Histamine can be Formed and Degraded in the Human and Mouse Heart

Neumann, Joachim, Grobe, Juliane M., Weisgut, Jacqueline, Schwelberger, Hubert G., Fogel, Wieslawa Agnieszka, Marusˇáková, Margaréta, Wache, Hartmut, Bähre, Heike, Buchwalow, Igor B., Dhein, Stefan, Hofmann, Britt, Kirchhefer, Uwe, Gergs, Ulrich

30 March 2023

Histamine is metabolized by several enzymes in vitro and in vivo. The relevance of this metabolism in the mammalian heart in vivo is unclear. However, histamine can exert positive inotropic effects (PIE) and positive chronotropic effects (PCE) in humans via H2- histamine receptors. In transgenic mice (H2-TG) that overexpress the human H2 receptor in cardiomyocytes but not in wild-type littermate mice (WT), histamine induced PIE and PCE in isolated left or right atrial preparations. These H2-TG were used to investigate the putative relevance of histamine degrading enzymes in the mammalian heart. Histidine, the precursor of histamine, increased force of contraction (FOC) in human atrial preparations. Moreover, histamine increased the phosphorylation state of phospholamban in human atrium. Here, we could detect histidine decarboxylase (HDC) and histamine itself in cardiomyocytes of mouse hearts. Moreover, our data indicate that histamine is subject to degradation in the mammalian heart. Inhibition of the histamine metabolizing enzymes diamine oxidase (DAO) and monoamine oxidase (MAO) shifted the concentration response curves for the PIE in H2-TG atria to the left. Moreover, activity of histamine metabolizing enzymes was present in mouse cardiac samples as well as in human atrial samples. Thus, drugs used for other indication (e.g. antidepressants) can alter histamine levels in the heart. Our results deepen our understanding of the physiological role of histamine in the mouse and human heart. Our findings might be clinically relevant because we show enzyme targets for drugs to modify the beating rate and force of the human heart.

info:eu-repo/classification/ddc/610

ddc:610

Transgenic Mouse Model: Examination of Healing, Development and Mechanical Response of Cells

Chokalingam, Kumar

January 2009

No description available.

Biomedical Research

Double Transgenic Mice

Fluorescent Proteins

Collagen Promoters

Mechanical Stimulation

Natural Healing of Tendon

Growth and Development of Knees

The Effect of Glucocorticoids on Regulation of the Human Angiotensinogen Gene and Blood Pressure

Pandey, Varunkumar Girijaprasad

January 2013

No description available.

Physiology

Pharmacology

Molecular Biology

Genetics

Biochemistry

Human

Renin-Angiotensin system

Angiotensinogen

Hypertension

Genetics

Single Nucleotide Polymorphisms

Transgenic mice

Evaluation of T-cell and B-cell epitopes and design of multivalent vaccines against HTLV-1 diseases

Sundaram, Roshni

06 August 2003

No description available.

peptide vaccine design

multivalent

HLA-A2.1 transgenic mice

antibodies

coiled coil

B-cell epitopes

T-cell epitopes

Role of Ets-2 in lymphocyte development, function, and survival

Fisher, Ian Bradford

22 December 2004

No description available.

Biology, Cell

Ets transcription factors

Ets-2

Thymus

Thymocytes

T-lymphocytes

Bone marrow

Spleen

B-lymphocytes

Ras

MapK

Transgenic Mice

Differences in the Time Allocation Strategy Between Transgenic "Supermice" and Normal Controls and Their Relevance to the Principle of Allocation / A Time Budget for the Transgenic Supermouse

Lachman, Edward

09 1900

This study represents the behavioural component of a larger project investigating the life history tactics, physiological resource allocation and behavioural time budgeting of a genetically engineered animal. The "supermouse" is a transgenic strain (mMT-1/rGH) that has one chromosome genetically engineered with extra copies of rat growth hormone genes, each fused to a metallothionein-1 promoter. The GH transgenes are permanently incorporated into the genome of the mouse and are inherited as a block, in a Mendelian manner. "Supermice" exhibit an accelerated growth rate and reach body weights twice that of their normal siblings: both transgenic mice and normal mice are obtained by crossing transgenic males to normal females. Although there must be increased costs associated with achieving their higher growth rate, these: mice show no increases in their specific feeding rates. Consequently there must be a reallocation of resources among various physiological and behavioural demands. The reality of such tradeoffs is known as the Principle of Allocation and predicts that reductions in behavioural activities might be one avenue for realizing extra growth. To test this, six components of the behavioural time budget (resting, locomotion, wheel running, feeding, drinking and grooming) were compared between transgenic and normal mice. Infra-red videocameras recorded the activities of individual male mice in artificial enclosures over 24 hours. The time spent in each bout of activity was recorded and compared. Transgenic mice out-slept their normal counterparts by 126% (an increase of 3.4 h) and were only 53.83% as active in terms of locomotion and wheel running as normal mice. Pooling the data revealed that on average, large mice spent more time at rest and less time engaged in locomotion. Slight but significant decreases in time spent drinking and grooming were also found. Transgenic mice spent only 77.01% as much time drinking, and 69.01% as much time grooming as normal mice. No difference in the amount of time spent feeding was found. / Thesis / Master of Science (MS)

time allocation

supermice

normal control

principle of allocation

transgenic mice

time budget

growth hormone

activity

behaviour

evolution

genetic engineering

Untersuchungen zur Expression, Funktion und Regulation ausgewählter Gene der Insulinfamilie / Expression, functional and regulation analysis of selected genes from the Insulinfamily

Shirneshan, Katayoon

03 November 2005

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Insulinfamilie

Knock Out

Transgene Mäuse

Diabetes mellitus

Insulin family

Knockout

transgenic mice

Diabetes mellitus

42.23

42.20

44.48

WF

WJ

WK

Increased Aβ Production Leads to Intracellular Accumulation of Aβ in Flotillin-1-Positive Endosomes

Rajendran, Lawrence, Knobloch, Marlen, Geiger, Kathrin D., Dienel, Stephanie, Nitsch, Roger, Simons, Kai, Konietzko, Uwe

05 March 2014

Extracellular accumulation of Aβ in β-amyloid plaques is thought to be associated with the neurodegeneration observed in Alzheimer’s disease (AD) patients, although a lack of correlation with cognitive decline raised doubts on this hypothesis. In different transgenic mouse models Aβ accumulates inside the cells and mice develop behavioral deficits well before visible extracellular β-amyloid accumulation. Here we show that intracellular Aβ accumulates in flotillin-1 positive endocytic vesicles. We also demonstrate that flotillin-1 is not only associated with intracellular Aβ in transgenic mice but also with extracellular β-amyloid plaques in AD patient brain sections. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Amyloidose

intrazellulär Aβ

multivesikuläres Körper

Alzheimer-Krankheit

Endozytose

transgene Mäuse

Reggie-1

Alzheimer’s disease

Endocytosis

Transgenic mice

Multivesicular bodies

Intracellular Aβ

Amyloid

Reggie

ddc:610

rvk:XA 10000

Modèles murins de prééclampsie et effets préventifs de l’entraînement physique

Falcao, Stéphanie

01 1900

La prééclampsie est la première cause de mortalité et de morbidité périnatale et aucun traitement, mis à part l’accouchement, n’est connu à ce jour. Pour mieux comprendre cette maladie, nous avons utilisé trois modèles animaux. Dans un premier temps, nous avons voulu confirmer la présence de prééclampsie chez les souris déficientes en p57kip2, une protéine impliquée dans le cycle cellulaire des trophoblastes. Contrairement au groupe japonais, l’hypertension et la protéinurie au cours de la gestation ne survenaient pas, malgré une perte de structure des trophoblastes dans le labyrinthe ainsi qu’une microcalcification au niveau de leurs placentas. Nous avons alors observé que la diète japonaise induisait à elle seule une diminution de la croissance fœtale, ainsi qu’une dysfonction endothéliale chez ces souris. Nos résultats démontrent que ni les altérations placentaires, ni la génétique ne sont suffisantes pour induire les symptômes de la prééclampsie dans ce modèle, et que la diète peut avoir des effets délétères chez la souris gestante peu importe le génotype. Ensuite, nous avons démontré que les souris hypertendues surexprimant la rénine et l’angiotensinogène humaine développent de la protéinurie et une augmentation de la pression artérielle au cours de la gestation. Leurs placentas sont affectés par de la nécrose et une perte de structure des trophoblastes du labyrinthe en plus de surexprimer le gène du récepteur sFlt-1. Ces souris représentent le premier modèle animal de prééclampsie superposée à de l’hypertension chronique. Finalement, en utilisant des femelles normotendues surexprimant l’angiotensinogène humaine qui développent les symptômes de la prééclampsie lorsqu’elles sont accouplées à des mâles qui surexpriment la rénine humaine, nous avons établi que l’entraînement physique normalisait la hausse de pression ainsi que l’apparition de protéinurie en fin de gestation. Aussi, l'entraînement améliorait la croissance fœtale et placentaire ainsi que la réponse vasculaire indépendante de l’endothélium, et ce, indépendamment du génotype des souris. La présence d’une prolifération exagérée et désorganisée des trophoblastes dans ce modèle était aussi normalisée. L’entraînement physique prévient donc l’apparition des symptômes de la prééclampsie dans ce modèle. Mis ensemble, nos résultats aideront à mieux comprendre les mécanismes à l’origine de la prééclampsie et de sa prévention. / Preeclampsia is the primary cause of maternal and foetal mortality and morbidity and no treatment, apart from delivery are known to date. To better understand this pathology, we investigated three different animal models. First, we needed to confirm preeclampsia-like symptoms in p57kip2 deficient mice, a protein implicated in the trophoblast cell cycle. Conversely to the Japanese group, we observed neither hypertension nor proteinuria in this model. However their placentas showed labyrinthine trophoblast structure loss as well as microcalcification. We therefore studied the impact of Japanese diet, which induced foetal growth restriction and endothelial dysfunction independently from genotype. Our results demonstrate that placental alterations and genetics are not sufficient to induce preeclampsia-like symptoms in this model, and that diet can have deleterious effects on pregnant mice, independently from genotype. We then demonstrated that hypertensive mice overexpressing human angiotensinogen and renin developed de novo proteinuria and had a significant increase of their hypertension during gestation. Their placentas are affected by necrosis and labyrinthine trophoblast structure loss as well as an overexpression of sFlt-1 receptors. These mice represent the first animal model of superimposed preeclampsia on chronic hypertension. Finally, we used normotensive females overexpressing human angiotensinogen, which develop preeclampsia-like symptoms when they are mated with males overexpressing human rennin, to establish that exercise training normalised hypertension and proteinuria at the end of gestation. Moreover, exercise training ameliorates foetal and placental growth as well as endothelium-independent relaxation, independently from the genotype. Exaggerated and disorganised proliferation of trophoblasts in this model is also normalised. Exercise training prevents preeclampsia-like symptoms in this model. Taken together, our results will help a better understanding of this disease and its prevention.

Souris transgéniques

Système rénine-angiotensine

Grossesse

Placenta

Transgenic mice

Renin-angiotensin system

Pregnancy

Placenta

Impact du stress oxydant sur les mécanismes de clairance alvéolaire et de réparation épithéliale pulmonaires

Chupin, Cécile

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

SDRA

Stress oxydant

Bléomycine

Souris transgéniques

ENaC

Réparation

Cellules alvéolaires de type II (AT II)

ARDS

Oxidative stress

Bleomycin

Transgenic mice

ENaC

Repair

Alveolar type II cells (AT II)