Camundongos com deficiência em Pkd1 apresentam  disfunção cardíaca, fenótipo atenuado por knockout de galectina-3 / Cardiac dysfunction in Pkd1-deficient mice and phenotype rescue by galectin-3 knockout

Balbo, Bruno Eduardo Pedroso

16 September 2014

Anormalidades miocárdicas destacam-se entre as manifestações cardiovasculares da doença renal policística autossômica dominante (DRPAD). Para investigar a patogênese dessas manifestações, analisamos o fenótipo cardíaco em camundongos com diferentes perfis de deficiência de Pkd1. Avaliamos o modelo Pkd1cond/cond:Nestincre (CI), com cistos renais e hipertensão, na idade de 20-24 semanas, e heterozigotos para mutação nula em Pkd1 (Pkd1+/-; HT) entre 10-13 semanas, representando um modelo não cístico de haploinsuficiência gênica. Animais Pkd1cond/cond (não cístico; NC) e Pkd1+/+ (selvagem, SV) foram usados como controles. Análises ecocardiográficas de camundongos CI e HT revelaram diminuição da fração de ejeção do ventrículo esquerdo, indicando disfunção sistólica. A relação E/A e o tempo de desaceleração foram consistentes com disfunção diastólica em animais CI. Ecocardiografia por speckle-tracking mostrou redução na deformidade cardíaca (strain) nos modelos CI e HT. Os corações de ambos os grupos apresentaram índices de apoptose maiores e fibrose discreta. Neste cenário, investigamos galectina-3 (Gal-3) como modificador potencial do fenótipo cardíaco na DRPAD. Duplos-mutantes Pkd1cond/cond:Nestincre;Lgals3-/- (CIG-) e Pkd1+/- ;Lgals3-/- (HTG-) cursaram com melhora da função sistólica e de strain comparados a CIs e HTs, não diferindo de NCs e SVs. Animais HTG- apresentaram melhora parcial da função diastólica. Apoptose e fibrose cardíaca mostraram-se reduzidas em CIG-s e HTG-s, alcançando valores similares a NCs e SVs. Análises de western blot revelaram expressão de Gal-3 maior em corações CIs que NCs, porém o mesmo não ocorreu entre HTs e SVs. Os duplos-mutantes não apresentaram diferença na ureia sérica quando comparados a CIs e HTs, assim como nas frações de excreção de Na+, Cl- e K+. Por fim, empregamos um modelo renal cístico grave, homozigoto para um alelo que impede a clivagem da policistina-1 no sítio GPS (Pkd1V/V; VV), e mostramos que a ausência de galectina-3 aumentou a sobrevida em animais Pkd1V/V;Lgals3-/- (VVG-). Nossos resultados demonstram disfunção e alterações de deformidade miocárdica em diferentes modelos de deficiência de Pkd1, à semelhança da DRPAD humana, e revelam que knockout de Gal-3 resgata significativamente este fenótipo / Myocardial abnormalities stand out among ADPKD cardiovascular manifestations. To elucidate their pathogenesis, we analyzed the cardiac phenotype in distinct models of Pkd1-deficiency. We evaluated Pkd1cond/cond:Nestincre (CY) cystic, hypertensive mice at 20-24 weeks of age, and Pkd1+/- (HT) noncystic mice at 10-13 weeks, a model of gene haploinsufficiency. Pkd1cond/cond (noncystic; NC) and Pkd1+/+ (wild type, WT) animals were used as controls. Echocardiographic analyses in CY and HT mice revealed decreased left ventricle ejection fraction (LVEF), indicating systolic dysfunction, as well as E/A ratios and deceleration times consistent with diastolic dysfunction in CY animals. Speckle-tracking echocardiography showed reduced cardiac deformability in both models. CY and HT hearts presented higher apoptotic rates and mild fibrosis. In this scenario, we investigated galectin-3 (Gal-3) as a potential modifier of the ADPKD cardiac phenotype. Double mutants Pkd1cond/cond:Nestincre;Lgals3-/- (CYG-) and Pkd1+/-;Lgals3-/- (HTG-) displayed improved systolic and deformability parameters compared to single mutants, while such values did not differ from NCs and WTs. HTG-s presented a partial improvement in diastolic function. CYG- and HTG- hearts showed decreased apoptosis and fibrosis, reaching NC and WT baselines. Western blot analyses revealed higher Gal-3 expression in CY than NC hearts but no difference between HT and WT mice. CYG- and HTG- animals showed no difference in BUN and in the fractional excretion of Na+, Cl- and K+ compared to CYs and HTs. We also employed a more severe renal cystic model, homozygous for an allele that hinders polycystin-1 cleavage at the GPS site (Pkd1V/V; VV), and showed that Pkd1V/V;Lgals3-/- mice present longer survival than VVs. Our findings demonstrate myocardial dysfunction and abnormal deformability in different Pkd1-deficient models, reproducing human ADPKD, and reveals that Gal-3 knockout significantly rescues this phenotype

Apoptose

Apoptosis

Biologia molecular

Camundongos

Cardiomyopathies

Echocardiography

Ecocardiografia

Fibrose

Fibrosis

Galectin 3

Galectina 3

Mice

Miocardiopatias

Molecular biology

Rim policístico autossômico dominante

Ultrasonography

Ultrassonografia

Camundongos com deficiência em Pkd1 apresentam  disfunção cardíaca, fenótipo atenuado por knockout de galectina-3 / Cardiac dysfunction in Pkd1-deficient mice and phenotype rescue by galectin-3 knockout

Bruno Eduardo Pedroso Balbo

16 September 2014

Anormalidades miocárdicas destacam-se entre as manifestações cardiovasculares da doença renal policística autossômica dominante (DRPAD). Para investigar a patogênese dessas manifestações, analisamos o fenótipo cardíaco em camundongos com diferentes perfis de deficiência de Pkd1. Avaliamos o modelo Pkd1cond/cond:Nestincre (CI), com cistos renais e hipertensão, na idade de 20-24 semanas, e heterozigotos para mutação nula em Pkd1 (Pkd1+/-; HT) entre 10-13 semanas, representando um modelo não cístico de haploinsuficiência gênica. Animais Pkd1cond/cond (não cístico; NC) e Pkd1+/+ (selvagem, SV) foram usados como controles. Análises ecocardiográficas de camundongos CI e HT revelaram diminuição da fração de ejeção do ventrículo esquerdo, indicando disfunção sistólica. A relação E/A e o tempo de desaceleração foram consistentes com disfunção diastólica em animais CI. Ecocardiografia por speckle-tracking mostrou redução na deformidade cardíaca (strain) nos modelos CI e HT. Os corações de ambos os grupos apresentaram índices de apoptose maiores e fibrose discreta. Neste cenário, investigamos galectina-3 (Gal-3) como modificador potencial do fenótipo cardíaco na DRPAD. Duplos-mutantes Pkd1cond/cond:Nestincre;Lgals3-/- (CIG-) e Pkd1+/- ;Lgals3-/- (HTG-) cursaram com melhora da função sistólica e de strain comparados a CIs e HTs, não diferindo de NCs e SVs. Animais HTG- apresentaram melhora parcial da função diastólica. Apoptose e fibrose cardíaca mostraram-se reduzidas em CIG-s e HTG-s, alcançando valores similares a NCs e SVs. Análises de western blot revelaram expressão de Gal-3 maior em corações CIs que NCs, porém o mesmo não ocorreu entre HTs e SVs. Os duplos-mutantes não apresentaram diferença na ureia sérica quando comparados a CIs e HTs, assim como nas frações de excreção de Na+, Cl- e K+. Por fim, empregamos um modelo renal cístico grave, homozigoto para um alelo que impede a clivagem da policistina-1 no sítio GPS (Pkd1V/V; VV), e mostramos que a ausência de galectina-3 aumentou a sobrevida em animais Pkd1V/V;Lgals3-/- (VVG-). Nossos resultados demonstram disfunção e alterações de deformidade miocárdica em diferentes modelos de deficiência de Pkd1, à semelhança da DRPAD humana, e revelam que knockout de Gal-3 resgata significativamente este fenótipo / Myocardial abnormalities stand out among ADPKD cardiovascular manifestations. To elucidate their pathogenesis, we analyzed the cardiac phenotype in distinct models of Pkd1-deficiency. We evaluated Pkd1cond/cond:Nestincre (CY) cystic, hypertensive mice at 20-24 weeks of age, and Pkd1+/- (HT) noncystic mice at 10-13 weeks, a model of gene haploinsufficiency. Pkd1cond/cond (noncystic; NC) and Pkd1+/+ (wild type, WT) animals were used as controls. Echocardiographic analyses in CY and HT mice revealed decreased left ventricle ejection fraction (LVEF), indicating systolic dysfunction, as well as E/A ratios and deceleration times consistent with diastolic dysfunction in CY animals. Speckle-tracking echocardiography showed reduced cardiac deformability in both models. CY and HT hearts presented higher apoptotic rates and mild fibrosis. In this scenario, we investigated galectin-3 (Gal-3) as a potential modifier of the ADPKD cardiac phenotype. Double mutants Pkd1cond/cond:Nestincre;Lgals3-/- (CYG-) and Pkd1+/-;Lgals3-/- (HTG-) displayed improved systolic and deformability parameters compared to single mutants, while such values did not differ from NCs and WTs. HTG-s presented a partial improvement in diastolic function. CYG- and HTG- hearts showed decreased apoptosis and fibrosis, reaching NC and WT baselines. Western blot analyses revealed higher Gal-3 expression in CY than NC hearts but no difference between HT and WT mice. CYG- and HTG- animals showed no difference in BUN and in the fractional excretion of Na+, Cl- and K+ compared to CYs and HTs. We also employed a more severe renal cystic model, homozygous for an allele that hinders polycystin-1 cleavage at the GPS site (Pkd1V/V; VV), and showed that Pkd1V/V;Lgals3-/- mice present longer survival than VVs. Our findings demonstrate myocardial dysfunction and abnormal deformability in different Pkd1-deficient models, reproducing human ADPKD, and reveals that Gal-3 knockout significantly rescues this phenotype

Apoptose

Biologia molecular

Camundongos

Ecocardiografia

Fibrose

Galectina 3

Miocardiopatias

Rim policístico autossômico dominante

Ultrassonografia

Apoptosis

Cardiomyopathies

Echocardiography

Fibrosis

Galectin 3

Mice

Molecular biology

Ultrasonography

Acute-Onset Heart Failure Secondary to Biventricular Non-Compaction Cardiomyopathy and Atrial Septal Defect in a Woman Presenting in the Seventh Decade

Sharma, Purva, Jobanputra, Yash, Chait, Robert, Ghumman, Waqas

28 February 2022

We present a case of a previously asymptomatic 63-year-old woman who presented with worsening dyspnoea for 3 weeks. Initial transthoracic and later transoesophageal echocardiography confirmed biventricular non-compaction cardiomyopathy and a large secundum atrial septal defect (ASD) measuring 1.4 cm. Additionally, there was a haemodynamically significant left to right shunt causing acute decompensated systolic heart failure. She eventually underwent closure of the septal defect using a AMPLATZER Septal Occluder device. Decision to close the defect was made as the left to right shunt was causing severe pulmonary hypertension and acute heart failure. Since most heart failure treatments involve lowering of the LV afterload there was consideration that this could cause right to left shunting and could cause an Eisenmenger physiology. Hence the AMPLATZER Septal Occluder device was placed to eliminate the shunt through the ASD. The ASD combined with the non-compaction posed significant treatment challenge in this case.

interventional cardiology

cardiac catheterization

cardiomyopathies (complications

diagnostic imaging)

echocardiography

transesophageal

female

heart failure (complications)

heart septal defects

atrial (complications

diagnostic imaging

surgery)

humans

middle aged

septal occluder device

treatment outcome

Internal Medicine

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

Análise genética de pacientes portadores de cardiomiopatia arritmogênica do ventrículo direito (CAVD) e caracterização funcional em cardiomiócitos diferenciados (hiPSC-CM) / Genetic analysis of patients with arrhythmogenic right ventricular cardiomyopathy (ARVC) and functional characterization of patient-specific cardiomyocytes derived from hiPSCs (hiPSC-CM

Wulkan, Fanny

10 May 2019

A cardiomiopatia arritmogênica do ventrículo direito (CAVD) tem origem genética e é caracterizada pela substituição de células miocárdicas por tecido fibroadiposo. A doença tem uma prevalência aproximada de 1:3500, sendo mais frequentemente diagnosticada em indivíduos jovens, atletas e do sexo masculino. Atualmente, várias alterações genéticas associadas a CAVD foram descritas em 12 genes diferentes. No entanto, existem poucos estudos na literatura que descrevem o espectro mutacional da doença usando um painel abrangente de genes potencialmente causais, em populações diferentes das coortes descendentes de europeus. O sequenciamento de nova geração (NGS) como ferramenta para o diagnóstico molecular da doença, permite um avanço na correlação entre alterações genotípicas e fenotípicas e tem aportado potenciais benefícios que crescem juntamente com os desafios na sua interpretação. Além disso, o uso de hiPSCs como modelo in vitro de determinadas doenças cardíacas, permite avaliar especificamente a relação do genótipo com as diferentes consequências fenotípicas celulares da CAVD. Entretanto, os mecanismos moleculares da doença ainda são pouco esclarecidos e não há na literatura estudos que englobem ao mesmo tempo o perfil mutacional (com um painel extenso de genes) e estudo funcional das alterações encontradas com o uso de hiPSC-CMs. Esta tese teve como objetivo descrever a prevalência de variantes causais em genes associados à CAVD na população brasileira, e caracterizar, do ponto de vista funcional, os cardiomiócitos derivados de hiPSC (hiPSC-CMs) de pacientes com mutações identificadas, a fim de associar o perfil mutacional e a expressão fenotípica celular. Quarenta e sete indivíduos, não aparentados, sendo 38 (80,85%) pacientes do sexo masculino, idade média 40,2 ± 15,56 anos, com diagnóstico clínico de CAVD, foram submetidos ao sequenciamento de um painel genético relacionado à cardiomiopatias hereditárias, compreendendo os 12 genes previamente descritos como causadores de CAVD, utilizando sequenciamento de nova geração (NGS). As variantes foram interpretadas e classificadas de acordo com os critérios da ACMG. Variantes patogênicas ou provavelmente patogênicas foram encontradas em dezoito probandos (38,3%), com maior número de ocorrências no gene PKP2 (38,8%). Entre os 18 casos positivos, treze variantes diferentes foram encontradas, quatro delas novas variantes em genes desmossomais, sem descrição prévia na literatura. Variantes de significado incerto (VSI) foram encontradas em 16 pacientes. A presença de uma variante causal ocorreu em todos os probandos assintomáticos e foi significativamente associada a probandos com histórico familiar de morte súbita cardíaca abaixo de 35 anos. Para a modelagem celular da CAVD, foram geradas hiPSCs de dois pacientes a partir de células progenitoras de urina (UPCs) e fibroblastos, por transfecção episomal. O primeiro paciente possuía alteração missense no gene PKP2 e o segundo, uma inserção no gene DSC2. As hiPSCs foram caracterizadas quanto ao seu potencial de pluripotência e posteriormente diferenciadas em cardiomiócitos (hiPSC-CMs). Nossos resultados demonstraram diferenças fenotípicas significativas entre os CAVD-CMs comparados com os controle-CMs, como: reduções significativas de expressão das proteínas desmossomais e desmossomos estruturalmente alterados; presença de marcadores do acúmulo de gotículas lipídicas e regulação aumentada do fator de transcrição proadipogênico PPAR-gama; aumento de duração do potencial de campo (FPD) e do potencial de ação em 90% de repolarização (APD90); velocidade de condução mais lenta e uma força de contração menor. Em conclusão, este é o primeiro trabalho a caracterizar o perfil genético da CAVD, abrangendo todos os genes descritos até o momento relacionados à doença, na população brasileira. Os dados obtidos neste trabalho sugerem que, pacientes com história familiar de MSC ( < 35 anos) têm maior probabilidade de portar uma variante causal. Além disso, nossos achados sugerem que pacientes com alteração causal no gene PKP2 têm uma maior gravidade da apresentação fenotípica de arritmia. Nosso modelo celular, que contemplou células paciente-específicas com diferentes alterações das estudadas até o presente momento,sugere ser possível o estudo do efeito das alterações genéticas na CAVD e pode ser um acréscimo às ferramentas disponíveis para estudar o mecanismo desta doença complexa / Arrhythmogenic right ventricular cardiomyopathy (ARVC) has a genetic origin and is mainly characterized by the replacement of myocardial cells with fibroadipose tissue. The disease has a prevalence of approximately 1: 3.500, being more frequently diagnosed in young individuals, athletes and males. Currently, several mutations associated with ARVC have been described in 12 different genes. However, there are few studies in the literature that describe the mutational spectrum of the disease using a comprehensive panel of potentially causal genes in populations other than European-descent cohorts. Next Generation Sequencing (NGS) as a tool for molecular diagnosis of the disease allows an advance in the correlation between genotypic and clinical phenotypic aspects and has potential benefits that grow along with the challenges in its interpretation. In addition, the use of hiPSCs as an in vitro model of certain heart diseases, allows to specifically evaluate the relationship of the genotype with the different cellular phenotypic consequences of ARVC. However, the molecular mechanisms of the disease are still poorly understood and there are no studies in the literature that include both the mutational profile (with an extensive panel of genes) and functional study of different causal variants, with the use of hiPSC-CMs. The aim of this thesis was to describe the prevalence of causal variants in ARVC-associated genes in the Brazilian population, and to characterize, from a functional point of view, cardiomyocytes derived from hiPSC (hiPSC-CMs) from patients with identified mutations, in order to associate the mutational profile and cellular phenotypic expression. Forty-seven unrelated probands, 38 (80.85%) male, mean age 40.2 ± 15.56 years, with clinical diagnosis of ARVC, were submitted to a cardiomyopathy-related gene panel sequencing, comprising 12 genes, using next-generation sequencing (NGS). Variants were interpreted and classified according to the ACMG criteria. Pathogenic or Likely Pathogenic variants were found in eighteen probands (38.3%), with the largest number of occurrences in the PKP2 gene (38.8%). Among the 18 positive cases, thirteen different variants were found, four of them novel mutations in desmosomal genes, without previous description in the literature. Variants of uncertain significance (VUS) were found in 16 patients. The presence of a causal variant was present in all asymptomatic probands and was significantly associated with probands who have a family history of sudden cardiac death under 35 years. For the cellular modeling, from urinary progenitor cells (UPCs) and fibroblasts, hiPSCs from two patients were generated by episomal transfection. The first patient had a missense variant in the PKP2 gene, while the second had an insertion in the DSC2 gene. The hiPSCs were characterized for its pluripotency potential and subsequently differentiated into cardiomyocytes (hiPSC-CMs). Our results demonstrated significant phenotypic differences between the ARVC-CMs compared to the control-CMs, such as: significant reductions in the expression of desmosomal proteins and structurally altered desmosomes; presence of lipid droplet accumulation markers and increased regulation of the proadipogenic transcription factor PPAR-gamma; prolonged field potential duration (FPD) and action potential in 90% repolarization (APD90); slower conduction velocity and a lower active contraction force. In conclusion, this is the first work to characterize the genetic profile of ARVC, covering all genes described to date related to the disease, in the Brazilian population. The data obtained in this study suggests that patients with a family history of sudden cardiac death ( < 35 years) are more likely to carry a causal variant. In addition, our findings suggest that patients with causal variant in the PKP2 gene have a greater severity of the phenotypic presentation of arrhythmia. Our cellular model, which contemplated patient-specific cells with different causal variants of the previous studies, suggests that it is possible to study the effect of the genetic changes in ARVC, and may be an addition to the tools available to study the mechanism of this complex disease

Cardiomiopatias

Cardiomyopathies

Cellular reprogramming

Células-tronco pluripotentes induzidas

Genética médica

Genetics medical

High-throughput nucleotide sequencing

Induced pluripotent stem cells

Miócitos cardíacos

Mutação

Mutation

Myocytes cardiac

Reprogramação celular

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

Etude des manifestations cardiovasculaires chez les patients présentant un syndrome de Noonan porteurs de mutation au sein du gène PTPN11: rôles des gènes de la voie de signalisation des MAP kinases pour les syndromes apparentés

Sznajer, Yves

31 August 2009

Les patients décrits initialement par J. Noonan se ressemblent et ont une cardiopathie congénitale :soit une sténose valvulaire pulmonaire (SVP), soit une persistance du canal artériel. Avant la découverte du premier gène responsable de ce qui est devenu le syndrome de Noonan, cinq études de cohortes décrivant ces patients ont répertorié la prévalence de SVP mais le spectre des cardiopathies semble large, n’a pas été décrit de manière exhautive et aucune hypothèse n’est émise ou ne fait de lien entre ces différentes manifestations cardiaques et une compréhension intégrée du développement embryonnaire. Le gène PTPN11 est le premier gène identifié chez 40% de ces patients. Une corrélation existe entre la présence d’une mutation et la survenue de SVP de même qu’entre l’absence de mutation et la présence d’une cardiomyopathie hypertrophique. Six études de cohortes ont repris la description des mutations identifiées au sein du gène PTPN11 et les phénotypes associés, mais les cardiopathies n’ont pas été systématiquement ou spécifiquement analysées (tant au sein des groupes de patients porteurs de mutation que de ceux sans mutation). Le syndrome LEOPARD est allélique du syndrome de Noonan depuis que des mutations spécifiques au sein des exons 7,12 et 13 du gène PTPN11 ont été identifiées chez 95% des patients. <p><p>Afin d’appréhender les implications possibles du gène PTPN11 dans la survenue des cardiopathies chez les patients porteurs de ces deux syndromes, nous avons conduit une étude chez 272 patients au syndrome de Noonan et une étude chez 19 patients porteurs du syndrome LEOPARD. Parmi la cohorte de patients atteints du syndrome de Noonan, 104 ont été diagnostiqués porteurs d’une mutation du gène (38%). Une prévalence de survenue de cardiopathies affectant les structures droites du cœur se dégage chez les patients identifiés porteurs d’une mutation avec une différence significative pour la SVP, une tendance est relevée pour le canal atrio-ventriculaire et la communication inter-auriculaire de type Ostium Secundum. L’absence de mutation est corrélée avec la survenue de cardiomyopathie hypertrophique et de cardiopathies du cœur gauche. Parmi les patients atteints du syndrome LEOPARD, il n’existe pas de différence statistiquement significative pour les patients porteurs d’une mutation ou non et/ou pour une cardiopathie particulière. <p><p>Toutes les mutations identifiées du gène PTPN11 sont des mutations ‘faux-sens’. Ce gène appartient à la famille des gènes codant pour une protéine tyrosyl phosphatase, SHP-2, ne possédant pas de récepteur trans-membranaire. Cette phosphatase est impliquée dans la voie de signalisation cellulaire des MAP (‘Mitogen-activated protein’) kinases dont l’expression est ubiquitaire et inclut le coeur. Depuis nos travaux, le concept de syndrome « neuro-cardio-facio-cutané » est établi puisque, à ce jour, 9 gènes (SOS1, RAF1, BRAF, KRAS, NRAS, HRAS, NF1, SPRED1 et SHOC2), tous impliqués dans la voie de signalisation RAS (voie des MAP kinases) sont identifiés. Un spectre phénotypique existe avec des signes communs mais aussi distinctifs chez les patients présentant le syndrome de Noonan, le syndrome LEOPARD, le syndrome de Costello, le syndrome Cardio-Facio-Cutané (CFC), le syndrome « Noonan-NF1 », le syndrome de Legius et le syndrome « Noonan/Multiple Giant Cell Lesion ». Nous rapportons enfin l’observation d’une patiente atteinte du syndrome CFC et porteuse d’une mutation (p.R257Q) au sein du gène BRAF ayant développé une cardiomyopathie hypertrophique. <p><p>Ces travaux de cohortes de patients au phénotype du syndrome de Noonan, du syndrome LEOPARD et cette dernière description d’une patiente au syndrome CFC ont permis de participer à la découverte de l’implication d’une voie de signalisation cellulaire dont l’origine génétique est maintenant démontrée. Les résultats de nos travaux réalisés depuis 2002 auront permis, avec les équipes travaillant sur le même sujet, d’orienter les investigations et les nouveaux projets de recherche qui étudient spécifiquement le rôle du gène PTPN11 dans l’embryologie du cœur. Les études des orthologues (zebrafish, murin et Drosophila) porteurs à l’état hétérozygote d’une mutation du gène PTPN11 permettent d’intégrer les anomalies phénotypiques et cardiaques observées. Ces études permettent de postuler les effets cellulaires produits par les mutations chez les patients atteints du syndrome de Noonan et chez les patients atteints du syndrome LEOPARD engendrant in vitro une activation de la phosphatase (effet « gain de fonction ») pour les premiers ou une réduction de l’activité phosphatase (« dominant négatif ») mais engendrant un effet gain de fonction in vivo. Nous discutons les connaissances acquises, les compréhensions obtenues et intégrées et traçons enfin les perspectives offertes par ces travaux.<p> / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Médecine pathologie humaine

Abnormalities, Human

Heart -- Diseases -- Genetic aspects

Myocardium -- Diseases

Pulmonary valve -- Stenosis

Ductus arteriosus defects

Mitogen-activated protein kinases

Malformations

Coeur -- Maladies -- Aspect génétique

Cardiomyopathies

Artère pulmonaire -- Rétrécissement

Canal artériel persistant

MAP kinases

voie RAS

PTPN11

Noonan