinical disease activity in dogs as determined by the CCECAI. Based on their association with severity of intestinal mucosal inflammation, urinary NMH concentrations may potentially have clinical utility as a marker of intestinal inflammation in certain groups of dogs with chronic gastrointestinal disease, but future studies in a larger number of dogs are necessary to further characterize the role of mast cell-mediated inflammation in dogs with chronic gastrointestinal disease., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

15. Mechanism of the histamine H(3) receptor-mediated increase in exploratory locomotor activity and anxiety-like behaviours in mice.

Author

Mohsen A, Yoshikawa T, Miura Y, Nakamura T, Naganuma F, Shibuya K, Iida T, Harada R, Okamura N, Watanabe T, and Yanai K

Subjects

Animals, Anxiety chemically induced, Anxiety genetics, Biogenic Monoamines metabolism, Brain drug effects, Brain metabolism, Disease Models, Animal, Enzyme Inhibitors pharmacology, Exploratory Behavior drug effects, Histamine metabolism, Histamine Antagonists toxicity, Male, Maze Learning drug effects, Methylhistamines metabolism, Methylhistidines pharmacology, Mice, Mice, Inbred C57BL, Mice, Knockout, Morpholines toxicity, Piperidines toxicity, Receptors, Histamine H1 deficiency, Receptors, Histamine H1 genetics, Receptors, Histamine H2 deficiency, Receptors, Histamine H2 genetics, Anxiety physiopathology, Exploratory Behavior physiology, Receptors, Histamine H3 physiology

Abstract

Histaminergic neurons are activated by histamine H(3) receptor (H(3)R) antagonists, increasing histamine and other neurotransmitters in the brain. The prototype H(3)R antagonist thioperamide increases locomotor activity and anxiety-like behaviours; however, the mechanisms underlying these effects have not been fully elucidated. This study aimed to determine the mechanism underlying H(3)R-mediated behavioural changes using a specific H(3)R antagonist, JNJ-10181457 (JNJ). First, we examined the effect of JNJ injection to mice on the concentrations of brain monoamines and their metabolites. JNJ exclusively increased N(τ)-methylhistamine, the metabolite of brain histamine used as an indicator of histamine release, suggesting that JNJ dominantly stimulates the release of histamine release but not of other monoamines. Next, we examined the mechanism underlying JNJ-induced behavioural changes using open-field tests and elevated zero maze tests. JNJ-induced increase in locomotor activity was inhibited by α-fluoromethyl histidine, an inhibitor of histamine synthesis, supporting that H(3)R exerted its effect through histamine neurotransmission. The JNJ-induced increase in locomotor activity in wild-type mice was preserved in H(1)R gene knockout mice but not in histamine H2 receptor (H(2)R) gene knockout mice. JNJ-induced anxiety-like behaviours were partially reduced by diphenhydramine, an H(1)R antagonist, and dominantly by zolantidine, an H(2)R antagonist. These results suggest that H(3)R blockade induces histamine release, activates H(2)R and elicits exploratory locomotor activity and anxiety-like behaviours., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

16. Presentation of untreated systemic mastocytosis as recurrent, pulseless-electrical-activity cardiac arrests resistant to cardiac pacemaker.

Author

Butterfield JH and Weiler CR

Subjects

Acetates administration & dosage, Aged, 80 and over, Aspirin administration & dosage, Cromolyn Sodium administration & dosage, Cyclopropanes, Death, Sudden, Cardiac prevention & control, Electrocardiography, Female, Heart Rate, Histamine H1 Antagonists administration & dosage, Histamine H2 Antagonists administration & dosage, Humans, Interleukin-2 Receptor alpha Subunit metabolism, Mastocytosis, Systemic complications, Mastocytosis, Systemic therapy, Methylhistamines metabolism, Mutation genetics, Pacemaker, Artificial statistics & numerical data, Quinolines administration & dosage, Recurrence, Stem Cell Factor genetics, Sulfides, Tryptases blood, Death, Sudden, Cardiac etiology, Drug Therapy, Combination methods, Histamine metabolism, Mast Cells pathology, Mastocytosis, Systemic diagnosis

Abstract

Recurrent, pulseless-electrical-activity (PEA) cardiac arrests were the novel presentation of untreated systemic mastocytosis in an 85-year-old woman who lacked cutaneous findings of mastocytosis. Despite prior implantation of a dual-chamber cardiac pacemaker 3 weeks previously for similar spells, she experienced a PEA arrest accompanied by flushing, increased urinary N-methylhistamine excretion and serum tryptase values on the day of presentation to our clinic. Bone marrow biopsy findings conducted to rule out breast cancer metastases showed 30% mast cell infiltration, aberrant expression of CD25 and a positive c-kit Asp816Val mutation. Treatment with a combination of H1 and H2 receptor blockers reduced flushing and eliminated hypotension. Maintenance medication included aspirin, cetirizine, ranitidine, montelukast, oral cromolyn sodium and an epinephrine autoinjector (as needed). At 6-month follow-up, the patient remained free of PEA arrests, flushing, or any clinical signs of mastocytosis or mast cell degranulation. PEA cardiac arrests may therefore be a presenting sign of untreated systemic mastocytosis.

Published

2014

17. Periodic properties of the histaminergic system of the mouse brain.

Author

Rozov SV, Zant JC, Karlstedt K, Porkka-Heiskanen T, and Panula P

Subjects

Animals, Electroencephalography, Electromyography, Histamine N-Methyltransferase metabolism, Histidine Decarboxylase metabolism, In Situ Hybridization, Male, Methylhistamines metabolism, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, RNA, Messenger metabolism, Time Factors, Brain physiology, Histamine metabolism, Wakefulness physiology

Abstract

Brain histamine is involved in the regulation of the sleep-wake cycle and alertness. Despite the widespread use of the mouse as an experimental model, the periodic properties of major markers of the mouse histaminergic system have not been comprehensively characterized. We analysed the daily levels of histamine and its first metabolite, 1-methylhistamine, in different brain structures of C57BL/6J and CBA/J mouse strains, and the mRNA level and activity of histidine decarboxylase and histamine-N-methyltransferase in C57BL/6J mice. In the C57BL/6J strain, histamine release, assessed by in vivo microdialysis, underwent prominent periodic changes. The main period was 24 h peaking during the activity period. Additional 8 h periods were also observed. The release was highly positively correlated with active wakefulness, as shown by electroencephalography. In both mouse strains, tissue histamine levels remained steady for 24 h in all structures except for the hypothalamus of CBA/J mice, where 24-h periodicity was observed. Brain tissue 1-methylhistamine levels in both strains reached their maxima in the periods of activity. The mRNA level of histidine decarboxylase in the tuberomamillary nucleus and the activities of histidine decarboxylase and histamine-N-methyltransferase in the striatum and cortex did not show a 24-h rhythm, whereas in the hypothalamus the activities of both enzymes had a 12-h periodicity. These results show that the activities of histamine-metabolizing enzymes are not under simple direct circadian regulation. The complex and non-uniform temporal patterns of the histaminergic system of the mouse brain suggest that histamine is strongly involved in the maintenance of active wakefulness., (© 2013 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2014

18. High-performance liquid chromatographic determination of histamine in biological samples: the cerebrospinal fluid challenge--a review.

Author

Wang Z, Wu J, Wu S, and Bao A

Subjects

Animals, Chromatography, High Pressure Liquid instrumentation, Humans, Imidazoles cerebrospinal fluid, Imidazoles metabolism, Methylhistamines cerebrospinal fluid, Methylhistamines metabolism, Chromatography, High Pressure Liquid methods, Histamine cerebrospinal fluid, Histamine metabolism

Abstract

Histamine, a neurotransmitter crucially involved in a number of basic physiological functions, undergoes changes in neuropsychiatric disorders. Detection of histamine in biological samples such as cerebrospinal fluid (CSF) is thus of clinical importance. The most commonly used method for measuring histamine levels is high performance liquid chromatography (HPLC). However, factors such as very low levels of histamine, the even lower CSF-histamine and CSF-histamine metabolite levels, especially in certain neuropsychiatric diseases, rapid formation of histamine metabolites, and other confounding elements during sample collection, make analysis of CSF-histamine and CSF-histamine metabolites a challenging task. Nonetheless, this challenge can be met, not only with respect to HPLC separation column, derivative reagent, and detector, but also in terms of optimizing the CSF sample collection. This review aims to provide a general insight into the quantitative analyses of histamine in biological samples, with an emphasis on HPLC instruments, methods, and hyphenated techniques, with the aim of promoting the development of an optimal and practical protocol for the determination of CSF-histamine and/or CSF-histamine metabolites., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

19. [Liver monoamine oxidase activity of the lamprey Lampetra fluviatilis. the substrate-inhibitory specificity].

Author

Iagodina OV and Basova IN

Subjects

Animals, Benzylamines pharmacology, Clorgyline metabolism, Humans, Kinetics, Methylhistamines metabolism, Monoamine Oxidase Inhibitors pharmacology, Phenethylamines metabolism, Selegiline metabolism, Serotonin metabolism, Lampreys blood, Lampreys metabolism, Mitochondria, Liver drug effects, Mitochondria, Liver enzymology, Mitochondria, Liver metabolism, Monoamine Oxidase metabolism, Substrate Specificity

Abstract

Based on data of substrate-inhibitory analysis with use of specific inhibitors--deprenyl, chlorgi-lin--and specific substrates--serotonin, noradrenalin, benzylamine, beta-phenylethylamine, and N-methylhistamine--a suggestion is put forward about the possible existence of one molecular form of monoamine oxidase (MAO) in liver of mature individuals of the European lamprey Lampetra fluviatilis. There are determined kinetic parameters of monoamine oxidase deamination of eight substrates, which indicates the large spectrum of substrate specificity of the lamprey liver MAO. The studied enzyme does not deaminate histamine and putrescine and is not sensitive to 10(-2) M semicarbaside. Results of study of the substrate-inhibitor specificity allow us to suggest some resemblance of catalytic properties of the lamprey liver MAO and the mammalian form A MAO. The revealed low activity of the enzyme at deamination of all used substrates seems to be connected with low detoxational functional of the lamprey liver.

Published

2013

20. Systemic reactions to allergen immunotherapy: a role for measuring a PGD2 metabolite?

Author

Rank MA, Kita H, Li JT, and Butterfield JH

Subjects

Adult, Dinoprost metabolism, Dinoprost urine, Female, Humans, Male, Methylhistamines metabolism, Methylhistamines urine, Desensitization, Immunologic adverse effects, Prostaglandin D2 metabolism

Published

2013

21. Urinary excretion of histamine and methylhistamine after burns.

Author

Johansson J, Bäckryd E, Granerus G, and Sjöberg F

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Case-Control Studies, Child, Female, Histamine urine, Humans, Inflammation metabolism, Male, Methylhistamines urine, Middle Aged, Time Factors, Burns metabolism, Capillary Permeability, Histamine metabolism, Methylhistamines metabolism

Abstract

Background: The increased vascular permeability seen after burn contribute to morbidity and mortality as it interferes with organ function and the healing process. Large efforts have been made to explore underlying pathophysiological mechanisms that generate increased vascular permeability after burns. Many different substances have been proposed as mediators of which histamine, serotonin and oxygen radicals are claimed most important. However, no specific blocker has convincingly been shown to be clinically effective. Early work has claimed increased histamine plasma-concentrations in humans after burn and data from animal models pointed at histamine as an important mediator. Modern human clinical studies investigating the role of histamine as a mediator of the generalized post burn increase in vascular permeability are lacking., Method: We examined histamine turnover by measuring the urinary excretion of histamine and methyl histamine for 48 h after burns in 8 patients (mean total burn surface area 24%)., Results: Over time, in this time frame and compared to healthy controls we found a small increase in the excretion of histamine, but no increase of its metabolite methylhistamine., Conclusion: Our findings do not support that histamine is an important mediator of the increased systemic vascular permeability seen after burn., (Copyright © 2012 Elsevier Ltd and ISBI. All rights reserved.)

Published

2012

22. Comparison of the pharmacological properties of human and rat histamine H(3)-receptors.

Author

Schnell D, Strasser A, and Seifert R

Subjects

Animals, Blotting, Western, GTP Phosphohydrolases metabolism, Guanosine 5'-O-(3-Thiotriphosphate) metabolism, Histamine pharmacology, Humans, Imidazoles pharmacology, Methylhistamines metabolism, Oximes pharmacology, Piperidines pharmacology, Rats, Receptors, Histamine H3 analysis, Receptors, Histamine H3 chemistry, Receptors, Histamine H3 metabolism, Species Specificity, Spodoptera, Receptors, Histamine H3 drug effects

Abstract

Ligand pharmacology of histamine H(3)-receptors is species-dependent. In previous studies, two amino acids in transmembrane domain 3 (TM III) were shown to play a significant role. In this study, we characterized human and rat histamine H(3)-receptors (hH(3)R and rH(3)R, respectively), co-expressed with mammalian G proteins in Sf9 insect cell membranes. We compared a series of imidazole-containing H(3)R ligands in radioligand binding and steady-state GTPase assays. H(3)Rs similarly coupled to Gα(i/o)-proteins. Affinities and potencies of the agonists histamine, N(α)-methylhistamine and R-(α)-methylhistamine were in the same range. Imetit was only a partial agonist. The pharmacology of imetit and proxifan was similar at both species. However, impentamine was more potent and efficacious at rH(3)R. The inverse agonists ciproxifan and thioperamide showed higher potency but lower efficacy at rH(3)R. Clobenpropit was not species-selective. Strikingly, imoproxifan was almost full agonist at hH(3)R, but an inverse agonist at rH(3)R. Imoproxifan was docked into the binding pocket of inactive and active hH(3)R- and rH(3)R-models and molecular dynamic simulations were performed. Imoproxifan bound to hH(3)R and rH(3)R in E-configuration, which represents the trans-isomer of the oxime-moiety as determined in crystallization studies, and stabilized active hH(3)R-, but inactive rH(3)R-conformations. Large differences in electrostatic surfaces between TM III and TM V cause differential orientation of the oxime-moiety of imoproxifan, which then differently interacts with the rotamer toggle switch Trp(6.48) in TM VI. Collectively, the substantial species differences at H(3)Rs are explained at a molecular level by the use of novel H(3)R active-state models., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

23. Effects of betahistine at histamine H3 receptors: mixed inverse agonism/agonism in vitro and partial inverse agonism in vivo.

Author

Gbahou F, Davenas E, Morisset S, and Arrang JM

Subjects

Administration, Oral, Animals, Arachidonic Acid metabolism, Betahistine administration & dosage, Brain cytology, Brain drug effects, Brain Chemistry drug effects, CHO Cells, Cricetinae, Cricetulus, Cyclic AMP biosynthesis, Histamine physiology, Histamine Agonists administration & dosage, Histamine H2 Antagonists metabolism, Histamine H3 Antagonists administration & dosage, Humans, Imidazoles metabolism, Injections, Intraperitoneal, Methylhistamines metabolism, Mice, Neurons drug effects, Pertussis Toxin pharmacology, Rats, Receptors, Histamine H3 genetics, Recombinant Proteins metabolism, Betahistine pharmacology, Histamine Agonists pharmacology, Histamine H3 Antagonists pharmacology, Receptors, Histamine H3 drug effects

Abstract

We previously suggested that therapeutic effects of betahistine in vestibular disorders result from its antagonist properties at histamine H(3) receptors (H(3)Rs). However, H(3)Rs exhibit constitutive activity, and most H(3)R antagonists act as inverse agonists. Here, we have investigated the effects of betahistine at recombinant H(3)R isoforms. On inhibition of cAMP formation and [(3)H]arachidonic acid release, betahistine behaved as a nanomolar inverse agonist and a micromolar agonist. Both effects were suppressed by pertussis toxin, were found at all isoforms tested, and were not detected in mock cells, confirming interactions at H(3)Rs. The inverse agonist potency of betahistine and its affinity on [(125)I]iodoproxyfan binding were similar in rat and human. We then investigated the effects of betahistine on histamine neuron activity by measuring tele-methylhistamine (t-MeHA) levels in the brains of mice. Its acute intraperitoneal administration increased t-MeHA levels with an ED(50) of 0.4 mg/kg, indicating inverse agonism. At higher doses, t-MeHA levels gradually returned to basal levels, a profile probably resulting from agonism. After acute oral administration, betahistine increased t-MeHA levels with an ED(50) of 2 mg/kg, a rightward shift probably caused by almost complete first-pass metabolism. In each case, the maximal effect of betahistine was lower than that of ciproxifan, indicating partial inverse agonism. After an oral 8-day treatment, the only effective dose of betahistine was 30 mg/kg, indicating that a tolerance had developed. These data strongly suggest that therapeutic effects of betahistine result from an enhancement of histamine neuron activity induced by inverse agonism at H(3) autoreceptors.

Published

2010

24. CSF levels of the histamine metabolite tele-methylhistamine are only slightly decreased in Alzheimer's disease.

Author

Motawaj M, Peoc'h K, Callebert J, and Arrang JM

Subjects

Adult, Age Factors, Aged, Aged, 80 and over, Aging pathology, Alzheimer Disease pathology, Biomarkers cerebrospinal fluid, Biomarkers metabolism, Female, Histamine metabolism, Histamine Antagonists pharmacology, Humans, Male, Methylhistamines metabolism, Middle Aged, Sex Factors, Aging cerebrospinal fluid, Alzheimer Disease cerebrospinal fluid, Histamine cerebrospinal fluid, Methylhistamines antagonists & inhibitors, Methylhistamines cerebrospinal fluid

Abstract

Neuropathological studies have reported a strong neurofibrillary degeneration of the tuberomamillary nucleus, the region of origin of histamine neurons, in Alzheimer's disease (AD). Histaminergic neurons enhance cognition and memory, suggesting that their degeneration may contribute to the cognitive decline of AD. Besides neurons, the brain histaminergic system comprises mast cells and microglia that can also produce histamine. The level of activity of this histaminergic system in AD remained unknown. In the present study, we have measured the levels of the main histamine metabolite in brain, tele-methylhistamine (t-MeHA), an index of histaminergic system activity, in the cerebrospinal fluid (CSF) of 97 non-AD (controls) and 91 AD patients, males or females. t-MeHA levels in CSF of controls tended to be higher, although non-significantly, in females than in males. t-MeHA levels of controls and AD significantly increased with age (1.66 ± 0.13, 2.04 ± 0.12, and 2.76 ± 0.12 pmol/ml at 40, 60 and 80 years, respectively). In spite of the strong degeneration of histamine neurons in the disease, t-MeHA levels in CSF were only slightly decreased in AD compared to controls (2.14 ± 0.10 vs 2.76 ± 0.13 pmol/ml, -22%, p < 0.01). This decrease was similar whatever the age, and was slightly higher in females than in males. The increase observed with age, and the limited magnitude of the decrease in AD even at late stages may result from the compensatory activation of spared neurons, as well as the neuroinflammation-induced activation of microglia occurring in senescence and AD.

Published

2010

25. Pretreatment with l-histidine produces a shift from methamphetamine-induced stereotypical biting to persistent locomotion in mice.

Author

Kitanaka J, Kitanaka N, Tatsuta T, Miyoshi A, Koumoto A, Tanaka K, Nishiyama N, Morita Y, and Takemura M

Subjects

Animals, Histamine metabolism, Hypothalamus drug effects, Hypothalamus metabolism, Male, Methylhistamines metabolism, Mice, Mice, Inbred ICR, Bites and Stings, Histidine pharmacology, Locomotion drug effects, Methamphetamine pharmacology, Stereotyped Behavior drug effects

Abstract

The administration of methamphetamine (METH; 10mg/kg, i.p.) to male ICR mice induced bizarre behaviors including persistent locomotion and stereotypical behaviors, which were classified into four categories: stereotypical head-bobbing, circling, sniffing, and biting. Pretreatment with l-histidine (750 mg/kg, i.p.) significantly decreased the stereotypical biting induced by METH and significantly increased persistent locomotion. This effect of l-histidine on behavior was completely abolished by simultaneous administration of pyrilamine or ketotifen (brain-penetrating histamine H(1) receptor antagonists; 10mg/kg each, i.p.), but not by the administration of fexofenadine (a non-sedating histamine H(1) receptor antagonist that does not cross the blood-brain barrier; 20mg/kg), zolantidine (a brain-penetrating histamine H(2) receptor antagonist; 10mg/kg), thioperamide, or clobenpropit (brain-penetrating histamine H(3) receptor antagonists; 10mg/kg each). The histamine content of the hypothalamus was significantly increased by l-histidine treatment. These data suggest that l-histidine modifies the effects of METH through central histamine H(1) receptors.

Published

2010

26. Acute central administration of immepip, a histamine H3 receptor agonist, suppresses hypothalamic histamine release and elicits feeding behavior in rats.

Author

Chiba S, Itateyama E, Sakata T, and Yoshimatsu H

Subjects

Analysis of Variance, Animals, Catheterization, Chromatography, High Pressure Liquid, Dose-Response Relationship, Drug, Hypokinesia chemically induced, Hypothalamus metabolism, Injections, Intraventricular, Linear Models, Male, Methylhistamines metabolism, Rats, Rats, Wistar, Feeding Behavior drug effects, Histamine Agonists administration & dosage, Histamine Release drug effects, Hypothalamus drug effects, Imidazoles administration & dosage, Piperidines administration & dosage, Receptors, Histamine H3 metabolism

Abstract

Histamine suppresses feeding behavior via histamine H1 receptors in the hypothalamus. This study was performed to examine whether the acute reduction of histamine release in the hypothalamus caused by immepip, a histamine H3 agonist, modulates the feeding behavior of rats. Rats had a catheter implanted in the third cerebral ventricle (i3v) and were given central injections of phosphate-buffered-saline or immepip (100-300 pmol/rat). Following the i3v administration of immepip, the rats developed dose-dependent hypokinesia within 10 min of administration. Next to hypokinesia, the rats showed significant dose-dependent feeding behavior. High-performance liquid chromatography (HPLC) confirmed the reduction in histamine release in the hypothalamus of rats following i3v administration of immepip. These results suggest that i3v administration of immepip, an H3 receptor agonist, suppresses hypothalamic histamine release and elicits feeding behavior in rats.

Published

2009

27. Confirmation of biological effects of high dilutions. Effects of submolecular concentrations of histamine and 1-, 3- and 4-methylhistamines on human basophil activation.

Author

Sainte-Laudy J, Boujenaini N, and Belon P

Subjects

Histamine chemistry, Humans, Indicator Dilution Techniques, Basophils metabolism, Histamine metabolism, Methylhistamines metabolism

Published

2008

28. Hypothalamic neuronal histamine mediates the thyrotropin-releasing hormone-induced suppression of food intake.

Author

Gotoh K, Fukagawa K, Fukagawa T, Noguchi H, Kakuma T, Sakata T, and Yoshimatsu H

Subjects

Animals, Appetite Regulation drug effects, Dose-Response Relationship, Drug, Enzyme Inhibitors pharmacology, Histamine H1 Antagonists pharmacology, Histidine Decarboxylase antagonists & inhibitors, Histidine Decarboxylase genetics, Histidine Decarboxylase metabolism, Hypothalamus anatomy & histology, Hypothalamus drug effects, Immunohistochemistry, Injections, Intraventricular, Male, Methylhistamines metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Neurons drug effects, Rats, Rats, Sprague-Dawley, Receptors, G-Protein-Coupled agonists, Receptors, G-Protein-Coupled metabolism, Receptors, Histamine H1 drug effects, Receptors, Histamine H1 genetics, Receptors, Histamine H1 metabolism, Receptors, Thyrotropin-Releasing Hormone agonists, Thyrotropin-Releasing Hormone pharmacology, Appetite Regulation physiology, Histamine metabolism, Hypothalamus metabolism, Neurons metabolism, Receptors, Thyrotropin-Releasing Hormone metabolism, Thyrotropin-Releasing Hormone metabolism

Abstract

We examined the involvement of thyrotropin-releasing hormone (TRH) and TRH type 1 and 2 receptors (TRH-R1 and TRH-R2, respectively) in the regulation of hypothalamic neuronal histamine. Infusion of 100 nmol TRH into the rat third cerebroventricle (3vt) significantly decreased food intake (p < 0.05) compared to controls infused with phosphate- buffered saline. This TRH-induced suppression of food intake was attenuated partially in histamine-depleted rats pre-treated with alpha-fluoromethylhistidine (a specific suicide inhibitor of histidine decarboxylase) and in mice with targeted disruption of histamine H1 receptors. Infusion of TRH into the 3vt increased histamine turnover as assessed by pargyline-induced accumulation of tele-methylhistamine (t-MH, a major metabolite of neuronal histamine in the brain) in the tuberomammillary nucleus (TMN), the paraventricular nucleus, and the ventromedial hypothalamic nucleus in rats. In addition, TRH-induced decrease of food intake and increase of histamine turnover were in a dose-dependent manner. Microinfusion of TRH into the TMN increased t-MH content, histidine decarboxylase (HDC) activity and expression of HDC mRNA in the TMN. Immunohistochemical analysis revealed that TRH-R2, but not TRH-R1, was expressed within the cell bodies of histaminergic neurons in the TMN of rats. These results indicate that hypothalamic neuronal histamine mediates the TRH-induced suppression of feeding behavior.

Published

2007

29. Generation of a homology model of the human histamine H(3) receptor for ligand docking and pharmacophore-based screening.

Author

Schlegel B, Laggner C, Meier R, Langer T, Schnell D, Seifert R, Stark H, Höltje HD, and Sippl W

Subjects

Animals, Binding Sites, Cattle, Drug Evaluation, Preclinical, Humans, Ligands, Methylhistamines chemistry, Methylhistamines metabolism, Models, Molecular, Receptors, Histamine H3 metabolism, Thermodynamics, User-Computer Interface, Computer Simulation, Drug Design, Histamine Antagonists chemistry, Histamine Antagonists pharmacology, Receptors, Histamine H3 chemistry

Abstract

The human histamine H(3) receptor (hH(3)R) is a G-protein coupled receptor (GPCR), which modulates the release of various neurotransmitters in the central and peripheral nervous system and therefore is a potential target in the therapy of numerous diseases. Although ligands addressing this receptor are already known, the discovery of alternative lead structures represents an important goal in drug design. The goal of this work was to study the hH(3)R and its antagonists by means of molecular modelling tools. For this purpose, a strategy was pursued in which a homology model of the hH(3)R based on the crystal structure of bovine rhodopsin was generated and refined by molecular dynamics simulations in a dipalmitoylphosphatidylcholine (DPPC)/water membrane mimic before the resulting binding pocket was used for high-throughput docking using the program GOLD. Alternatively, a pharmacophore-based procedure was carried out where the alleged bioactive conformations of three different potent hH(3)R antagonists were used as templates for the generation of pharmacophore models. A pharmacophore-based screening was then carried out using the program Catalyst. Based upon a database of 418 validated hH(3)R antagonists both strategies could be validated in respect of their performance. Seven hits obtained during this screening procedure were commercially purchased, and experimentally tested in a [(3)H]N(alpha)-methylhistamine binding assay. The compounds tested showed affinities at hH(3)R with K ( i ) values ranging from 0.079 to 6.3 muM.

Published

2007

30. Influence of (R)-alpha-methylhistamine on the histamine H3 receptor in the rat gastrointestinal tract.

Author

Chazot P, Shenton F, Schunack W, Grandi D, and Morini G

Subjects

Animals, Fasting, Gastric Mucosa cytology, Gastric Mucosa metabolism, Histamine metabolism, Male, Rats, Rats, Wistar, Gastrointestinal Tract metabolism, Methylhistamines metabolism, Receptors, Histamine H3 metabolism

Published

2007

31. N-methyl-D-aspartate receptor antagonists enhance histamine neuron activity in rodent brain.

Author

Faucard R, Armand V, Héron A, Cochois V, Schwartz JC, and Arrang JM

Subjects

Animals, Behavior, Animal, Dose-Response Relationship, Drug, Drug Interactions, Female, Gene Expression drug effects, Histamine Antagonists pharmacology, Histidine Decarboxylase genetics, Histidine Decarboxylase metabolism, Imidazoles pharmacology, Immunohistochemistry methods, In Situ Hybridization methods, Male, Methylhistamines metabolism, Mice, Motor Activity drug effects, Rats, Receptors, N-Methyl-D-Aspartate metabolism, Brain cytology, Excitatory Amino Acid Antagonists pharmacology, Histamine metabolism, Neurons drug effects, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors

Abstract

The modulation of histamine neuron activity by various non-competitive NMDA-receptor antagonists was evaluated by changes in tele-methylhistamine (t-MeHA) levels and histidine decarboxylase (hdc) mRNA expression induced in rodent brain. The NMDA open-channel blockers phencyclidine (PCP) and MK-801 enhanced t-MeHA levels in mouse brain by 50-60%. Ifenprodil, which interacts with polyamine sites of NR2B-containing NMDA receptors, had no effect. PCP also increased hdc mRNA expression in the rat tuberomammillary nucleus. The enhancement of t-MeHA levels elicited by MK-801 (ED50 of approximately 0.1 mg/kg) was observed in the hypothalamus, cerebral cortex, striatum and hippocampus. Control t-MeHA levels and the t-MeHA response to MK-801 were not different in male and female mice. Double immunostaining for HDC and NMDA receptor subunits showed that histamine neurons of the rat tuberomammillary nucleus express NMDA receptor subunit 1 (NR1) with NMDA receptor subunit 2A (NR2A) and NMDA receptor 2B subunit (NR2B). In addition, immunoreactivity for the neuronal glutamate transporter EAAC1 was observed near most histaminergic perikarya. Hence, these findings support the existence of histamine/glutamate functional interactions in the brain. The increase in histamine neuron activity induced by NMDA receptor antagonists further suggests a role of histamine neurons in psychotic disorders. In addition, the decrease in MK-801-induced hyperlocomotion observed in mice after administration of ciproxifan further strengthens the potential interest of H3-receptor antagonist/inverse agonists for the symptomatic treatment of schizophrenia.

Published

2006

32. Impaired drinking response in histamine H3 receptor knockout mice following dehydration or angiotensin-II challenge.

Author

Yoshimoto R, Miyamoto Y, Takahashi K, Kotani H, Kanatani A, and Tokita S

Subjects

Animals, Dehydration, Male, Methylhistamines metabolism, Mice, Mice, Knockout, Piperidines pharmacology, Rats, Time Factors, Angiotensin II genetics, Behavior, Animal, Drinking Behavior, Receptors, Histamine H3 genetics

Abstract

Histamine H3 receptors (H3Rs) are presynaptic receptors that negatively regulate the release of histamine. The present study examined the physiological role of H3Rs in drinking behavior. In water-replete rats, intracerebroventricular (i.c.v.) administration of R-alpha-methylhistamine (RalphaMeHA), an H3R agonist, elicited drinking behavior. In contrast, i.c.v. administration of thioperamide, an H3R inverse agonist, significantly attenuated the drinking behavior elicited by either overnight dehydration or i.c.v. administration of angiotensin-II (AT-II). Inhibition of histamine release with alpha-fluoromethylhistidine, an inhibitor of histidine decarboxylase, did not elicit drinking behavior. Moreover, the inhibitory effects of thioperamide on drinking behavior in water-depleted rats were not mimicked by i.c.v. administration of histamine. These results suggest that the predominant effects of H3Rs on drinking behavior are not mediated by the modulation of histamine release. In H3R-deficient (H3RKO) mice, drinking behavior induced by overnight dehydration or i.c.v. administration of AT-II was significantly impaired compared to wild type mice. Collectively, these observations suggest that brain H3Rs play a pivotal role in drinking behavior in response to dehydration and AT-II, and these effects may be largely independent of the modulation of histaminergic tone.

Published

2006

33. Changes in the histaminergic system during vestibular compensation in the cat.

Author

Tighilet B, Trottier S, Mourre C, and Lacour M

Subjects

Adaptation, Physiological, Animals, Binding Sites, Cats, Functional Laterality, Gene Expression Regulation, Histamine Agonists metabolism, Histamine Antagonists therapeutic use, Histidine Decarboxylase genetics, Hypothalamic Area, Lateral drug effects, Methylhistamines metabolism, Motor Activity drug effects, Nystagmus, Pathologic drug therapy, Piperidines therapeutic use, Postural Balance drug effects, RNA, Messenger metabolism, Receptors, Histamine H3 drug effects, Receptors, Histamine H3 metabolism, Time Factors, Vestibular Nerve surgery, Vestibule, Labyrinth drug effects, Vestibule, Labyrinth enzymology, Vestibule, Labyrinth innervation, Histamine metabolism, Histamine Antagonists pharmacology, Histidine Decarboxylase metabolism, Hypothalamic Area, Lateral enzymology, Piperidines pharmacology

Abstract

To determine how the histaminergic system is implicated in vestibular compensation, we studied the changes in histidine decarboxylase (HDC; the enzyme synthesizing histamine) mRNA regulation in the tuberomammillary (TM) nuclei of cats killed 1 week, 3 weeks and 3 months after unilateral vestibular neurectomy (UVN). We also used one- and two-step bilateral vestibular neurectomized (BVN) cats to determine whether HDC mRNA regulation depended on the asymmetrical vestibular input received by the TM nuclei neurons. In addition, we analysed the HDC mRNA changes in the TM nuclei and the recovery of behavioural functions in UVN cats treated with thioperamide, a pure histaminergic drug. Finally, we quantified binding to histamine H3 receptors (H3Rs) in the medial vestibular nucleus (VN) by means of a histamine H3R agonist ([3H]N-alpha-methylhistamine) in order to further investigate the sites and mechanisms of action of histamine in this structure. This study shows that UVN increases HDC mRNA expression in the ipsilateral TM nucleus at 1 week. This increased expression persisted 3 weeks after UVN, and regained control values at 3 months. HDC mRNA expression was unchanged in the one-step BVN cats but showed mirror asymmetrical increases in the two-step BVN compared to the 1 week UVN cats. Three weeks' thioperamide treatment induced a bilateral HDC mRNA up-regulation in the UVN cats, which was higher than in the untreated UVN group. Binding to histamine H3Rs in the MVN showed a strong bilateral decrease after thioperamide treatment, while it was reduced ipsilaterally in the UVN cats. That such changes of the histaminergic system induced by vestibular lesion and treatment may play a functional role in vestibular compensation is strongly supported by the behavioural data. Indeed, spontaneous nystagmus, posture and locomotor balance were rapidly recovered in the UVN cats treated with thioperamide. These results demonstrate that changes in histamine levels are related to vestibular compensation.

Published

2006

34. Assessment of the influence of histaminergic actions on cocaine-like effects of 3alpha-diphenylmethoxytropane analogs.

Author

Campbell VC, Kopajtic TA, Newman AH, and Katz JL

Subjects

Animals, Benztropine analogs & derivatives, Benztropine metabolism, Benztropine pharmacology, Binding, Competitive drug effects, Brain drug effects, Brain metabolism, Cocaine analogs & derivatives, Cocaine metabolism, Discrimination Learning drug effects, Dopamine Uptake Inhibitors metabolism, Dopamine Uptake Inhibitors pharmacology, Guanidines metabolism, Histamine Agonists metabolism, Histamine Agonists pharmacology, Histamine H1 Antagonists metabolism, Histamine H1 Antagonists pharmacology, In Vitro Techniques, Male, Methylhistamines metabolism, Motor Activity drug effects, Pyrilamine metabolism, Rats, Rats, Sprague-Dawley, Receptors, Histamine H3 drug effects, Cocaine pharmacology, Histamine physiology, Tropanes pharmacology

Abstract

Previous studies demonstrated that analogs of benztropine (BZT) possess high affinity for the dopamine (DA) transporter (DAT) but generally have behavioral effects different from those of cocaine, suggesting either unique actions at the DA transporter or that another action of these drugs interferes with cocaine-like effects. Because the parent compound has histamine-antagonistic effects, the affinity of its analogs for histamine H(1), H(2), and H(3) receptors were compared with DA transporter affinity to assess whether those differences predicted the amount of cocaine-like activity. All of the compounds displaced [(3)H]mepyramine from H(1), [(125)I]iodoaminopotentidine from H(2), and [(3)H]N-alpha-methylhistamine from H(3) histamine receptors with affinities ranging from 15.7 to 37,600, 218 to >4430, and 4040 to >150,000 nM, respectively. Affinities at histamine H(1) receptors were, respectively, approximately 25- or 300-fold greater than those at H(2) or H(3) histamine receptors. Relative affinities for H(1) and DAT binding did not reliably predict the degree of cocaine-like stimulation of locomotor activity. In addition, interactions of various histaminic agents with cocaine assessed whether an action at any of the histamine sites could interfere with cocaine-like effects. None of the histaminic agents fully substituted for cocaine in rats trained to discriminate 10 mg/kg cocaine from saline nor did any of the compounds antagonize or otherwise diminish the discriminative stimulus effects of cocaine. The results suggest that affinity for histamine receptors cannot account for the diminished cocaine-like effects of the BZT analogs and suggest alternatively that these compounds have actions different from those of cocaine but likely mediated by their interaction with the DAT.

Published

2005

35. Imidazole H3-antagonists: relationship between structure and ex vivo binding to rat brain H3-receptors.

Author

Vacondio F, Mor M, Silva C, Zuliani V, Rivara M, Rivara S, Bordi F, Plazzi PV, Magnanini F, Bertoni S, Ballabeni V, Barocelli E, Carrupt PA, and Testa B

Subjects

Animals, Binding, Competitive drug effects, Brain drug effects, Chemical Phenomena, Chemistry, Physical, Female, Histamine Agonists metabolism, Hydrogen Bonding, Hydrogen-Ion Concentration, In Vitro Techniques, Lipids chemistry, Liver drug effects, Liver metabolism, Methylhistamines metabolism, Potentiometry, Rats, Rats, Wistar, Solubility, Structure-Activity Relationship, Brain metabolism, Histamine Antagonists pharmacokinetics, Histamine Antagonists pharmacology, Imidazoles pharmacokinetics, Imidazoles pharmacology, Receptors, Histamine H3 drug effects

Abstract

H3-antagonists possess promising pharmacological effects on awakening, learning and memory, but few data on their access to the central nervous system (CNS) have been reported so far. The purpose of this work was to investigate the relationships between structure and brain penetration of a series of H3-antagonists, using ex vivo binding experiments in rats. H3-antagonists belonging to different chemical classes but all having an imidazole ring, an alkyl spacer, a polar fragment and a lipophilic ending group, were selected among the numerous H3-antagonists recently described by us. Ex vivo binding studies were performed by inhibiting specific [3H]-(R)-alpha-methylhistamine ([3H]-RAMHA) binding to rat cerebral cortical membranes following H3-antagonist peripheral administration. Ionization constants and partition coefficients in n-octanol/water and 1,2-dichloroethane/water were determined by the potentiometric pH-metric method and were compared to the ex vivo binding potencies to analyse structure-property relationships (SPR). In the ex vivo assay, the H3-antagonists showed different potencies (pED50) not correlated to their in vitro H3-receptor binding affinities (pKi). Compound 4a, having a benzothiazol-2-yl-thioethyl chain, showed high ex vivo potency (ED50=1.35 mg kg(-1) i.p.) and a fast brain penetration, eliciting maximal displacement of [3H]-RAMHA already 5 min after i.v. or i.p. administration. Ex vivo binding assays of three compounds, following i.v. and i.p. administration, showed that the observed i.p. ex vivo potencies were not significantly affected by biotransformation. Within the set of compounds, those having a better ability to reach the CNS had a logDoct(7.4) in the range 2-3.5, and a DeltalogPoct-dce < 2. The combined use of two easily measurable physicochemical descriptors, namely logDoct(7.4) (apparent lipophilicity at pH 7.4) and DeltalogPoct-dce (a descriptor of H-bond donor capacity) allowed to model brain permeation of the majority of the compounds examined.

Published

2004

36. Meta-substituted aryl(thio)ethers as potent partial agonists (or antagonists) for the histamine H3 receptor lacking a nitrogen atom in the side chain.

Author

Pelloux-Léon N, Fkyerat A, Piripitsi A, Tertiuk W, Schunack W, Stark H, Garbarg M, Ligneau X, Arrang JM, Schwartz JC, and Ganellin CR

Subjects

Animals, Brain drug effects, Brain metabolism, Brain ultrastructure, Ethers chemistry, Ethers pharmacology, Histamine Agonists chemistry, Histamine Agonists pharmacology, Histamine Antagonists chemistry, Histamine Antagonists pharmacology, Histamine Release drug effects, Imidazoles chemistry, Imidazoles pharmacology, Male, Methylhistamines metabolism, Mice, Rats, Structure-Activity Relationship, Sulfides chemistry, Sulfides pharmacology, Synaptosomes drug effects, Synaptosomes metabolism, Ethers chemical synthesis, Histamine Agonists chemical synthesis, Histamine Antagonists chemical synthesis, Imidazoles chemical synthesis, Receptors, Histamine H3 drug effects, Sulfides chemical synthesis

Abstract

4-(3-Aryloxypropyl)-1H-imidazoles, which possess a meta-positioned substituent in the aryl ring, have been synthesized and tested for activity at histamine H(3) receptors. The compounds having a CN, Me, or Br substituent were found to be antagonists, whereas CF(3), Et, i-Pr, t-Bu, COCH(3), or NO(2) substituents remarkably afforded partial agonists when tested in vitro on rat cerebral cortex synaptosomes for inhibition of [(3)H]histamine release. The compounds were also active in vivo, and furthermore, the CF(3)-substituted compound trifluproxim (UCL 1470, 7) acted as a potent full agonist in vivo, having ED(50) = 0.6 +/- 0.3 mg/kg per os in mice for inhibition of brain N(tau)-methylhistamine formation. Related structures have also been investigated; homologues 4-[4-(3-(trifluoromethyl)phenoxy)butyl]-1H-imidazole and 4-[2-(3-(trifluoromethyl)phenylthio)ethyl]-1H-imidazole are shown to be partial agonists, whereas the O isostere 4-[2-(3-(trifluoromethyl)phenoxy)ethyl]-1H-imidazole is an antagonist as is the S homologue 4-[3-(3-(trifluoromethyl)phenylthio)propyl]-1H-imidazole and its CH(2) isostere 4-[4-(3-(trifluoromethyl)phenyl)butyl]-1H-imidazole.

Published

2004

37. Hypothalamic neuronal histamine in genetically obese animals: its implication of leptin action in the brain.

Author

Itateyama E, Chiba S, Sakata T, and Yoshimatsu H

Subjects

Animals, Corticotropin-Releasing Hormone pharmacology, Disease Models, Animal, Histamine metabolism, Hypothalamus drug effects, Injections, Intraventricular, Male, Methylhistamines analysis, Methylhistamines metabolism, Mice, Mice, Inbred C57BL, Mice, Obese, Neuropeptide Y pharmacology, Obesity genetics, Obesity metabolism, Pro-Opiomelanocortin metabolism, Rats, Rats, Wistar, Rats, Zucker, Third Ventricle drug effects, alpha-MSH pharmacology, Histamine physiology, Hypothalamus metabolism, Leptin physiology, Obesity physiopathology

Abstract

Leptin regulates feeding behavior and energy metabolism by affecting hypothalamic neuromodulators. The present study was designed to examine hypothalamic neuronal histamine, a recently identified mediator of leptin signaling in the brain, in genetic obese animals. Concentrations of hypothalamic histamine and tele-methylhistamine (t-MH), a major histamine metabolite, were significantly lower in obese (ob/ob) and diabetic (db/db) mice, and Zucker fatty (fa/fa) rats, leptin-deficient and leptin-receptor defective animals, respectively, relative to lean littermates (P < 0.05 for each). A bolus infusion of leptin (1.0 microg) into the lateral ventricle (ilvt) significantly elevated the turnover rate of hypothalamic neuronal histamine, as assessed by pargyline-induced accumulation of t-MH, in ob/ob mice compared with phosphate-buffered saline (PBS) infusions (P < 0.05). However, this same treatment did not affect hypothalamic histamine turnover in db/db mice. In agouti yellow (A(y)/a) mice, animals defective in pro-opiomelanocortin (POMC) signaling, normal levels of histamine, and t-MH were seen in the hypothalamus at 4 weeks of age when obesity had not yet developed. These amine levels in A(y)/a mice showed no change until 16 weeks of age, although the mice were remarkably obese by this time. Infusions of corticotropin releasing hormone (CRH), one of neuropeptide related to leptin signaling, into the third ventricle (i3vt) increased histamine turnover in the hypothalamus of Wistar King A rats (P < 0.05 versus PBS infusion). Infusion of neuropeptide Y (NPY) or alpha-melanocyte stimulating hormone (MSH), a POMC-derived peptide failed to increase histamine turnover. These results indicate that lowered activity of hypothalamic neuronal histamine in ob/ob and db/db mice, and fa/fa rats may be due to insufficiency of leptin action in the brains of these animals. These results also suggest that disruption of POMC signaling in A(y)/a mice may not impact on neuronal histamine. Moreover, CRH but neither POMC-derived peptide nor NPY may act as a signal to neuronal histamine downstream of the leptin signaling pathway.

Published

2003

38. Brain histamine and histamine H3 receptors following repeated L-histidine administration in rats.

Author

Lozeva V, Tarhanen J, Attila M, Männistö PT, and Tuomisto L

Subjects

Administration, Oral, Animals, Autoradiography, Binding Sites, Brain diagnostic imaging, Brain metabolism, Cell Membrane metabolism, Male, Methylhistamines metabolism, Radiography, Rats, Rats, Wistar, Brain drug effects, Histamine metabolism, Histidine administration & dosage, Receptors, Histamine H3 metabolism

Abstract

In order to assess the importance of the chronic increase in precursor availability on central histaminergic mechanisms in rats, nine male Wistar rats received L-histidine orally at a dose of 1000 mg/kg, twice daily (07.00 h and 19.00 h) for 1 week; 9 rats were used as controls. Brain tissue histamine and tele-methylhistamine levels, as well as plasma histamine concentration were assayed. Binding properties and regional distribution of the autoregulatory histamine H3 receptors in brain were studied with [3H]-R-alpha-methylhistamine receptor binding and autoradiography. In L-histidine loaded rats, tissue histamine levels in cortex, hypothalamus, and rest of the brain were significantly increased by 40%-70%. Histamine concentrations in cerebellum and plasma, and tele-methylhistamine concentrations in cortex and hypothalamus did not change. The binding properties of H3 receptors in cortex were not altered. However, there were changes in the regional distribution of [3H]-R-alpha-methylhistamine binding sites, suggestive of a region-selective up-/down-regulation of histamine H3 receptors or their receptor sub-types. These results imply that following repeated L-histidine administration in the rat (1) there is enhanced synthesis of brain histamine not reflected in its functional release; (2) the excess of histamine is sequestered and stored rather than being metabolized; (3) histamine H(3) receptor binding properties are not altered, whereas receptor density is changed in selected regions. In conclusion, these results demonstrate that the neuronal mechanisms controlling histamine synthesis, storage, and release are adaptable and allow the sequestration of the excess of histamine in order to prevent excessively high neuronal activity.

Published

2003

39. Novel nonimidazole histamine H3 receptor antagonists: 1-(4-(phenoxymethyl)benzyl)piperidines and related compounds.

Author

Mikó T, Ligneau X, Pertz HH, Ganellin CR, Arrang JM, Schwartz JC, Schunack W, and Stark H

Subjects

Animals, Atrial Function drug effects, Binding, Competitive, CHO Cells, Cerebral Cortex drug effects, Cerebral Cortex metabolism, Cricetinae, Guinea Pigs, Histamine Antagonists chemistry, Histamine Antagonists pharmacology, Humans, Ileum drug effects, Ileum physiology, In Vitro Techniques, Methylhistamines metabolism, Mice, Piperidines chemistry, Piperidines pharmacology, Radioligand Assay, Receptors, Histamine H1 drug effects, Receptors, Histamine H1 metabolism, Receptors, Histamine H2 drug effects, Receptors, Histamine H2 metabolism, Receptors, Histamine H3 metabolism, Structure-Activity Relationship, Histamine Antagonists chemical synthesis, Piperidines chemical synthesis, Receptors, Histamine H3 drug effects

Abstract

In an extension of very recently published studies on successful imidazole replacements in some series of histamine H(3) receptor antagonists, we report on a new class of lipophilic nonimidazole antagonist having an aliphatic tertiary amino moiety connected to a benzyl template substituted in the 4-position by a phenoxymethyl group. The structural modifications were performed with the intention to avoid possible negative side effects reported for other series of antagonists. The novel compounds combine different characteristics of recently developed histamine H(3) receptor antagonists. The compounds were screened for their affinity in a binding assay for the human histamine H(3) receptor stably expressed in CHO-K1 cells and tested for their in vivo potency in the central nervous system of mice after oral administration. Different substitution patterns on the phenoxy group were used to optimize in vitro and/or in vivo potency leading to some compounds with low nanomolar affinity and high oral in vivo potency. Modifications of the basic piperidino moiety were performed by ring expansion, contraction, and opening. Selected compounds exhibited selectivity in functional assays on isolated organs of guinea-pig for H(3) vs H(1) and H(2) receptors. Unexpectedly, some of the novel antagonists also showed a slight preference for the human histamine H(3) receptor compared to their affinities for the guinea-pig H(3) receptor.

Published

2003

40. Brain histamine turnover and seizure behaviour in two mouse strains: preliminary findings.

Author

Tuomisto L, Sturman G, Freeman P, and Tarhanen J

Subjects

Aging physiology, Animals, Epilepsy, Reflex genetics, Male, Methylhistamines metabolism, Mice, Mice, Inbred DBA, Species Specificity, Behavior, Animal physiology, Brain Chemistry physiology, Histamine metabolism, Seizures metabolism, Seizures psychology

Published

2003

41. In vitro pharmacological properties of two novel non-imidazole H3 receptor (H3R) antagonists.

Author

Yao BB, Witte DG, Miller TR, Krueger KM, Carr TL, Kang CH, Faghih R, Bennani YL, Esbenshade TA, and Hancock AA

Subjects

1-Methyl-3-isobutylxanthine pharmacology, Binding, Competitive drug effects, Colforsin pharmacology, Cyclic AMP metabolism, Histamine Agonists metabolism, Humans, Ligands, Methylhistamines metabolism, Phosphodiesterase Inhibitors pharmacology, Receptors, Histamine H3 metabolism, Histamine Antagonists pharmacology, Piperazines pharmacology, Receptors, Histamine H3 drug effects

Published

2003

42. Synthesis and biological evaluation of novel 2-(1H-imidazol-4-yl)cyclopropane carboxylic acids: key intermediates for H3 histamine receptor ligands.

Author

Braña MF, Guisado C, Fernando Alguacil L, Garrido E, Pérez-García C, and Ruiz-Gayo M

Subjects

Animals, Brain Chemistry, Carboxylic Acids chemical synthesis, Carboxylic Acids pharmacology, Cyclopropanes chemical synthesis, Cyclopropanes pharmacology, Histamine Antagonists pharmacology, Ligands, Methylhistamines metabolism, Radioligand Assay, Rats, Structure-Activity Relationship, Histamine Antagonists chemical synthesis, Receptors, Histamine H3 drug effects

Abstract

A new synthetic methodology to provide cis-2-(1H-imidazol-4-yl)-cyclopropane carboxylic acids is described. These cyclopropanes are useful for the preparation of novel H(3) receptor agents.

Published

2002

43. Betahistine dihydrochloride interaction with the histaminergic system in the cat: neurochemical and molecular mechanisms.

Author

Tighilet B, Trottier S, Mourre C, Chotard C, and Lacour M

Subjects

Administration, Oral, Animals, Autoradiography, Betahistine administration & dosage, Betahistine metabolism, Binding Sites, Binding, Competitive, Cats, Histamine Agonists administration & dosage, Histamine Agonists metabolism, Histidine Decarboxylase genetics, Histidine Decarboxylase metabolism, Hypothalamic Area, Lateral drug effects, Hypothalamic Area, Lateral metabolism, In Situ Hybridization, Methylhistamines metabolism, Methylhistamines pharmacology, Piperidines metabolism, Piperidines pharmacology, RNA, Messenger metabolism, Radioligand Assay, Receptors, Histamine H3 metabolism, Vestibule, Labyrinth drug effects, Vestibule, Labyrinth metabolism, Betahistine pharmacology, Histamine biosynthesis, Histamine Agonists pharmacology

Abstract

Drugs interfering with the histaminergic system facilitate behavioral recovery after vestibular lesion, likely by increasing histamine turnover and release. The effects of betahistine (structural analogue of histamine) on the histaminergic system were tested by quantifying messenger RNA for histidine decarboxylase (enzyme synthesizing histamine) by in situ hybridization and binding to histamine H(3) receptors (mediating, namely, histamine autoinhibition) using a histamine H(3) receptor agonist ([(3)H]N-alpha-methylhistamine) and radioautography methods. Experiments were done in brain sections of control cats (N=6) and cats treated with betahistine for 1 (N=6) or 3 (N=6) weeks. Betahistine treatment induced symmetrical changes with up-regulation of histidine decarboxylase mRNA in the tuberomammillary nucleus and reduction of [(3)H]N-alpha-methylhistamine labeling in both the tuberomammillary nucleus, the vestibular nuclei complex and nuclei of the inferior olive. These findings suggest that betahistine upregulates histamine turnover and release, very likely by blocking presynaptic histamine H(3) receptors, and induces histamine H(3) receptor downregulation. This action on the histaminergic system could explain the effectiveness of betahistine in the treatment of vertigo and vestibular disease.

Published

2002

44. Increased brain histamine levels in Parkinson's disease but not in multiple system atrophy.

Author

Rinne JO, Anichtchik OV, Eriksson KS, Kaslin J, Tuomisto L, Kalimo H, Röyttä M, and Panula P

Subjects

Aged, Brain pathology, Female, Globus Pallidus chemistry, Globus Pallidus metabolism, Histamine metabolism, Humans, Immunohistochemistry, Male, Methylhistamines analysis, Methylhistamines metabolism, Multiple System Atrophy pathology, Parkinson Disease pathology, Putamen chemistry, Putamen metabolism, Reference Values, Substantia Nigra chemistry, Substantia Nigra metabolism, Brain metabolism, Brain Chemistry, Histamine analysis, Multiple System Atrophy metabolism, Parkinson Disease metabolism

Abstract

We investigated histamine concentration in post-mortem brain samples of patients with Parkinson's disease (PD, n = 24), multiple system atrophy (MSA, n = 8) and age-matched controls (n = 27). Histamine concentrations were significantly increased in the putamen (to 159% of the control mean), substantia nigra pars compacta (to 201%), internal globus pallidus (to 234%) and external globus pallidus (to 200%), i.e. in areas which play a crucial role in the motor behaviour and which show typical functional alterations in PD. In MSA no significant differences were seen. Tele-methylhistamine (histamine metabolite) concentrations were unchanged in PD. These results indicate that histamine concentration, but not its metabolism is increased in PD, but not in MSA. This finding may have implications in developing new drug therapies for PD and in differential diagnosis between PD and MSA.

Published

2002

45. Effect of some antiepileptic drugs on brain histaminergic systems in the rat.

Author

Lensu S, Desiena G, Malmberg-Aiello P, and Tuomisto L

Subjects

Acetates pharmacology, Animals, Ethosuximide pharmacology, Gabapentin, Methylhistamines metabolism, Phenytoin pharmacology, Rats, Rats, Wistar, Amines, Anticonvulsants pharmacology, Brain Chemistry drug effects, Cyclohexanecarboxylic Acids, Histamine metabolism, gamma-Aminobutyric Acid

Published

2002

46. Effect of alcohol abuse on human brain histamine and tele-methylhistamine.

Author

Alakärppä K, Tupala E, Mantere T, Särkioja T, Räsänen P, Tarhanen J, Tiihonen J, and Tuomisto L

Subjects

Adolescent, Adult, Aged, Aging metabolism, Female, Gas Chromatography-Mass Spectrometry, Humans, Male, Middle Aged, Sex Characteristics, Alcoholism metabolism, Brain Chemistry drug effects, Histamine metabolism, Methylhistamines metabolism

Published

2002

47. Can urinary N-tele methylimidazoleacetic acid (t-MeImAA) serve as a marker of histaminergic activity in hepatic encephalopathy (HE)?

Author

Fogel WA, Andrzejewski W, Sasiak K, Granerus G, Lonnqvist B, Tuomisto L, and Tarhanen J

Subjects

Animals, Biomarkers urine, Brain Chemistry physiology, Chromatography, High Pressure Liquid, Digestive System Physiological Phenomena, Food Deprivation physiology, Gastrectomy, Hepatic Encephalopathy physiopathology, Male, Methylhistamines metabolism, Rats, Rats, Wistar, Spectrophotometry, Ultraviolet, Hepatic Encephalopathy urine, Histamine physiology, Imidazoles urine

Published

2002

48. Mouse mammary epithelial cells bear histamine receptors.

Author

Wagner W, Stasiak A, and Fogel WA

Subjects

Animals, Binding Sites, Cimetidine metabolism, Female, Histamine Agonists metabolism, Histamine H1 Antagonists metabolism, Histamine H2 Antagonists metabolism, Methylhistamines metabolism, Mice, Mice, Inbred BALB C, Pyrilamine metabolism, Radiopharmaceuticals, Cimetidine analogs & derivatives, Epithelial Cells metabolism, Mammary Glands, Animal metabolism, Receptors, Histamine metabolism

Published

2002

49. Acute and chronic effects of methamphetamine on tele-methylhistamine levels in mouse brain: selective involvement of the D(2) and not D(3) receptor.

Author

Morisset S, Pilon C, Tardivel-Lacombe J, Weinstein D, Rostene W, Betancur C, Sokoloff P, Schwartz JC, and Arrang JM

Subjects

Animals, Behavior, Animal drug effects, Cerebral Cortex drug effects, Cerebral Cortex metabolism, Dopamine physiology, Dopamine Agonists pharmacology, Dopamine Antagonists pharmacology, Dopamine D2 Receptor Antagonists, Dose-Response Relationship, Drug, Histamine Release drug effects, Male, Mice, Motor Activity drug effects, Norepinephrine metabolism, Receptors, Dopamine D2 agonists, Receptors, Dopamine D3, Serotonin Antagonists pharmacology, Synaptosomes drug effects, Synaptosomes metabolism, Brain Chemistry drug effects, Dopamine Uptake Inhibitors pharmacology, Methamphetamine pharmacology, Methylhistamines metabolism, Receptors, Dopamine D2 drug effects

Abstract

We have explored the role of endogenous dopamine in the control of histaminergic neuron activity in mouse brain regions evaluated by changes in tele-methylhistamine (t-MeHA) levels. In vitro, methamphetamine released [(3)H]noradrenaline but failed to release [(3)H]histamine from synaptosomes. In vivo, methamphetamine enhanced t-MeHA levels by about 2-fold with ED(50) values of approximately 1 mg/kg in caudate putamen, nucleus accumbens, cerebral cortex, and hypothalamus. This response selectively involved the D(2) and not the D(3) receptor as indicated by its blockade by haloperidol and by its persistence after administration of nafadotride, a D(3) receptor preferential ligand, or in (-/-) D(3) receptor-deficient mice. The t-MeHA response to methamphetamine was delayed compared with the locomotor-activating effect of this drug, suggesting that it is of compensatory nature. In agreement, ciproxifan, an inverse agonist known to enhance histamine neuron activity, decreased the hyperlocomotion induced by methamphetamine. Repeated methamphetamine administration resulted in the expected sensitization to the hyperlocomotor effect of the drug but did not modify either the ED(50) or the E(max) regarding t-MeHA levels. However, it resulted in an enhanced basal t-MeHA level (+30-40%), which was sustained for at least 11 days after withdrawal in hypothalamus, striatum, and cerebral cortex and suppressed by haloperidol. Hence, both the acute and chronic administration of methamphetamine enhance histamine neuron activity, presumably in a compensatory manner. Repeated methamphetamine administration also resulted in a modified balance in the opposite influences of dopamine and serotonin on histaminergic neurons as revealed by the enhanced response to haloperidol and abolished response to ketanserin, respectively.

Published

2002

50. Effect of interleukin 1beta on the HPA axis in H1-receptor knockout mice.

Author

Toftegaard CL, Knigge U, Kjaer A, Watanabe T, Friis-Hansen L, and Warberg J

Subjects

Animals, Arginine Vasopressin genetics, Corticosterone immunology, Corticosterone metabolism, Corticotropin-Releasing Hormone drug effects, Corticotropin-Releasing Hormone immunology, Histidine Decarboxylase genetics, Hypothalamo-Hypophyseal System drug effects, Hypothalamo-Hypophyseal System metabolism, Hypothalamus drug effects, Hypothalamus immunology, Hypothalamus metabolism, Interleukin-1 pharmacology, Male, Methylhistamines metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Neuroimmunomodulation drug effects, RNA, Messenger drug effects, RNA, Messenger metabolism, Receptors, Histamine H1 genetics, Up-Regulation drug effects, Up-Regulation immunology, Adrenocorticotropic Hormone immunology, Adrenocorticotropic Hormone metabolism, Histamine immunology, Hypothalamo-Hypophyseal System immunology, Interleukin-1 immunology, Neuroimmunomodulation immunology, Receptors, Histamine H1 deficiency

Abstract

Objectives and Methods: Circulating cytokines such as interleukin-1 (IL-1), and tumor necrosis factor-alpha as well as lipopolysaccharide (LPS) are potent ACTH secretagogues, acting via stimulation of corticotropin-releasing hormone (CRH) and vasopressinergic neurons in the paraventricular nucleus of the hypothalamus (PVN). Histamine (HA) has been shown to stimulate ACTH secretion in rats, an effect in part mediated by CRH and arginine vasopressin (AVP). We have previously shown that inhibition of neuronal HA synthesis or central blockade of H(1) receptors (H(1)R) decreased the ACTH response to LPS in male rats. To further elucidate the role of neuronal HA in cytokine-induced activation of the HPA axis, we compared the effect of H(1)R knockout on IL-1beta-induced ACTH secretion in adult male mice., Results: In H(1)R knockout mice, ACTH secretion increased from basal levels of 261 to 492 pmol/l in response to IL-1beta whereas the cytokine-induced ACTH secretion increased from 140 to 406 pmol/l in wild-type mice. Plasma corticosterone (CORT) rose from basal levels of 99 to 831 nmol/l in knockout mice upon IL-1beta stimulation, whereas in wild-type mice CORT levels rose from 112 to 841 nmol/l. There was no significant difference in IL-1beta-stimulated plasma ACTH or CORT levels between wild-type and knockout mice. Furthermore, there was no significant difference in basal or IL-1beta-stimulated hypothalamic levels of histamine and tele-methyl-histamine between wild-type and knockout mice. HDC gene expression was significantly lower in knockout mice than in wild-type mice both under basal and IL-1beta-stimulated conditions, while there were no significant differences in CRH gene expression in the PVN in knockout mice under basal and IL-1beta-stimulated conditions. Increased basal expression of AVP in the PVN of knockout mice was observed in this study compared to wild-type mice., Conclusion: We conclude that the lack of the gene for histamine H(1)R does not seem to be crucial for the ACTH and CORT response to IL-1beta, either due to possible functional compensation in the H(1)R knockout mouse or due to activation of pathways other than the neuronal histaminergic system., (Copyright 2003 S. Karger AG, Basel)

Published

2002