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

Implementation of a Beta Blocker Protocol

Heriot, Jody L

01 January 2012

Background: Beta blockers are recommended by the American College of Cardiology/American Heart Association Guidelines for high and intermediate-risk cardiac patients undergoing non-cardiac surgery. Beta blockers are a class of drugs that moderate the effects of increased catecholamine levels on the heart by selectively blocking beta receptors in the heart and blood vessels, resulting in a lower heart rate and blood pressure. Beta blocker use perioperatively has been shown to reduce the risk of ischemia and infarction. Purpose: The purpose of this project is to address beta blocker use in a group of anesthesia providers who routinely attend to high-risk and intermediate-risk cardiac patients undergoing non-cardiac surgery in a medium-sized private hospital in suburban South Florida. There are barriers to the implementation of the published guidelines for beta blocker administration, including lack of awareness of the best current practice and a lack of a formal beta blocker protocol at the institutional level. Methods: A simple and inexpensive beta blocker protocol was implemented and evaluated by various means. Beta blocker administration practices were examined and documented prior to and after protocol implementation. Beta blocker usage was examined prior to and after protocol implementation Findings/Implications: It was hypothesized that increased anesthesia provider awareness would lead to increased administration of perioperative beta blockers to high-risk and intermediate-risk cardiac patients undergoing non-cardiac procedures. Although there was a knowledge increase related to the new beta blocker protocol, no change in practice was observed.

University of North Florida

UNF

Project

D.N.P.

DNP

Adrenergic beta blockers -- Florida

Surgical nursing -- Practice -- Florida

beta blockers

perioperative protocol

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

Rafael Amorim Belo Nunes

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

Antebraço/irrigação sanguínea

Exercício/fisiologia

Óxido nítrico sintase tipo III

Polimorfismo genético

Receptor B2 de bradicinina

Receptores adrenérgico alfa

Teste de esforço

Vasodilatação

Alpha-adrenergic receptor

Exercise test

Exercise/physiology

Forearm/blood supply

Nitric oxide synthase type III

Polymorphism Genetic

Receptor bradykinin B2

Vasodilation

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

Tews, Julia

31 March 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.

info:eu-repo/classification/ddc/610

ddc:610

Physical Dependence in Patient With Chronic Low Back Pain Treated With Topiramate: A Case Report

Bratton, Roscoe H., Ward, Sameh A.

15 November 2019

In the last decade, prescription of anticonvulsants for treatment of low back pain (LBP) increased 4-fold. Among them, topiramate has frequent side effects and a mechanism of action that is not fully understood. The authors describe a 65-year-old woman with dependence on topiramate prescribed for chronic LBP and discuss how she was successfully weaned off topiramate using duloxetine. A significant agonistic effect by topiramate on α-2 adrenergic receptors in the brain likely accounts for the symptoms of withdrawal that were seen. We attribute the resolution of her topiramate withdrawal symptoms to reduced norepinephrine (NE) release, a known effect of duloxetine administration.

aged

adverse effects)

therapeutic use)

female

humans

low back pain (drug therapy)

receptors

adrenergic

alpha-2 (metabolism)

metabolism)

topiramate (administration & dosage

adverse effects)

treatment outcome

QCOM

Funktionelle Untersuchungen von Ahnak durch Protein-Protein-Wechselwirkungen und in Ahnak-Defizienzmodellen

Petzhold, Daria

14 December 2007

Ahnak ist ein ubiquitäres Protein, das an einer Vielzahl biologischer Prozesse beteiligt ist. In der Herzmuskelzelle ist Ahnak überwiegend am Sarkolemma lokalisiert und bindet an Aktin und an die regulatorischen Beta2-Untereinheit des L-Typ-Kalzium-Kanals. Das Ziel dieser Arbeit war die Funktion von Ahnak im Herzen mit Hilfe eines Knock-out-Maus-Modells und in Bindungsstudien zu untersuchen. Morphologische Untersuchungen zeigten, dass das Längenwachstum adulter Kardiomyozyten bei Ahnakdefizienz signifikant reduziert war. Die Kontraktionseigenschaften adulter isolierter Ahnak-defizienter Kardio-myozyten (im Alter von 6 Monaten) waren ebenfalls verändert. Die Kontraktions- und Relaxaktionsgeschwindigkeiten waren erhöht. Eine Erhöhung des diastolischen Kalzium-Spiegels zeigten die Kardiomyozyten schon im Alter von 3 Monaten. Diese beobachteten phänotypischen Veränderungen lassen vermuten, dass die Aktivität des L-Typ-Kalzium-Kanals erhöht ist. In dieser Arbeit konnte das PXXP-Motiv, in der C-terminalen Ahnak-Domäne, als die hochaffine Beta2-Bindungsstelle (KD ~ 60 nM) identifiziert werden. Substitution von Prolin gegen Alanin verringerte zwar die Bindung zur Beta2-Untereinheit dramatisch (KD ~ 1 µM), hob sie aber nicht auf. In weiteren Bindungsstudien zeigte sich, dass die natürlich vorkommende Missensmutation I5236T die Bindung zur regulatorischen Beta2-Untereinheit verstärkte, dagegen verminderte die PKA-abhängige Phosphorylierung der beiden Proteinpartner die Bindung. Experimente am ganzen isoliert perfundierten Herzen zeigten, dass Ahnak-Knock-Out-Herzen geringer Beta-adrenerg stimulierbar waren. Ahnak scheint wie eine physiologische Bremse des kardialen Kalzium-Kanals zu wirken. / Ahnak is an ubiquitous protein with in unique structure, which has been implicated in cell type specific functions. In cardiomyocytes, ahnak is predominantly localized at the sarcolemma and is associated with actin and with the regulatory beta2 subunit of the L-type calcium-channel. The aim of this work was to unravel the function of ahnak in the heart, using a knock-out-mouse model and binding studies. Morphological studies showed a significant decrease in the cell-length of ahnak deficient cardiomyocytes. The contractile parameters of isolated adult ahnak deficient cardiomyocytes (in the age of 6 month) were altered. The development of tension and relaxation were increased. An increase of diastolic calcium was already observed at the age of 3 month. In general the observed phenotypic changes suggested an increased activity of the L-type calcium-channel. In this study, a PXXP-motif, which locates in ahnaks C-terminus, was identified as the high affinity beta2 subunit binding site (KD ~ 60 nM). Substitution of both proline residues by alanine reduced, but did not abolish the binding (KD ~ 1 µM). Further binding studies revealed that the natural occurring ahnak missense mutation I5236T increases the binding affinity to the regulatory beta2 subunit. By contrast PKA dependant phosphorylation of both protein partners decreases the interaction. In studies with isolated perfused working heart preparations, the ahnak deficient hearts were less beta-adrenergic stimulated than hearts from wild type. Taken together ahnak seems to be a physiological brake of the cardiac calcium-channel.

Ahnak

Ahnak-Knock-Out-Maus

Beta-adrenerge Stimulierung

Beta2 Untereinheit

Kalzium-Transient

elektromechanische Kopplung

Kardiomyozyten

L-Typ-Kalzium-Kanal

Missensmutationen

Proteinbindungen

PXXP-Motiv

PKA-abhängige Phosphorylierung

ahnak

ahnak-knock-out-mouse

beta-adrenergic stimulation

beta2 subunit

calcium-transient

excitation-contraction-coupling

cardiomyocyte

L-type-calcium-channel

missense mutation

protein binding

PXXP-motif

PKA-dependant phosphorylation

570 Biowissenschaften, Biologie

32 Biologie

WW 4120

WW 7700

ddc:570

Homology modeling and structural analysis of the antipsychotic drugs receptorome

López Muñoz, Laura

22 June 2010

Classically it was assumed that the compounds with therapeutic effect exert their action interacting with a single receptor. Nowadays it is widely recognized that the pharmacological effect of most drugs is more complex and involves a set of receptors, some associated to their positive effects and some others to the side effects and toxicity. Antipsychotic drugs are an example of effective compounds characterized by a complex pharmacological profile binding to several receptors (mainly G protein-coupled-receptors, GPCR). In this work we will present a detailed study of known antipsychotic drugs and the receptors potentially involved in their binding profile, in order to understand the molecular mechanisms of the antipsychotic pharmacologic effects.The study started with obtaining homology models for all the receptors putatively involved in the antipsychotic drugs receptorome, suitable for building consistent drug-receptor complexes. These complexes were structurally analyzed and compared using multivariate statistical methods, which in turn allowed the identification of the relationship between the pharmacological properties of the antipsychotic drugs and the structural differences in the receptor targets. The results can be exploited for the design of safer and more effective antipsychotic drugs with an optimum binding profile. / Tradicionalmente se asumía que los fármacos terapéuticamente efectivos actuaban interaccionando con un único receptor. Actualmente está ampliamente reconocido que el efecto farmacológico de la mayoría de los fármacos es más complejo y abarca a un conjunto de receptores, algunos asociados a los efectos terapéuticos y otros a los secundarios y toxicidad. Los fármacos antipsicóticos son un ejemplo de compuestos eficaces que se caracterizan por unirse a varios receptores simultáneamente (principalmente a receptores unidos a proteína G, GPCR). El trabajo de la presente tesis se ha centrado en el estudio de los mecanismos moleculares que determinan el perfil de afinidad de unión por múltiples receptores de los fármacos antipsicóticos.En primer lugar se construyeron modelos de homología para todos los receptores potencialmente implicados en la actividad farmacológica de dichos fármacos, usando una metodología adecuada para construir complejos fármaco-receptor consistentes. La estructura de estos complejos fue analizada y se llevó a cabo una comparación mediante métodos estadísticos multivariantes, que permitió la identificación de asociaciones entre la actividad farmacológica de los fármacos antipsicóticos y diferencias estructurales de los receptores diana. Los resultados obtenidos tienen interés para ser explotados en el diseño de fármacos antipsicóticos con un perfil farmacológico óptimo, más seguros y eficaces.

Receptor 5-HT2A

Receptor D3

Receptor D2

Ligando

Clozapina

Derivados Benzofuranonas

Risperidona

Olanzapina

esquizofrenia

métodos de regresión

campos de interacción Molecular (MIF)

Perfil Multireceptorial

modelado por homología

Docking

sitio de unión

interacciones moleculares

selectividad

afinidad de unión

Diana

Meta-Diana

efectos secundarios

fármaco antipsicótico típico

fármaco antipsicótico atípico

agonista

antagonista

membrana

receptoroma

rhodopsina

estructura de rayos X

descriptores moleculares

farmacología

análisis multivariante

procedimiento integrado

Computer-aided drug design

Integrated approach

Multivariate analysis

Pharmacology

Molecular descriptors

X-ray structure

Rhodopsin

Receptorome

Membrane

Antagonist

Agonist

Atypical antipsychotic drug

Typical antipsychotic drug

Side effects

Off-target

Target

Selectivity

Binding affinity

Molecular interactions

Binding site

Homology modeling

Docking

Multireceptor profile

Molecular interaction Field (MIF)

Partial Least Squares (PLS)

Principal Component Analysis (PCA)

Schizophrenia

Benzolactam Derivatives

Benzofuranone Derivatives

Risperidone

Olanzapine

Clozapine

Ligand

Adrenergic receptors

Muscarinic receptors

Histamine receptors

Serotonin receptors

Dopamine receptors

beta2-Adrenergic receptor

D2 receptor

D3 receptor

5-HT2A receptor

G protein-coupled receptors (GPCR)

57