Rôles et mécanismes d’action de la protéine Epac dans l’hypertrophie cardiaque / Functions and signaling of Epac protein in cardiac hypertrophy

Laurent, Anne-Coline

17 July 2013

Les catécholamines induisent la synthèse d’AMPc par une stimulation des récepteurs β-adrénergiques et contrôlent ainsi la fonction cardiaque en activant une pléiade de voies de signalisation intracellulaires. Les protéines Epac sont des facteurs d’échange pour les petites protéines G et sont directement activés par l’AMPc. Devant l’importance de la voie β-adrénergique dans la physiopathologie cardiaque et dans le but de mieux comprendre la régulation des processus cellulaires dépendants de l’AMPc dans le cœur, il apparaît essentiel de caractériser le rôle des facteurs d’échange Epac dans le myocarde. Dans une première partie, cette étude démontre que les effets de Epac sur l’hypertrophie des cardiomyocytes ventriculaires de rats nouveaux nés requièrent les GTPases H-Ras et Rap2B. Epac active la voie PLC/IP3/Ca2+ qui est nécessaire pour l’activation de H-Ras. Au niveau transcriptionnel, Epac induit l’export nucléaire de HDAC4 permettant l’activation d’un programme génique d’hypertrophie. Dans une deuxième partie, cette étude révèle l’implication de Epac1 dans l’hypertrophie des cardiomyocytes in vivo, chez la souris. La délétion de Epac1 protège du remodelage cardiaque induit par l’activation prolongée des récepteurs β-adrénergiques et améliore la fonction cardiaque. La surexpression de Epac1 spécifiquement dans le myocarde entraîne une hypertrophie des cardiomyocytes. Par ailleurs, la voie β-AR/Epac1 induit l’accumulation de protéines ubiquitinylées et provoque l’activation du processus d’autophagie in vitro et in vivo. L’autophagie protège des effets délétères de la voie β-adrénergique/Epac en participant à l’élimination des agrégats protéiques et en contrant les effets hypertrophiques de Epac1. Ces résultats ouvrent de nouvelles perspectives pour le traitement de l’hypertrophie et de l’insuffisance cardiaque. / Catecholamines regulate cardiac function by stimulating β-adrenergic receptors (β-AR), leading to cAMP production and activation of a multiplicity of signaling pathways. Epac proteins are exchange factors for small G proteins which are directly activated by cAMP. Given the importance of the β-adrenergic pathway in cardiac physiopathology, it becomes essential to characterize functions of Epac protein in myocardium. In a first part, this study shows that H-Ras and Rap2B GTPases are involved in Epac-induced neonatal rat cardiac myocytes hypertrophy. Epac induces activation of the PLC/IP3/Ca2+ pathway which is necessary for H-Ras activation. At the transcriptional level, Epac causes HDAC4 nuclear export leading to activation of a hypertrophic gene program. In a second part, this study reveals implication of Epac1 in cardiac hypertrophy in vivo. Deletion of Epac1 in mice protects from cardiac remodeling induced by chronic isoproterenol infusion and enhances cardiac function. Cardiac specific overexpression of Epac1 in mice induces cardiac myocytes hypertrophy. Interestingly, β-AR/Epac1 pathway triggers ubiquitinated proteins accumulation and activation of autophagy both in vitro and in vivo. By eliminating aggregates and by counteracting hypertrophic effects of Epac, autophagy protects from deleterious effects of the β-AR/Epac pathway. These results open news insights into the treatment of cardiac hypertrophy and heart failure.

Hypertrophie et insuffisance cardiaque

Autophagie

Récepteur β-adrénergique

AMP cyclique

Epac

Petites protéines G

HDAC

Protéines ubiquitinylées

Bécline 1

P62

LC3

Cardiac hypertrophy and failure

Autophagy

Β-adrenergic receptor

Cyclic AMP

Epac

Small GTPases

HDAC

Ubiquitinated proteins

Beclin 1

P62

LC3

Déterminants structuraux et moléculaires de la sélectivité fonctionnelle du récepteur β2-adrénergique

Picard, Louis-Philippe

01 1900

No description available.

Récepteur β2-adrénergique (β2AR)

Signalisation cellulaire

Signalisation biaisée

Structure

Biocapteur

G proteins-coupled receptors (GPCRs)

β2-adrenergic receptor (β2AR)

Ligand biased signaling

Biosensors

Cell signaling

The Acute Toxic Effects of the Synthetic Cannabinoid, JWH-018 on the Cardiovascular and Neuroendocrine Systems in Ictalurus punctatus (Channel Catfish)

Taylor, Dedric Esmond

08 1900

Cannabinoid (CB) receptors have been found in most vertebrates that have been studied. The location of various CB receptors in the body and brain are known, but their physiological functions are not fully understood. The effects CBs have on the cardiovascular system have been of growing interest in recent years. Increasing reports from emergency departments and law enforcement agencies detail acute cardiovascular and psychological effects from synthetic CB intoxication, such as JWH-018. This major health concern is substantiated by governmental agencies like the CDC and NIDA. This pilot study investigates the acute toxic effects of the synthetic CB, JWH-018, on the cardiovascular and neuroendocrine systems in Ictalurus punctatus (channel catfish). Research in organisms besides the traditional mammal models can provide new insights into CB function and physiology. Ictalurus punctatus lend multiple benefits as a model organism that permits researchers to investigate in vivo effects of both cardiovascular and neuroendocrine systems without much influence from traditional sampling methods, and further more provide ample size and tissue to perform specific cardiovascular experiments. Multiple methods were used to assess cardiovascular function and sympathetic nervous system activation. Two different doses, low (500 µg/kg) and high 1,500 µg/kg, of JWH-018 were evaluated in the study. Delivery of JWH-018, via dorsal aorta cannulation, was administered to channel catfish in order to measure cardiovascular functions and sample blood. Plasma levels of the hypothalamus-pituitary-adrenal/interrenal (HPA/I) biomarkers; ACTH, cortisol, epinephrine, and norepinephrine, were measured using ELISAs. Myocardial and neural tissue was collected after the exposures for rt-PCR analysis on β2 adrenergic and glucocorticoid receptor density change. Acute exposure of JWH-018 in undisturbed channel catfish yielded several findings: (1) High dose of JWH-018 was responsible for cardio depressor effects in catfish with a tendency to produce tachycardia, (2) rt-PCR results showed a 2.7 fold increase of glucocorticoid receptor mRNA density in catfish cardiomyocytes when exposed to each dose of JWH-018, (3) Catfish plasma ACTH levels were increased with high doses of JWH-018, while plasma cortisol was increased by low doses. Channel catfish is an excellent animal model to examine the effects of synthetic cannabinoids and cardiovascular function. Acute exposures to high levels of JWH-018 appear to produce cardiovascular dysfunction providing evidence that substantiates emergency department reports, in addition yields novel information about the interaction of CBs exposure and the increase of glucocorticoid receptors levels on cardiomyocytes. The channel catfish is a new animal model that can aid in further investigations of CB exposure and multiple physiological functions for health and toxicology studies. With relatively easy adjustments from this pilot study, the effects on CBs can be monitored on Ictalurus punctatus with confident results concerning human health.

cannabinoid

JWH-018

cardiovascular

hypotension

tachycardia

neuroendocrine

HPA

HPI

ACTH

cortisol

epinephrine

norepinephrine

glucocorticoid receptor

beta-2 adrenergic receptor

Cannabinoids -- Physiological effect.

Channel catfish -- Nervous system.

[pt] EFEITOS OPOSTOS DA IOIMBINA NO CONDICIONAMENTO DE MEDO AO CONTEXTO EM RATOS CARIOCAS DE ALTO E BAIXO CONGELAMENTO / [en] OPPOSITE EFFECTS OF YOHIMBINE ON CONTEXT FEAR CONDITIONING OF CARIOCAS HIGH- AND LOW CONDITIONED RATS

VICTOR CONCEICAO ROMANO

18 June 2021

[pt] A noradrenalina desempenha um papel central em diversos transtornos relacionados ao medo, como o transtorno de ansiedade generalizada (TAG). Estudos farmacológicos em humanos e animais mostraram que os comportamentos relacionados ao medo podem ser regulados pela aplicação sistêmica de drogas noradrenérgicas. No entanto, as diferenças individuais na ansiedade-traço são frequentemente negligenciadas ao estudar os efeitos não apenas de drogas noradrenérgicas, mas de outros compostos. No presente estudo, examinamos os efeitos da ioimbina, um antagonista do receptor alfa2-adrenérgico, em duas linhagens de ratos criados para respostas de alto e baixo congelamento à pistas contextuais previamente associadas a choques nos pés (ratos Carioca de Alto e Baixo Congelamento - CAC e CBC, respectivamente). Descobrimos que a administração sistêmica de ioimbina no segundo dia de condicionamento do medo contextual (sessão de teste) diminuiu significativamente as respostas de congelamento de fêmeas CAC, mas não de machos. No entanto, o tratamento com ioimbina induziu um aumento significativo no comportamento de congelamento de ratos CBC machos e fêmeas. Resultados semelhantes foram observados quando os grupos foram novamente expostos à mesma câmara de condicionamento 6 dias depois. Nossos resultados indicam que, embora a ioimbina leve a efeitos ansiolíticos em ratos CAC, ela tem um efeito ansiogênico nos ratos CBC. Entretanto, esse efeito foi mais evidente nas fêmeas do que nos machos. Nossas descobertas apontam para o papel da noradrenalina na regulação e mediação das respostas de medo em diferentes traços de ansiedade. Além disso, nossos resultados também ressaltam a relevância do uso de ambos os sexos em estudos comportamentais e farmacológicos usando modelos animais de transtornos de ansiedade. / [en] Norepinephrine plays a central role in several fear-related disorders, such as generalized anxiety disorder (GAD). Pharmacological studies in humans and animals have shown that fear-related behaviors can be regulated by the systemic application of noradrenergic drugs. However, individual differences in trait anxiety are often overlooked when studying the effects of not only noradrenergic drugs, but other compounds. In the present study we examined the effects of yohimbine, an alpha2-adrenergic receptor antagonist, in two lines of rats bred for high and low freezing responses to contextual cues previously associated with footshocks (Carioca high- and low-conditioned freezing rats - CHF and CLF, respectively). We found that systemic administration of yohimbine on the second day of contextual fear conditioning (test session) significantly decreased the freezing responses of CHF females, but not CHF males. Yet, yohimbine treatment induced a significant increase in freezing behavior of both male and female CLF rats. Similar results were observed when groups were re-exposed to the same conditioning chamber 6 days later. Our findings indicate that while yohimbine leads to anxiolytic effects on CHF rats, it has an anxiogenic effect on CLF ones. However, such effect was more evident in females than in males. Our findings point to the role of norepinephrine in regulating and mediating fear responses in different anxiety traits. Furthermore, our findings also underscore the relevance of using both sexes in behavioral and pharmacological studies using animal models of anxiety disorders.

[pt] COMPORTAMENTOS RELACIONADOS AO MEDO

[pt] DIFERENCAS DE SEXO

[pt] FENOTIPOS CONTRASTANTES

[pt] LINHAS DE REPRODUCAO

[en] FEAR-RELATED BEHAVIORS

[en] SEX DIFFERENCES

[en] CONTRASTING PHENOTYPES

[en] BREEDING LINES

Studying individual differences and emotion regulation effects on PTSD-like responding and recovery : a psychophysiological VR-trauma paradigm

Rumball, Freya

January 2013

Despite a high proportion of the population experiencing traumatic events within their lifetime, the number of individuals who go on to develop posttraumatic stress disorder (PTSD) is comparatively small; herein highlighting the importance of individual differences in imparting risk and resilience towards the development and maintenance of PTSD. Existing literature illustrates that biological and ecological factors are important in predicting PTSD development, with pathological vulnerabilities excepting their effects at pre- peri- and post trauma stages. Whilst cognitive and emotion based models of PTSD account for the role of a minority of known pre-trauma risk factors, individual differences in peri- and post trauma processes are held as critical to the development of PTSD. The broad range of risk factors implicated in the empirical literature, and necessity of traumatic exposure to PTSD, implicates the utility of a diathesis-stress conceptualisation of PTSD development. The current thesis employed an analogue VR-trauma paradigm to investigate the respective importance of vulnerability factors at each stage, in the prediction of analogue PTSD symptoms (memory problems, startle responses, re-exposure fear habituation), whilst measuring affective and electrophysiological concomitance. Findings supported the importance of peri-traumatic responses in the prediction of PTSD, where present, showing increased predictive capacities over pre- and post-trauma factors. Biological and ecological factors also illustrated important predictive associations, with genetic SNPs implicated in reflex startle and cardiac responses towards intrusive memories. Moreover, peri-traumatic HR decelerations and accelerations mediated the association between pre-trauma factors and cued recall inaccuracy and intrusion severity respectively. Results support existing cognitive and emotional models in their emphasis on peri-traumatic processes but suggest the added utility of a diathesis stress conceptualisation of the development of PTSD, in highlighting the importance of pre-trauma biological and ecological risk and resilience factors.

616.8521

Remodelage électrique cardiaque dans des modèles murins de cardiomyopathies

Rivard, Katy

10 1900

Les cardiomyopathies sont une atteinte du myocarde qui se présente sous différentes formes telles que l’hypertrophie ou la dilatation des chambres cardiaques. Ces maladies du muscle cardiaque peuvent affecter la contraction cardiaque et dégénèrer en insuffisance cardiaque. Aussi, l’hypertrophie et l’insuffisance cardiaques sont associées à une augmentation de la morbidité et de la mortalité cardiovasculaires principalement due au remodelage électrique et à la survenue d’arythmies. De plus, le retard de repolarisation, associé à une diminution des courants K+, est un des troubles cardiaques les plus couramment observés lors de ces pathologies cardiaques. L’angiotensine II (Ang II) et la norépinéphrine, principaux effecteurs du système rénine-angiotensine et du système nerveux sympathique, peuvent tous deux agir directement sur le cœur en liant les récepteurs de type 1 de l’Ang II (AT1) et les récepteurs adrénergiques. L’Ang II et la norépinéphrine sont associées au développement des cardiomyopathies, au remodelage cardiaque et à une prolongation de la durée du potentiel d'action cardiaque. Deux modèles de souris trangéniques surexprimant spécifiquement au niveau cardiaque les récepteurs AT1 (la souris AT1R) ou les récepteurs α1B-adrénergiques (la souris α1B-AR) ont été créés afin d’étudier les effets de ces stimuli sur le cœur. Ces deux modèles de souris développent du remodelage cardiaque, soit de l’hypertrophie chez les souris AT1R (cardiomyopathie hypertrophique) ou une dilatation des chambres cardiaques chez les souris α1B-AR (cardiomyopathie dilatée). Au stade avancé de la maladie, les deux modèles de souris transgéniques sont insuffisants cardiaques. Des données préliminaires ont aussi montré que les souris AT1R et les souris α1B-AR ont une incidence accrue d’arythmies ainsi qu’une prolongation de la durée du potentiel d’action. De plus, ces deux modèles de souris meurent subitement et prématurément, ce qui laissait croire qu’en conditions pathologiques, l’activation des récepteurs AT1 ou des récepteurs α1B-adrénergiques pouvait affecter la repolarisation et causer l’apparition d’arythmies graves. Ainsi, l’objectif de ce projet était de caractériser la repolarisation ventriculaire des souris AT1R et α1B-AR afin de déterminer si la suractivation chronique des récepteurs de l’Ang II ou des récepteurs 1B-adrénergiques pouvait affecter directement les paramètres électrophysiologiques et induire des arythmies. Les résultats obtenus ont révélé que les souris AT1R et les souris α1B-AR présentent un retard de repolarisation (prolongation de l’intervalle QTc (dans l’électrocardiogramme) et de la durée du potentiel d’action) causé par une diminution des courants K+ (responsables de la repolarisation). Aussi, l’incidence d’arythmies est plus importante dans les deux groupes de souris transgéniques comparativement à leur contrôle respectif. Finalement, nous avons vu que les troubles de repolarisation se produisent également dans les groupes de souris transgéniques plus jeunes, avant l’apparition de l’hypertrophie ou du remodelage cardiaque. Ces résultats suggèrent qu’en conditions pathologiques, l’activation chronique des récepteurs de l’Ang II ou des récepteurs α1B-adrénergiques peut favoriser le développement d’arythmies en retardant la repolarisation et cela, indépendamment de changements hémodynamiques ou du remodelage cardiaque. Les résultats de ces études pourront servir à comprendre les mécanismes responsables du développement d’arythmies cardiaques lors du remodelage et de l’insuffisance cardiaques et pourraient aider à optimiser le choix des traitements chez ces patients atteints ou à risque de développer de l’hypertrophie ou du remodelage cardiaque. / Cardiomyopathies are diseases of the myocardium that may have several causes and comes in different forms such as cardiac hypertrophy or dilatation. Cardiomyopathies are often progressive diseases that cause a loss of heart function and lead to heart failure. In addition, hypertrophy and heart failure are associated with increased morbidity and mortality mainly due to electrical remodeling and arrhythmias. Delayed repolarization associated with a decrease of K+ currents, is one of the most common cardiac disorders associated with cardiac remodeling. Angiotensin II (Ang II) and norepinephrine, the main effectors of the renin-angiotensin system and of the sympathetic nervous system, can both act directly on the heart by binding the Ang II type 1 receptor (AT1) and the adrenergic receptors. Ang II and norepinephrine are both associated with the development of cardiomyopathy, cardiac remodeling and prolongation of action potential duration. Two transgenic mouse models overexpressing the AT1 receptors (AT1R mouse) or the α1B-adrenergic receptors (α1B-AR mouse) specifically in the myocardium have been developed to study the effects of these stimuli on the heart. These two mouse models developed cardiac remodeling such as hypertrophy for the AT1R mice (hypertrophic cardiomyopathy) and dilatation of cardiac chambers for α1B-AR mice (dilated cardiomyopathy). In advanced stage of the disease, the two transgenic mouse models exhibit heart failure. Preliminary data showed that both transgenic mouse models experience cardiac arrhythmias and have a prolongation of the action potential duration. Moreover, AT1R and α1B-AR mice die suddenly and prematurely, which suggested that in pathological conditions, activation of the Ang II type 1 receptor or of the α1B-adrenergic receptor may affect repolarization and can be responsible for the incidence of serious arrhythmias causing the death of these mice. Base on these informations, the objective of this project was to characterize the ventricular repolarization in AT1R and α1B-AR mice to see if an increase of the activation of the Ang II type 1 receptor or of the 1B-adrenergic receptor could directly affect electrophysiological parameters and lead to severe arrhythmias. Results showed that both AT1R mice and α1B-AR mice have a delayed ventricular repolarization (prolongation of the QTc interval and action potential duration) caused by a decrease in outward K+ currents (responsible for the repolarization). In addition, the incidence of arrhythmias is higher in both groups of transgenic mice compared with their respective control. Finally, we have seen that repolarization disorders also occur in younger mice of both models of cardiomyopathy that do not present sign of hypertrophy and cardiac remodeling. These results suggest that under pathological conditions, the overactivation of the Ang II type 1 receptor or of the α1B-adrenergic receptor can directly promote the development of arrhythmias by delaying the repolarization independently of hemodynamic variations and pathological phenotype. The results of these studies can be useful to understand the mechanisms underlying the development of cardiac arrhythmias in patients suffering from cardiac hypertrophy or failure and may help to choose the best treatment for these patients.

Récepteur alpha1B-adrénergique

Courants ioniques

Cardiomyopathies

Repolarisation ventriculaire

Arythmies cardiaques

Souris transgéniques

Angiotensin II type 1 receptor

Alpha1B-adrenergic receptor

Cardiac arrhythmias

Ion currents

Cardiomyopathy

Ventricular repolarization

Transgenic mouse

Resposta cardiovascular ao teste ergométrico e a capacidade vasodilatadora periférica quanto a polimorfismos genéticos da enzima sintetase do óxido nítrico endotelial e dos receptores alfa-adrenérgicos / Cardiovascular responses during treadmill exercise test, peripheral vasodilatation and genetic polymorphisms of endothelial nitric oxide synthase and alpha-adrenergic receptors

Nunes, Rafael Amorim Belo

10 March 2014

Introdução: O desempenho cardiovascular durante o teste ergométrico varia entre indivíduos sem doença cardiovascular estabelecida. As variáveis que influenciam estas diferenças interindividuais na resposta ao exercício podem estar associadas à saúde cardiovascular. Formulamos a hipótese de que a resposta cardiovascular ao teste ergométrico possa variar quanto à capacidade de vasodilatação periférica e que ambas possam ser influenciadas por polimorfismos genéticos da enzima sintetase do óxido nítrico endotelial, dos receptores alfaadrenérgicos e do receptor B2 da bradicinina. Objetivos: 1 - Estudar as associações entre variáveis da resposta cardiovascular ao teste ergométrico e a vasodilatação muscular do antebraço em homens e mulheres sem doença cardiovascular estabelecida; 2 - Estudar as associações de variáveis da resposta cardiovascular ao teste ergométrico e da vasodilatação muscular do antebraço com polimorfismos genéticos da enzima sintetase do óxido nítrico endotelial, dos receptores alfa-adrenérgicos e do receptor B2 da bradicinina. Métodos: Seiscentos e oitenta e nove indivíduos de ambos os sexos, sem doença cardiovascular estabelecida, submetidos à avaliação médica cardiológica. O teste ergométrico foi realizado em esteira rolante e limitado por sintomas. A resposta cardiovascular ao teste ergométrico foi representada pelas seguintes variáveis: capacidade de exercício, reserva cronotrópica, recuperação da frequência cardíaca, pressão arterial sistólica máxima, pressão arterial diastólica máxima e recuperação da pressão arterial sistólica. A capacidade vasodilatadora periférica foi estimada pela resposta da condutância vascular do antebraço ao exercício isométrico (área total sobre a curva e variação dos valores absolutos durante 3 minutos de exercício em relação ao basal) durante o exame de pletismografia de oclusão venosa. Os polimorfismos genéticos da enzima sintetase do óxido nítrico endotelial (eNOS) 786T > C (rs2070744) e Glu298Asp (rs1799983), dos receptores alfa1A-adrenérgico (ADRA1A) Arg347Cys (rs1048101), alfa2A-adrenérgico (ADRA2A) 1780 C >T (rs553668), alfa2B-adrenérgico (ADRA2B) Ins/Del 301-303 (rs28365031) e do receptor B2 da bradicinina BK2R (rs5810761) foram genotipados por meio da técnica de High Resolution Melting. Modelos de regressão linear múltipla e modelos mistos estratificados para homens e mulheres foram utilizados na análise estatística. Resultados: As variáveis do teste ergométrico não se associaram ao aumento da condutância vascular do antebraço durante o exercício isométrico. O polimorfismo ADRA1A Arg347Cys associou-se com a pressão arterial sistólica máxima no sexo masculino (P = 0,049), o polimorfismo ADRA2A 1780 C > T associou-se à pressão arterial diastólica máxima no sexo masculino (P = 0,049) e à pressão arterial sistólica máxima em ambos os sexos (P = 0,009 nas mulheres, P = 0,022 nos homens), o polimorfismo ADRA2B Del 301-303 associou-se à pressão arterial sistólica máxima (P = 0,005) e à pressão arterial diastólica máxima (P = 0,043) no sexo feminino, e à recuperação da frequência cardíaca no sexo masculino (P = 0,041). A resposta da condutância vascular do antebraço durante o exercício isométrico associou-se ao polimorfismo eNOS 786T > C no sexo feminino (P = 0,043) e ao polimorfismo ADRA2A 1780 C > T no sexo masculino (P = 0,025). Conclusão: A resposta cardiovascular ao teste ergométrico não se associou à capacidade vasodilatadora periférica em indivíduos sem doença cardiovascular estabelecida. Em relação à resposta cardiovascular ao teste ergométrico, o polimorfismo ADRA1A Arg347Cys influenciou a pressão arterial sistólica máxima no sexo masculino; o polimorfismo ADRA2A 1780 C > T influenciou a pressão arterial sistólica máxima em ambos os sexos e a pressão arterial diastólica máxima no sexo masculino; o polimorfismo ADRA2B Del 301- 303 influenciou a pressão arterial sistólica máxima e a pressão arterial diastólica máxima no sexo feminino e a recuperação da frequência cardíaca no sexo masculino. A vasodilatação muscular do antebraço ao exercício isométrico foi influenciada pelos polimorfismos eNOS 786 T>C no sexo feminino e ADRA2A 1780 C > T no sexo masculino. Estes dados sugerem que polimorfismos genéticos associados aos receptores alfa-adrenérgicos e à enzima sintetase do óxido nítrico endotelial possam modular a resposta cardiovascular ao exercício e a capacidade vasodilatadora periférica. Variantes dos genes dos receptores alfa-adrenérgicos, em especial, parecem ser potenciais marcadores da resposta da pressão arterial durante o exercício / Purpose: The cardiovascular performance during exercise stress test may vary among individuals without overt cardiovascular disease. The variables associated with this variability between apparently healthy individuals may also influence the cardiovascular health. We hypothesized that cardiovascular responses during exercise stress test may vary according the peripheral vasodilator capacity and that both pathways may be influenced by genetic polymorphisms of endothelial nitric oxide synthase, alpha-adrenergic receptors and type B2 bradykinin receptor. Aim: 1- to study associations between the cardiovascular responses during exercise stress test and forearm muscle vasodilation in men and women without overt cardiovascular disease. 2- to study the influence of genetic polymorphisms of endothelial nitric oxide synthase, alpha adrenergic receptors and type B2 bradykinin receptor on the exercise test responses and forearm muscle vasodilation. Methods: Six hundred eighty nine individuals of both sexes, without overt cardiovascular disease, that underwent a cardiovascular check-up. The cardiovascular performance during exercise stress test was estimated by the following variables: exercise capacity, chronotropic reserve, heart-rate recovery, exercise systolic blood pressure, exercise diastolic blood pressure and systolic blood pressure recovery. The peripheral vasodilator capacity was estimated by forearm vascular conductance response to handgrip exercise (area under the curve and absolute changes during the 3-minute handgrip exercise) during venous occlusion plethysmography. The genetic polymorphisms of endothelial nitric oxide synthase (eNOS) 786T>C (rs2070744) and Glu298Asp (rs1799983), of adrenoceptors alpha1A (ADRA1A) Arg347Cys (rs1048101), alpha2A (ADRA2A) 1780 C>T (rs553668), alpha2B (ADRA2B) Ins/Del 301-303 (rs28365031) and of type B2 bradykinin receptor (rs5810761) were genotyped with High Resolution Melting. The statistical analysis was performed with multiple linear regression and linear mixed models for men and women. Results: Exercise test variables were not associated with forearm vascular conductance increase during handgrip exercise. The ADRA1A Arg347Cys was associated with exercise systolic blood pressure in men (P = 0.049), the ADRA2A 1780 C>T was associated with exercise diastolic blood pressure in men ( P = 0.049) and with exercise systolic blood pressure in both sexes (P = 0.009 for women, P = 0,022 for men), the ADRA2B Del 301-303 was associated with exercise systolic blood pressure (P = 0.005) and exercise diastolic blood pressure (0.043) in women, and with heart-rate recovery in men (P = 0.041). The forearm vascular conductance changes during handgrip exercise were associated with eNOS 786 T>C in women (P = 0.043) and with ADRA2A 1780 C>T in men (P = 0.025). Conclusions: The cardiovascular responses during treadmill exercise test were not associated with peripheral vasodilatory capacity in individuals without overt heart disease. The ADRA1A Arg347Cys polymorphism influenced exercise systolic blood pressure in men; the ADRA2A 1780 C >T polymorphism influenced exercise systolic blood pressure in both sexes and exercise diastolic blood pressure in men; and the ADRA2B Del 301-303 polymorphism influenced exercise systolic and diastolic blood pressures in women and heart-rate recovery in men. The exercise-induced muscle vasodilatation was influenced by the eNOS polymorphism 786 T > C in women and ADRA2A polymorphism 1780 C >T in men.These findings suggest that polymorphisms of genes coding alpha adrenergic receptors and endothelial nitric oxide synthase may play a role on the modulation of cardiovascular responses to exercise and peripheral vasodilatation. Particularly, genetic polymorphisms of alpha-adrenergic receptors appear to be potential markers of blood pressure response during exercise

Alpha-adrenergic receptor

Antebraço/irrigação sanguínea

Exercício/fisiologia

Exercise test

Exercise/physiology

Forearm/blood supply

Nitric oxide synthase type III

Óxido nítrico sintase tipo III

Polimorfismo genético

Polymorphism Genetic

Receptor B2 de bradicinina

Receptor bradykinin B2

Receptores adrenérgico alfa

Teste de esforço

Vasodilatação

Vasodilation

Remodelage électrique cardiaque dans des modèles murins de cardiomyopathies

Rivard, Katy

10 1900

Les cardiomyopathies sont une atteinte du myocarde qui se présente sous différentes formes telles que l’hypertrophie ou la dilatation des chambres cardiaques. Ces maladies du muscle cardiaque peuvent affecter la contraction cardiaque et dégénèrer en insuffisance cardiaque. Aussi, l’hypertrophie et l’insuffisance cardiaques sont associées à une augmentation de la morbidité et de la mortalité cardiovasculaires principalement due au remodelage électrique et à la survenue d’arythmies. De plus, le retard de repolarisation, associé à une diminution des courants K+, est un des troubles cardiaques les plus couramment observés lors de ces pathologies cardiaques. L’angiotensine II (Ang II) et la norépinéphrine, principaux effecteurs du système rénine-angiotensine et du système nerveux sympathique, peuvent tous deux agir directement sur le cœur en liant les récepteurs de type 1 de l’Ang II (AT1) et les récepteurs adrénergiques. L’Ang II et la norépinéphrine sont associées au développement des cardiomyopathies, au remodelage cardiaque et à une prolongation de la durée du potentiel d'action cardiaque. Deux modèles de souris trangéniques surexprimant spécifiquement au niveau cardiaque les récepteurs AT1 (la souris AT1R) ou les récepteurs α1B-adrénergiques (la souris α1B-AR) ont été créés afin d’étudier les effets de ces stimuli sur le cœur. Ces deux modèles de souris développent du remodelage cardiaque, soit de l’hypertrophie chez les souris AT1R (cardiomyopathie hypertrophique) ou une dilatation des chambres cardiaques chez les souris α1B-AR (cardiomyopathie dilatée). Au stade avancé de la maladie, les deux modèles de souris transgéniques sont insuffisants cardiaques. Des données préliminaires ont aussi montré que les souris AT1R et les souris α1B-AR ont une incidence accrue d’arythmies ainsi qu’une prolongation de la durée du potentiel d’action. De plus, ces deux modèles de souris meurent subitement et prématurément, ce qui laissait croire qu’en conditions pathologiques, l’activation des récepteurs AT1 ou des récepteurs α1B-adrénergiques pouvait affecter la repolarisation et causer l’apparition d’arythmies graves. Ainsi, l’objectif de ce projet était de caractériser la repolarisation ventriculaire des souris AT1R et α1B-AR afin de déterminer si la suractivation chronique des récepteurs de l’Ang II ou des récepteurs 1B-adrénergiques pouvait affecter directement les paramètres électrophysiologiques et induire des arythmies. Les résultats obtenus ont révélé que les souris AT1R et les souris α1B-AR présentent un retard de repolarisation (prolongation de l’intervalle QTc (dans l’électrocardiogramme) et de la durée du potentiel d’action) causé par une diminution des courants K+ (responsables de la repolarisation). Aussi, l’incidence d’arythmies est plus importante dans les deux groupes de souris transgéniques comparativement à leur contrôle respectif. Finalement, nous avons vu que les troubles de repolarisation se produisent également dans les groupes de souris transgéniques plus jeunes, avant l’apparition de l’hypertrophie ou du remodelage cardiaque. Ces résultats suggèrent qu’en conditions pathologiques, l’activation chronique des récepteurs de l’Ang II ou des récepteurs α1B-adrénergiques peut favoriser le développement d’arythmies en retardant la repolarisation et cela, indépendamment de changements hémodynamiques ou du remodelage cardiaque. Les résultats de ces études pourront servir à comprendre les mécanismes responsables du développement d’arythmies cardiaques lors du remodelage et de l’insuffisance cardiaques et pourraient aider à optimiser le choix des traitements chez ces patients atteints ou à risque de développer de l’hypertrophie ou du remodelage cardiaque. / Cardiomyopathies are diseases of the myocardium that may have several causes and comes in different forms such as cardiac hypertrophy or dilatation. Cardiomyopathies are often progressive diseases that cause a loss of heart function and lead to heart failure. In addition, hypertrophy and heart failure are associated with increased morbidity and mortality mainly due to electrical remodeling and arrhythmias. Delayed repolarization associated with a decrease of K+ currents, is one of the most common cardiac disorders associated with cardiac remodeling. Angiotensin II (Ang II) and norepinephrine, the main effectors of the renin-angiotensin system and of the sympathetic nervous system, can both act directly on the heart by binding the Ang II type 1 receptor (AT1) and the adrenergic receptors. Ang II and norepinephrine are both associated with the development of cardiomyopathy, cardiac remodeling and prolongation of action potential duration. Two transgenic mouse models overexpressing the AT1 receptors (AT1R mouse) or the α1B-adrenergic receptors (α1B-AR mouse) specifically in the myocardium have been developed to study the effects of these stimuli on the heart. These two mouse models developed cardiac remodeling such as hypertrophy for the AT1R mice (hypertrophic cardiomyopathy) and dilatation of cardiac chambers for α1B-AR mice (dilated cardiomyopathy). In advanced stage of the disease, the two transgenic mouse models exhibit heart failure. Preliminary data showed that both transgenic mouse models experience cardiac arrhythmias and have a prolongation of the action potential duration. Moreover, AT1R and α1B-AR mice die suddenly and prematurely, which suggested that in pathological conditions, activation of the Ang II type 1 receptor or of the α1B-adrenergic receptor may affect repolarization and can be responsible for the incidence of serious arrhythmias causing the death of these mice. Base on these informations, the objective of this project was to characterize the ventricular repolarization in AT1R and α1B-AR mice to see if an increase of the activation of the Ang II type 1 receptor or of the 1B-adrenergic receptor could directly affect electrophysiological parameters and lead to severe arrhythmias. Results showed that both AT1R mice and α1B-AR mice have a delayed ventricular repolarization (prolongation of the QTc interval and action potential duration) caused by a decrease in outward K+ currents (responsible for the repolarization). In addition, the incidence of arrhythmias is higher in both groups of transgenic mice compared with their respective control. Finally, we have seen that repolarization disorders also occur in younger mice of both models of cardiomyopathy that do not present sign of hypertrophy and cardiac remodeling. These results suggest that under pathological conditions, the overactivation of the Ang II type 1 receptor or of the α1B-adrenergic receptor can directly promote the development of arrhythmias by delaying the repolarization independently of hemodynamic variations and pathological phenotype. The results of these studies can be useful to understand the mechanisms underlying the development of cardiac arrhythmias in patients suffering from cardiac hypertrophy or failure and may help to choose the best treatment for these patients.

Récepteur alpha1B-adrénergique

Courants ioniques

Cardiomyopathies

Repolarisation ventriculaire

Arythmies cardiaques

Souris transgéniques

Angiotensin II type 1 receptor

Alpha1B-adrenergic receptor

Cardiac arrhythmias

Ion currents

Cardiomyopathy

Ventricular repolarization

Transgenic mouse

Untersuchungen der Assoziationen der β1-Adrenorezeptor- und Catechol-O-Methyltransferase-Polymorphismen auf den postoperativen Verlauf kardiochirurgischer Patienten

Tews, Julia

04 May 2015

Das Ziel der Untersuchungen war einen möglichen Einfluss von Genpolymorphismen auf den postoperativen Verlauf kardiochirurgischer Patienten aufzudecken. Es wurde präoperativ das zu untersuchende Blut entnommen und zentrifugiert. Das überstehende Blutplasma diente der Bestimmung des Catecholaminspiegels mittels HPLC. Aus den korpuskulären Bestandteilen wurde die DNA isoliert und zur Genanalyse verwendet. Die Polymerase-Ketten-Reaktion mit anschließender Schmelzkurvenanalyse ermöglichte eine Differenzierung der 145A>G, 1165G>C β1-Adrenorezeptor- und 472G>A COMT-Polymorphismen. Der postoperative Verlauf der Patienten wurde bis zu deren Entlassung aufgezeichnet. Unter Betrachtung der einzelnen Polymorphismen zeigten sich Unterschiede im postoperativen Noradrenalinverbrauch, im postoperativen Gesamtcatecholaminverbrauch, in der Aufenthaltsdauer im Krankenhaus und im präoperativen Noradrenalinplasmaspiegel. Patienten mit dem 145G/X und 1165CC waren signifikant länger im Krankenhaus als die Träger des 145AA und 1165G/X. Der postoperative Noradrenalinverbrauch und Gesamtcatecholaminverbrauch unterlag der Beeinflussung der drei Polymorphismen. Die Träger des 145G/X, 1165G/X und 472GG hatten einen signifikant höheren Noradrenalinverbrauch als die 145AA, 1165CC und 472A/X Träger. Im zweiten Schritt der Analyse wurden die SNP-Kombinationen berücksichtigt. Es stellte sich heraus, dass sich unter Betrachtung dieser die zuvor festgestellten signifikanten Zusammenhänge auflösten. Demzufolge ist eine Betrachtung der SNP-Kombinationen wichtig um genetische Risiken identifizieren zu können und keine Risiken in Datensätze hinein zu interpretieren.

β1-Adrenorezeptor

Catechol-O-Methyltransferase

Arg389GlyADRB1-Polymorphismus

Ser49GlyADRB1-Polymorphismus

Val158MetCOMT-Polymorphismus

Schmelzkurvenanalyse

Polymerase Ketten Reaktion

HPLC

Kardiochirurgie

β1-adrenergic receptor

catechol-o-methyltransferase

Arg389Gly ADRB1 polymorphism

Ser49Gly ADRB1 polymorphism

Val158Met COMT polymorphism

melting curve analysis

polymerase chain reaction

HPLC

cardiac surgery

ddc:610

Human β₁-adrenergic receptor:biosynthesis, processing and the carboxyl-terminal polymorphism

Hakalahti, A. (Anna)

20 September 2011

Abstract The β1-adrenergic receptor (β1AR) belongs to the large family of G protein-coupled receptors. It is activated by epinephrine and norepinephrine and thus has a central role in mediating the effects of the sympathetic nervous system. β1AR is the predominant adrenergic receptor in the heart, where it mediates positive inotropy and chronotropy. Thus, it is the most important target receptor for β-adrenergic antagonists, which are widely used in the treatment of cardiovascular diseases. Furthermore, β1AR is also expressed in the brain, where it has a crucial role in regulating memory formation and synaptic plasticity. Human β1AR (hβ1AR) has two polymorphisms, one at each terminus. The carboxyl-terminal (C-terminal) Arg389Gly8.56 polymorphism has previously been shown to have functional significance. Despite the clinical importance of hβ1AR, its biosynthetic profile and post-translational processing have not been well characterized to date. The aims of the present study were to shed light on these events, focusing on the limited proteolysis of hβ1AR and the impact of β-adrenergic ligands on receptor processing. In addition, the C-terminal polymorphism and its associations with certain parameters were investigated in a population consisting of survivors of acute myocardial infarction (AMI). By using a heterologous expression system, hβ1AR biosynthesis was revealed to be efficient and rapid. The N-terminus of the mature receptor was modified with O-glycans and one N-glycan, but despite these modifications it was subject to cleavage at the cell surface that resulted in two C-terminal fragments. The cleavage was mediated by a metalloproteinase, and importantly, it also occurred in vivo. Moreover, receptor activation enhanced the cleavage, which suggests that it represents a novel regulatory mechanism of hβ1AR. Interestingly, those ligands that enhanced the cleavage stabilized intracellular hβ1AR precursors, possibly via a pharmacological chaperone activity. Thus, the present study demonstrates that β-adrenergic ligands can have different regulatory effects on distinct hβ1AR forms. Among the AMI survivors, the Arg3898.56 homozygotes had significantly increased left ventricular mass indexes, when compared to the Gly3898.56 carriers, which suggests an association between Arg3898.56 and left ventricular hypertrophy (LVH). When euglycemic and diabetic patients were analyzed separately, the association existed among the euglycemic patients but was not present in diabetic patients. Diabetes is one of several risk factors that have previously been shown to influence the progression of LVH. Here, diabetes was shown to have a stronger effect on the development of LVH, when compared with the Arg3898.56 variant of hβ1AR. / Tiivistelmä β1-adrenerginen reseptori (β1AR) kuuluu laajaan G-proteiineihin kytkettyjen reseptorien perheeseen. β1AR on tärkeässä asemassa sympaattisen hermoston toiminnassa. Sydämessä β1AR on vallitseva adrenerginen reseptori, ja sydänlihaksen supistusvireys sekä -taajuus voimistuvat β1AR:n aktivaation kautta. Siten se edustaa sydän- ja verisuonisairauksissa käytettävien β-salpaajien tärkeintä kohdereseptoria. β1AR:n luontaisia agonisteja ovat lisämunuaisytimestä ja hermopäätteistä vapautuvat adrenaliini ja noradrenaliini. Sydänlihaksen lisäksi β1AR:a ilmennetään myös aivoissa, jossa reseptorilla on keskeinen asema muistin ja synaptisen muovautuvuuden kannalta. Ihmisen β1AR (hβ1AR) sisältää kaksi polymorfismia, joista toinen (Arg389Gly8.56) sijaitsee reseptorin karboksyyli- (C-) terminaalissa solulimassa. Tällä polymorfismilla on havaittu olevan toiminnallista merkitystä. Vaikka hβ1AR:n kliininen merkitys on huomattava, sen biosynteesistä ja translaationjälkeisestä muokkauksesta ei ole tähän mennessä ollut juurikaan tutkimustietoa. Tämän väitöskirjatyön tavoite oli kuvata näitä tapahtumia ja erityisesti keskittyä hβ1AR:n solunulkoisen amino- (N-) terminaalin rajoitettuun proteolyysiin. Lisäksi haluttiin tutkia, onko β-adrenergisillä ligandeilla vaikutusta reseptorin prosessointiin. Tutkimuksen kliinisessä osiossa kartoitettiin C-terminaalisen polymorfian yhteyttä valikoituihin muuttujiin aineistossa, joka koostui akuutin sydäninfarktin (AMI) sairastaneista potilaista. hβ1AR:n biosynteesin havaittiin olevan tehokas ja nopea heterologisessa systeemissä. Kypsän reseptorin N-terminaalissa havaittiin useita O-kytkennäisiä ja yksi N-kytkennäinen glykaani. Glykosyloinnista huolimatta N-terminaali pilkkoutui solun pinnalla, mikä tuotti kaksi solukalvolla sijaitsevaa, C-terminaalista reseptoripalasta. Pilkkoutumista, joka havaittiin myös in vivo, katalysoi metalloproteinaasi. Reseptorin aktivaatio kiihdytti pilkkoutumista, joka siten todennäköisesti edustaa uudenlaista hβ1AR:n säätelymekanismia. Ligandit, jotka kiihdyttivät pilkkoutumista, toisaalta stabiloivat solunsisäisiä hβ1AR:n epäkypsiä muotoja toimien luultavasti ns. farmakologisina kaperoneina. Näin ollen väitöskirjatyö osoittaa, että β-adrenergisillä ligandeilla voi olla erilaisia säätelyvaikutuksia eri hβ1AR-muotoihin. Kliinisessä tutkimuksessa Arg3898.56-homotsygooteilla potilailla havaittiin merkittävästi suurentunut vasemman kammion massaindeksi Gly3898.56-kantajiin verrattuina, mikä puoltaa Arg3898.56-polymorfismin ja vasemman kammion hypertrofian (LVH) välistä yhteyttä. Kun euglykeemisiä potilaita ja diabeetikkoja tutkittiin erikseen, yhteys ilmeni vain euglykeemisessä ryhmässä. Diabetes on riskitekijä, joka vaikuttaa LVH:n kehittymiseen. Tässä tutkimuksessa diabeteksellä havaittiin olevan voimakkaampi vaikutus LVH:n kehittymiseen Arg3898.56 -polymorfismiin verrattuna.

G-protein-coupled receptors

biosynthesis

down-regulation

glycosylation

left ventricular hypertrophy

limited proteolysis

metalloproteinases

myocardial infarction

pharmacological chaperones

single nucleotide polymorphism

up-regulation

β-adrenergic antagonist

G-proteiiniin kytketyt reseptorit

biosynteesi

farmakologiset kaperonit

glykosylaatio

metalloproteinaasit

rajoitettu proteolyysi

sydäninfarkti

vaimennussäätely

vasemman kammion hypertrofia

yksittäisen nukleotidin polymorfia

ylössäätely

β-adrenerginen antagonisti