Influence d’un régime riche en graisses sur un modèle de vieillissement « accéléré » : étude de la fonction et de la morphologie cardiaque, la fonction artérielle, le métabolisme et l’inflammation / Influence of a high-fat diet on an "accelerated" aging model : study of cardiac function and morphology, arterial function, metabolism and inflammation

Lambert, Delphine

06 December 2016

L’obésité et le surpoids ont été décrits comme une pandémie. L’obésité et le vieillissement vont conduire à des complications cardiovasculaires. De plus, l’obésité favoriserait un vieillissement cardiaque prématuré chez les adultes jeunes. L’hypothèse de ce travail est qu’un régime riche en graisses, démarré avant l’âge adulte, poursuivi sur une longue durée, pourrait entraîner un vieillissement « accéléré » cardiovasculaire et métabolique. Nous avons démontré, dans un modèle murin vieillissant, qu’un régime riche en graisses conduit à des troubles métaboliques ainsi qu’à une augmentation de la masse grasse et à une détérioration du métabolisme au niveau du tissu adipeux blanc. Ces troubles sont associés à des altérations au niveau cardiaque, malgré l’absence de modifications de la pression artérielle et de la fréquence cardiaque. Le vieillissement, chez les souris obèses, va conduire à un remodelage du ventricule gauche accompagné par une dysfonction systolique. Au niveau tissulaire cardiaque, le vieillissement et le régime précoce conduisent à l’augmentation de l’expression de gènes de fibrose confirmant ainsi le phénotype hypertrophique. Le vieillissement associé à un régime riche en graisses précoce conduit également à une up-régulation de GDF11. GDF11 peut alors être considéré comme un marqueur de vieillissement cardiaque accéléré. Ces résultats peuvent suggérer des voies thérapeutiques ou préventives, où l’inhibition de GDF11 améliorerait le pronostic et la survie cardiovasculaire des sujets obèses. L’étude de ce modèle nous a ainsi permis de mettre en évidence qu’un régime riche en graisses conduit à un vieillissement accéléré au niveau cardiaque / Obesity and being overweight have been described as a global pandemic. Both obesity and aging will lead to cardiovascular complications. In addition, it has been highlighted that obesity promotes premature cardiac aging in young adults. The hypothesis of this work is that a high fat diet begun before adulthood, pursued over a long period of time, could lead to “accelerated” cardiovascular and metabolic aging. We have demonstrated, in an aging mouse model, that an early high fat diet leads to metabolic disorders and to an increase in fat mass and a deterioration in metabolism of white adipose tissue. These disorders are associated with alterations in cardiac morphology and function, despite an absence of changes in blood pressure and heart rate. Ageing, in obese mice, leads to ventricular remodeling accompanied by systolic dysfunction. In cardiac tissue, aging and early diet lead to an increased expression of fibrosis genes confirming the hypertrophic phenotype. Aging associated with an early high fat diet led also to an up-regulation of GDF11. GDF11 may then be considered as a marker of accelerated cardiac aging. These results may suggest therapeutic or preventive pathways, where inhibition of GDF11 improves prognosis and survival in obese subjects with cardiovascular disease. The study of this model has allowed us to demonstrate that a high fat diet leads to accelerated aging at the level of the heart

Vieillissement

Métabolisme

Obésité

Tomographie par émission de positons

Hypertrophie cardiaque

GDF11

Aging

Metabolism

Obesity

Positron emission tomography

Cardiac hypertrophy

GDF11

616.398

Sex- and oestrogen-dependent regulation of miRNAs in cardiac hypertrophy

Queirós, Ana Maria Gomes Capelo Carregal

17 March 2015

Das Ziel der vorliegenden Arbeit war die Identifizierung von Geschlechterunterschieden (GU) in der Expression von miRNAs im späten Stadium der Myokardhypertrophie, sowie der möglichen Rolle von ERbeta bei der Regulierung dieser GU. Unsere früheren Studien identifizierten ERβ als determinierenden Faktor für die beobachteten GU bei Druckbelastung. Unter anderem führte eine Deletion des ERbeta zur Aufhebung der zuvor beobachteten GU auf physiologischer und fibrotischer Ebene, sowie in der Genexpression. In dieser Studie wurden insgesamt 30 miRNAs mit Geschlechter- und/oder Geschlecht*Operation-Interaktionseffekten 9 Wochen nach TAC in WT Mäusen identifiziert. Die gleichen Effekte waren in ERbeta-/- Tieren nicht zu beobachten, teilweise aufgrund einer höheren Expression dieser miRNAs in ERbeta-/- Weibchen als bei den Männchen. Die vorliegende Studie zeigt eine Hemmung vieler miRNAs durch Östrogen (E2) und seine Rezeptoren in weiblichen Kardiomyozyten, welches somit die in vivo-Ergebnisse bestätigt und die protektive Rolle von E2 und ERβ im weiblichen Herzen unterstreicht. Sechs der miRNAs mit GU in WT-, aber nicht in ERbeta-/- Hypertrophie-Modellen wurden als mögliche Fibroseregulatoren identifiziert, da ihnen gemeinsame Inhibitoren des ERK-MAPK-Signalwegs als Zielgene vorhergesagt wurden. Die Expression dieser miRNAs, miR-106a, miR-106b, miR-21, miR-24, miR-27a und miR-27b, war in kardialen Fibroblasten durch E2 geschlechterabhängig reguliert. Zusammengefasst bestätigt diese Arbeit die schützende Rolle von E2 und ERbeta im weiblichen Herzen. E2 und seine Rezeptoren hemmen die Expression vieler miRNAs in weiblichen Kardiomyozyten und kardialen Fibroblasten, sowie in vivo. In männlichen Herzen und kardialen Fibroblasten scheint ERalpha der Hauptakteur zu sein, welcher insbesondere mögliche Fibrose-bezogene miRNAs reguliert. Die verschiedenen Rollen der ERs in weiblichen und männlichen Herzen sind ein bestimmender Faktor der beobachteten GU bei Myokardhypertrophie. / The present study aimed to identify sex-differently expressed miRNAs in a late stage of hypertrophy (9 weeks) and the possible role of ERs in the regulation of these differences. Our previous studies identified ERbeta as an important determinant factor of the observed sex differences in pressure overload, playing different roles in males and females. This report identified a total of 30 miRNAs with sex and/or sex*surgery interaction effect 9 weeks after TAC in WT mice. The same effects were not observed in ERbeta-/- animals partially due to the higher expression of these miRNAs in ERbeta-/- females than in their WT counterparts. This study reveals a repression of a number of miRNAs by estradiol and its receptors alpha and beta in female cardiomyocytes, confirming the in vivo results and accentuating the important protective role of oestrogen and ERbeta in the female heart. Six of the miRNAs with sex differences in WT but not in ERbeta-/- hypertrophy models were found to be possible fibrosis regulators by putatively targeting common ERK/MAPK pathway inhibitors. MiR-106a, miR-106b, miR-21, miR-24, miR-27a and miR-27b were subjected to a different regulation by estradiol in cardiac fibroblasts in a sex-dependent manner. In conclusion, this study reinforces the oestrogen and ERbeta protective roles in the female hearts. Estradiol and ERs repress many miRNAs’ expression in both female cardiomyocytes and cardiac fibroblasts, as well as in vivo. In male hearts and cardiac fibroblasts, ERalpha is apparently the major player, regulating in particular potential fibrosis –related miRNAs. The different roles of ERs in male and female hearts are a determinant factor of the observed sex differences in cardiac hypertrophy.

Östrogen

Myokardhypertrophie

miRNAs

Geschlechterunterschieden

miRNAs

Cardiac Hypertrophy

Oestrogen

Sex Differences

570 Biowissenschaften, Biologie

32 Biologie

YB 9604

ddc:570

Verapamil diminui a expressão proteica de calpaína-1 e metaloproteinase de matriz-2 na hipertrofia cardíaca induzida por hipertensão renovascular / Verapamil decreases calpain-1 and matrix metalloproteinase-2 levels in renovascular hypertension-induced cardiac hypertrophy

Mendes, Atlante Silva

30 August 2018

Introdução: A hipertrofia cardíaca induzida por sobrecarga hemodinâmica crônica (HC) é caracterizada por espessamento das paredes do ventrículo esquerdo e do tecido intersticial. As atividades aumentadas de calpaína-1 e metaloproteinase de matriz(MMP)-2 são observadas em diferentes modelos de hipertensão arterial e estão relacionadas com as mudanças fisiopatológicas na HC. Por outro lado, a atividade de MMP-2 parece ser modulada positivamente por ativação de calpaína-1 em diferentes modelos. O objetivo deste trabalho é analizar se a calpaína-1 contribui para o aumento da atividade de MMP-2 no coração e se esse mecanismo resulta nas mudanças crônicas cardíacas na hipertensão renovascular. Métodos: Ratos Wistar submetidos ao modelo de 2-rins-1 clipe (2R-1C)(180-200g) e seus respectivos controles (Sham) foram tratados com verapamil (VRP), um bloqueador de canais para cálcio tipo L (BCCL, 8mg/kg/bid) ou veículo durante 8 semanas. O BCCL reduz as concentrações intracelulares de cálcio, o que leva à diminuição da ativação de calpaína-1, e então à possível modulação da atividade e expressão proteica de MMP-2. Pressão arterial sistólica (PAS) dos ratos foi monitorada durante 10 semanas de hipertensão por pletismografia de cauda. O ventrículo esquerdo (VE) foi analisado por histologia e ecocardiografia para avaliação das dimensões ventriculares. A atividade de calpaína-1 e MMP-2 foi avaliada por zimografia em gel. A expessão proteica de calpaína-1 e MMP-2 foi avaliada por western blot e imunofluorescência. Os corações foram submetidos à avaliação funcional por Langendorff. Todos os protocolos foram aprovados pelo Comitê de Ética em Pesquisa Animal da Faculdade de Medicina de Ribeirão Preto (43/2017). Resultados: Após 10 semanas, a PAS teve um aumento sustentado nos animais 2R-1C e o tratamento com VRP não foi capaz de reduzí-la em nenhum tempo de hipertensão. O peso corporal não apresentou diferença significativa entre os grupos. O grupo hipertenso teve um aumento da massa cardíaca quando comparado ao sham e o tratamento com verapamil reduziu esse parâmetro. A análise da espessura do ventrículo esquerdo demonstra que o VRP é capaz de reverter a HC induzida por sobrecarga pressórica nos animais hipertensos. Os animais 2R-1C apresentaram um aumento singificativo na expressão proteica e atividade de calpaína-1 e o VRP foi capaz de diminuir esses níveis. Foi observado aumento da atividade das isoformas de MMP-2 nos ratos 2R-1C quando comparados aos controles e o VRP foi capaz de reduzir a atividade da isoforma de 64kDa. A contratilidade cardíaca intrínseca dos animais 2R-1C sugere uma disfunção cardíaca quando comparados aos controles sham, embora a fração de ejeção desses animais esteja preservada. O VRP não foi capaz de alterar esses parâmetros. Conclusão: O VRP pode contribuir para a redução da hipertrofia cardíaca por diminuir a expressão proteica de calpaína-1 e MMP-2 na hipertensão renovascular. Apoio financeiro: Capes, CNPq, FAPESP / Introduction: The chronic hemodynamic overload-induced cardiac hypertrophy (CH) is characterized by thickening of the left ventricle walls and hypertrophy of the cardiomyocytes and interstitial tissue. Increased activity of calpain-1 and matrix metalloproteinase(MMP)-2 was observed in different models of arterial hypertension models and contributes to the pathophysiologic changes shown in CH. On the other hand, MMP-2 activity is also positively modulated by activation of calpain-1 in different animal models of cardiovascular diseases. The objectives here are to analyze whether calpain-1 contributes to increase the activity of MMP-2 in the heart and whether this mechanism results in chronic cardiac changes in the renovascular hypertension. Methods: Two kidney-one clip (2K1C) hypertensive male Wistar rats (180-200g) and their respective controls (Sham) were orally treated with verapamil (VRP), a L-type calcium channels blocker (LCCB, 8mg/kg/bid), or vehicle during 8 weeks. The LCCB reduces the intracellular concentration of calcium, thus decreasing the activation of calpain-1, and then may modulate the activity of MMP-2. Systolic blood pressure (SBP) was monitored in the rats during 10 weeks of hypertension. Left ventricle (LV) was analyzed by histology and echocardiography to evaluate ventricle thickening. Calpain- 1 and MMP-2 activities were analyzed by zymography and their expression by immunofluorescence and western blot. Hearts were submitted to functional evaluation by Langendorff. All the protocols were approved by the Ethical Committee in Animal Research of Ribeirao Preto Medical School (43/2017). Results: After 10 weeks, the systolic blood pressure had sustained increase and treatment with VRP was not able to decrease it in any time of hypertension. The body weight did not present significant changes between the groups. Hypertensive group had significant increase in the ventricle/body weight ratio (VW/BW) when compared to sham and treatment with VRP decreased it. Analysis of ventricle thickening showed that VRP is able to revert CHinduced pressure overload. The 2K-1C rats showed a significant increase in the activity and expression of calpain-1 in the heart and VRP reverted it. It was also observed increased activity of MMP-2 forms in the hypertensive rats and VRP decreased the 64kDa MMP-2 activity. The 2K-1C group had cardiac dysfunction when compared to controls groups, and VRP did not alter it. The ejection fraction was not changed in 2K- 1C rats. Conclusion: VRP decreased expression and activity of calpain-1 and MMP-2 in the hearts of 2K-1C rats and then contributed to ameliorate hypertension-induced cardiac hypertrophy

Calpain-1

Calpaína-1

Cardiac hypertrophy

hipertensão renovascular

Hipertrofia cardíaca

MMP- 2

MMP-2

Renovascular hypertension

Verapamil

Verapamil

Verapamil diminui a expressão proteica de calpaína-1 e metaloproteinase de matriz-2 na hipertrofia cardíaca induzida por hipertensão renovascular / Verapamil decreases calpain-1 and matrix metalloproteinase-2 levels in renovascular hypertension-induced cardiac hypertrophy

Atlante Silva Mendes

30 August 2018

Introdução: A hipertrofia cardíaca induzida por sobrecarga hemodinâmica crônica (HC) é caracterizada por espessamento das paredes do ventrículo esquerdo e do tecido intersticial. As atividades aumentadas de calpaína-1 e metaloproteinase de matriz(MMP)-2 são observadas em diferentes modelos de hipertensão arterial e estão relacionadas com as mudanças fisiopatológicas na HC. Por outro lado, a atividade de MMP-2 parece ser modulada positivamente por ativação de calpaína-1 em diferentes modelos. O objetivo deste trabalho é analizar se a calpaína-1 contribui para o aumento da atividade de MMP-2 no coração e se esse mecanismo resulta nas mudanças crônicas cardíacas na hipertensão renovascular. Métodos: Ratos Wistar submetidos ao modelo de 2-rins-1 clipe (2R-1C)(180-200g) e seus respectivos controles (Sham) foram tratados com verapamil (VRP), um bloqueador de canais para cálcio tipo L (BCCL, 8mg/kg/bid) ou veículo durante 8 semanas. O BCCL reduz as concentrações intracelulares de cálcio, o que leva à diminuição da ativação de calpaína-1, e então à possível modulação da atividade e expressão proteica de MMP-2. Pressão arterial sistólica (PAS) dos ratos foi monitorada durante 10 semanas de hipertensão por pletismografia de cauda. O ventrículo esquerdo (VE) foi analisado por histologia e ecocardiografia para avaliação das dimensões ventriculares. A atividade de calpaína-1 e MMP-2 foi avaliada por zimografia em gel. A expessão proteica de calpaína-1 e MMP-2 foi avaliada por western blot e imunofluorescência. Os corações foram submetidos à avaliação funcional por Langendorff. Todos os protocolos foram aprovados pelo Comitê de Ética em Pesquisa Animal da Faculdade de Medicina de Ribeirão Preto (43/2017). Resultados: Após 10 semanas, a PAS teve um aumento sustentado nos animais 2R-1C e o tratamento com VRP não foi capaz de reduzí-la em nenhum tempo de hipertensão. O peso corporal não apresentou diferença significativa entre os grupos. O grupo hipertenso teve um aumento da massa cardíaca quando comparado ao sham e o tratamento com verapamil reduziu esse parâmetro. A análise da espessura do ventrículo esquerdo demonstra que o VRP é capaz de reverter a HC induzida por sobrecarga pressórica nos animais hipertensos. Os animais 2R-1C apresentaram um aumento singificativo na expressão proteica e atividade de calpaína-1 e o VRP foi capaz de diminuir esses níveis. Foi observado aumento da atividade das isoformas de MMP-2 nos ratos 2R-1C quando comparados aos controles e o VRP foi capaz de reduzir a atividade da isoforma de 64kDa. A contratilidade cardíaca intrínseca dos animais 2R-1C sugere uma disfunção cardíaca quando comparados aos controles sham, embora a fração de ejeção desses animais esteja preservada. O VRP não foi capaz de alterar esses parâmetros. Conclusão: O VRP pode contribuir para a redução da hipertrofia cardíaca por diminuir a expressão proteica de calpaína-1 e MMP-2 na hipertensão renovascular. Apoio financeiro: Capes, CNPq, FAPESP / Introduction: The chronic hemodynamic overload-induced cardiac hypertrophy (CH) is characterized by thickening of the left ventricle walls and hypertrophy of the cardiomyocytes and interstitial tissue. Increased activity of calpain-1 and matrix metalloproteinase(MMP)-2 was observed in different models of arterial hypertension models and contributes to the pathophysiologic changes shown in CH. On the other hand, MMP-2 activity is also positively modulated by activation of calpain-1 in different animal models of cardiovascular diseases. The objectives here are to analyze whether calpain-1 contributes to increase the activity of MMP-2 in the heart and whether this mechanism results in chronic cardiac changes in the renovascular hypertension. Methods: Two kidney-one clip (2K1C) hypertensive male Wistar rats (180-200g) and their respective controls (Sham) were orally treated with verapamil (VRP), a L-type calcium channels blocker (LCCB, 8mg/kg/bid), or vehicle during 8 weeks. The LCCB reduces the intracellular concentration of calcium, thus decreasing the activation of calpain-1, and then may modulate the activity of MMP-2. Systolic blood pressure (SBP) was monitored in the rats during 10 weeks of hypertension. Left ventricle (LV) was analyzed by histology and echocardiography to evaluate ventricle thickening. Calpain- 1 and MMP-2 activities were analyzed by zymography and their expression by immunofluorescence and western blot. Hearts were submitted to functional evaluation by Langendorff. All the protocols were approved by the Ethical Committee in Animal Research of Ribeirao Preto Medical School (43/2017). Results: After 10 weeks, the systolic blood pressure had sustained increase and treatment with VRP was not able to decrease it in any time of hypertension. The body weight did not present significant changes between the groups. Hypertensive group had significant increase in the ventricle/body weight ratio (VW/BW) when compared to sham and treatment with VRP decreased it. Analysis of ventricle thickening showed that VRP is able to revert CHinduced pressure overload. The 2K-1C rats showed a significant increase in the activity and expression of calpain-1 in the heart and VRP reverted it. It was also observed increased activity of MMP-2 forms in the hypertensive rats and VRP decreased the 64kDa MMP-2 activity. The 2K-1C group had cardiac dysfunction when compared to controls groups, and VRP did not alter it. The ejection fraction was not changed in 2K- 1C rats. Conclusion: VRP decreased expression and activity of calpain-1 and MMP-2 in the hearts of 2K-1C rats and then contributed to ameliorate hypertension-induced cardiac hypertrophy

Calpaína-1

hipertensão renovascular

Hipertrofia cardíaca

MMP-2

Verapamil

Calpain-1

Cardiac hypertrophy

MMP- 2

Renovascular hypertension

Verapamil

Mise en évidence des effets anti-hypertrophiques de carabine dans le cardiomyocyte et caractérisation de ses voies de signalisation / Study of Signalling Pathway Regulated by Carabin in the Cardiomyocyte and Highlights its Anti-Hypertrophic Role

Breckler, Magali

23 March 2012

L’hypertrophie cardiaque est un mécanisme adaptatif qui se développe en réponse à une surcharge de travail hémodynamique. Lors d’un stress chronique, elle peut mener à l’insuffisance cardiaque (IC), l’une des principales causes de mortalité dans les pays industrialisés. Les voies de signalisation hypertrophiques induites par les récepteurs α et β-adrénergiques font intervenir la petite protéine G Ras et des protéines calcium-dépendantes telles que la calcineurine (CaN) et la Ca2+/calmoduline-dépendante kinase de type II (CaMKII), ainsi que leurs facteurs de transcription respectifs NFAT et MEF2. Dans les cellules immunitaires, la protéine Carabine a été mise en évidence comme inhibant la CaN et de Ras. L’objectif de cette thèse et de caractériser son rôle dans le cardiomyocyte.In vitro, nous montrons que Carabine est exprimée dans le cardiomyocyte de rat nouveau-né et adulte et inhibe par l’intermédiaire de ses domaines fonctionnels les voies de signalisation de Ras/ERK, CaN/NFAT et CaMKII/MEF2. Sous stimulation chronique adrénergique, la surexpression de Carabine prévient le remodelage cardiaque en bloquant le développement des marqueurs de l’hypertrophie : la croissance cellulaire, la réexpression des gènes foetaux etla réorganisation des protéines contractiles. Enfin, dans un modèle d’hypertrophie cardiaque induite par surcharge de pression chez le rat, l’injection intramyocardiaque d’un adénovirus codant pour Carabine inhibe l’hypertrophie des cardiomyocytes. Ce travail ouvre ainsi de nouvelles perspectives thérapeutiques pour le traitement de l’IC. / Cardiac hypertrophy is an adaptative mechanism developed in response to hemodynamic overload. During chronic stress, it can lead to heart failure (HF), one of the most important causes of mortality in industrialized countries. Hypertrophic signaling pathway induced under α and β-adrenergic receptor involve small G protein Ras and calcium dependent proteins suchas the calcineurine (CaN) and the Ca2+/calmodulin-dependent protein kinases II (CaMKII), as well as their respective transcription factors NFAT and MEF2. In immune cells Carabin protein has been shown to inhibit CaN and Ras. The purpose of my thesis was to determine the role of Carabin in the cardiomyocyte.In vitro, we showed that Carabin is expressed in neonatal and adult rat cardiomyocyte and inhibits via its functional domains the Ras/ERK, CaN/NFAT and CaMKII/MEF2 signaling pathways. Under adrenergic chronic stimulation, Carabin overexpression blocks the development of hypertrophic markers (cell size increase, re-expression of embryonic genesand contractile protein reorganisation) preventing thus cardiac remodeling. Finally, in a rat model pressure overload cardiac hypertrophy, intra-cardiac injection of Carabin adenovirus inhibits cardiomyocyte growth. This study opens new insights into the treatment of HF.

Carabine

Récepteurs α et β-adrénergiques

CaN

Ras

CaMKII

Hypertrophie cardiaque

Carabin

Cardiac hypertrophy and failure

Calcineurine

Ras

CaMKII

Epac

Potencial terapêutico da inibição do microRNA-34c-3p: desvendando reguladores moleculares através do treinamento físico aeróbio / Therapeutic potential of the inhibition of microRNA-34c-3p: unravelling molecular regulators through aerobic exercise training

Nóbrega, Clara

16 April 2019

Doenças cardiovasculares são a principal causa de morte no Brasil. Em contraste a esse cenário, o treinamento físico aeróbio (TFA) figura como importante ferramenta de combate a esse quadro, atuando, dentre diversos mecanismos, na expressão de microRNAs (miRNA) e na hipertrofia cardíaca (HC). Nesse sentido, seria o TFA capaz de reduzir expressão do miR-34c-3p em cardiopatologias, gerando melhora aos danos causados? Na tentativa de elucidar essa lacuna, ratos Wistar machos (2 meses) passaram por oclusão da coronária gerando infarto do miocárdio (IMS; IMT) ou indução de diabetes tipo I por STZ (DS;DT: 45mg/kg). Após a verificação do dano, estes foram submetidos a TFA (10 sem), e os ventrículos esquerdos (VE) foram dissecados a posteriori. Ao analisar a expressão gênica por RT-PCR, o TFA diminuiu (39%; p<0,02) a expressão do miRNA-34c-3p no VE de IMT vs. IMS. Em consonância, houve diminuição (27%; p<0,04) do miRNA em DT vs. DS. Investigando o potencial terapêutico dessa inibição, ao proceder análise in vitro em cultura primária de cardiomiócitos tratados com inibidor do miRNA (amiR-34c-3p), houve diminuição de sua expressão em 71% (50nM; p<0,01) vs. grupo controle (C), enquanto houve aumento de 41000% (50nM; p<0,01) entre o superexpressor (mmiR) e C. Analisando os marcadores de HC patológica entre amiR e C, verificou-se redução na a-actina esquelética (6,1%;p<0,02), aumento no ANF (84,4%; p<0,05) e redução na b-MHC (66%; p<0,007), demonstrando HC fisiológica em cardiomiócitos tratados com amiR. Buscando alvos do miR-34c-3p responsáveis por essas alterações, analisou-se o eIF4E, último fator iniciador de tradução ativado por via não canônica da PI3K-AKTmTOR. Sua direta ativação pode representar importante avanço na busca por terapias que induzam a HC fisiológica. O amiR aumentou o eIF4E (64%; p<0,003), com validação por diminuição da atividade da luciferase (48%; p<0,02) através de ensaio com vetor 3\'UTR do gene e miR-34c-3p. Outro alvo predito analisado, o KLF11, tem homologia com gene da insulina e pode estar relacionado com melhora metabólica do VE. O tratamento com amiR aumentou (192%; p<0,006) a expressão gênica do KLF11, validado com redução de 55% na atividade da luciferase, e aumento da captação de glicose (13%; p<0,04). Com os dados expostos, o TFA foi eficiente em inibir a expressão do miR-34c-3p em VE de animais cardiopatas que, atuando em seus alvos agora validados, foi capaz de promover HC fisiológica e melhora metabólica em cardiomiócitos. Considerando os efeitos cardioprotetores da inibição desse miRNA, vislumbra-se o potencial terapêutico dessa inibição em paciente na perspectiva de atenuação de prejuízos causados por cardiopatias / Cardiovascular diseases are the leading cause of death in Brazil. In contrast to this scenario, aerobic exercise training (AET) is an important tool to combat this condition, acting, among several mechanisms, on the expression of microRNAs (miRNA) and cardiac hypertrophy (CH). In this sense, would AET be able to reduce expression of miR-34c-3p in cardiac pathologies, generating improvement to the damages caused by them? In an attempt to elucidate this knowledge gap, male Wistar rats (2 months) underwent coronary occlusion, causing myocardial infarction (IMS; IMT) or induction of type I diabetes by STZ (DS: DT: 45mg kg). After proof that cardiac damage was caused, they were submitted to AET (10 wk), and left ventricles (LV) were dissected post mortem. Analyzing gene expression by RT-PCR, AET decreased (39%; p <0.02) miRNA-34c-3p expression in the LV of IMT vs. IMS. In agreement, there was a decrease (27%; p <0.04) of the miRNA in DT vs. DS. Investigating the therapeutic potential of this inhibition, through in vitro analysis in primary culture of neonatal rat cardiomyocytes treated with miRNA inhibitor (amiR-34c-3p), expression of miRNA- 34c-3p was decreased in 71% (50nM; p <0.01) vs. (C), whereas there was an increase of 41000% (50nM; p <0.01) between the superexpressor (mmiR) and C. Analyzing the pathologic HC markers between amiR and C, there was a reduction in skeletal a-actin (P <0.05), an increase in ANF (84.4%, p <0.05) and reduction in b-MHC (66%; p <0.007), demonstrating physiological HC in cardiomyocytes treated with amiR. Searching for miRNA-34c-3p targets responsible for these changes, eIF4E, the last non-canonically activated translation initiator of PI3K-AKT-mTOR, was analyzed. Its direct activation may represent an important advance in the search for therapies that induce physiological CH. The amiR increased eIF4E expression (64%, p <0.003), with validation for decreased luciferase activity (48%; p <0.02) by assaying 3\'UTR vector of the gene and miR-34c-3p. Another predicted target analyzed, KLF11, has homology with insulin gene and may be related to LV metabolic improvement. The treatment with amiR increased KLF 11 gene expression (192%; p <0.006), with a 55% reduction in luciferase activity and an increase in glucose uptake (13%; p <0.04). With the data presented, AET was efficient in inhibiting the expression of miRNA-34c-3p in LV of cardiopathic animals that, acting on their now validated targets, was able to promote physiological CH and metabolic improvement in cardiomyocytes. Considering the cardioprotective effects of inhibition of this miRNA, we can speculate a therapeutic potential of the inhibition of miR-34c-3p in patients in prospect of mitigating the damage caused by cardiopathies

cardiac hypertrophy

cardiovascular diseases

Doenças cardiovasculares

exercise training

Hipertrofia cardíaca

miRNA-34c-3p

miRNA-34c-3p

Treinamento físico

About hyaluronan in the hypertrophic heart : studies on coordinated regulation of extracellular matrix signalling

Hellman, Urban

January 2010

Background. Myocardial hypertrophy is a risk factor for cardiovascular morbidity and mortality. Independent of underlying disease, the cardiac muscle strives in different ways to compensate for an increased workload. This remodelling of the heart includes changes in the extracellular matrix which will affect systolic and diastolic cardiac function. Furthermore, signal transduction, molecular diffusion and microcirculation will be affected in the hypertrophic process. One important extracellular component is the glycosaminoglycan hyaluronan. It has been shown to play a major role in other conditions that feature cellular growth and proliferation, such as wound healing and malignancies. The aim of this thesis was to investigate hyaluronan and its role in both an experimental rat model of cardiac hypertrophy as well as in cultured mouse cardiomyocytes and fibroblasts. Methods. Cardiac hypertrophy was induced in rats by aortic ligation. Hyaluronan concentration was measured and expression of genes coding for hyaluronan synthases were quantified after 1, 6 and 42 days after operation, in cardiac tissue from the left ventricular wall. Localization of hyaluronan and its receptor CD44 was studied histochemically. Hyaluronan synthesis was correlated to gene transcription using microarray gene expression analysis. Cultures of cardiomyocytes and fibroblasts were stimulated with growth factors. Hyaluronan concentration was measured and expression of genes coding for hyaluronan synthases were detected. Hyaluronan size was measured and crosstalk between cardiomyocytes and fibroblasts was investigated. Results. Increased concentration of hyaluronan in hypertrophied cardiac tissue was observed together with an up-regulation of two hyaluronan synthase genes. Hyaluronan was detected in the myocardium and in the adventitia of cardiac arteries whereas CD44 staining was mainly found in and around the adventitia. Hyaluronan synthesis correlated to the expression of genes, regulated by transcription factors known to initiate cardiac hypertrophy. Stimulation of cardiomyocytes by PDGF-BB induced synthesis of hyaluronan. Cardiomyocytes also secreted a factor into culture media that after transfer to fibroblasts initiated an increased synthesis of hyaluronan. When stimulated with hyaluronan of different sizes, a change in cardiomyocyte gene expression was observed. Different growth factors induced production of different sizes of hyaluronan in fibroblasts. The main synthase detected was hyaluronan synthase-2. Cardiomyocytes were also shown to secrete microvesicles containing both DNA and RNA. Isolated microvesicles incubated with fibroblasts were observed by confocal microscopy to be internalized into fibroblasts. Altered gene expression was observed in microvesicle stimulated fibroblasts. Conclusion. This study shows that increased hyaluronan synthesis in cardiac tissue during hypertrophic development is a part of the extracellular matrix remodelling. Cell cultures revealed the ability of cardiomyocytes to both synthesize hyaluronan and to convey signals to fibroblasts, causing them to increase hyaluronan synthesis. Cardiomyocytes are likely to express receptors for hyaluronan, which mediate intracellular signalling causing the observed altered gene expression in cardiomyocytes stimulated with hyaluronan. This demonstrates the extensive involvement of hyaluronan in cardiac hypertrophy.

hyaluronan

hyaluronan synthases

gene expression

extracellular matrix

cardiac hypertrophy

rat (wistar

male)

cardiomyocytes

growth factors

fibroblasts

microvesicles

exosomes

MEDICINE

MEDICIN

Nukleäre Funktionen des Muscle LIM Proteins in der Herzmuskelhypertrophie / Nuclear functions of muscle LIM protein in cardiac hypertrophy

Donner, Charlotte

21 June 2011

No description available.

610 Medizin, Gesundheit

Medicine

Herzmuskelhypertrophie

Muscle LIM Protein

Kardiomyozyten

cardiac hypertrophy

Muscle LIM Protein

cardiomyocytes

44.61

MED 411: Kardiologie

Effet de l'hypertrophie cardiaque physiologique et pathologique sur la régulation du pore de perméabilité transitionnelle

Marcil, Mariannick

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Mitochondrie

Mitochondria

Pore de perméabilité transitionnel

Permeability transition pore

Hypertrophie cardiaque

Cardiac hypertrophy

Exercise

Exercise

Surcharge volumique chronique

Chronic volume overload

Phosphodiesterases as Crucial Regulators of Cardiomyocyte cAMP in Health and Disease

Perera, Ruwan K.

09 September 2014

No description available.

610

Phosphodiesterases

FRET

pmEpac1

Localized cAMP

Cardiac Hypertrophy

PDE2

PDE3

PDE4

cAMP

ANP

PDE

Cardiomyocytes

Atropine

Medizin (PPN619874732)