Global ETD Search

71	ATP receptors and regulation of the ATP-induced calcium ion mobilization response in cardiac myocytes Zheng, Jing-Sheng January 1992 (has links) No description available.
72	SNARE-Mediated Exocytosis of Atrial Natriuretic Peptide from Atrial Cardiac Myocytes Peters, Christian G. 13 June 2007 (has links) No description available. atrial natriuretic peptide exocytosis atrial myocytes Ca2+ imaging membrane capacitance SNARE proteins
73	The Role of Transient Outward Current in Regulating Cardiomyocytes Electrical and Mechanical Functions Dong, Min 03 August 2010 (has links) No description available. Biophysics transient outward current Brugada syndrome dynamic clamp ventricular myocytes contraction calcium transient
74	Effects of caffeine on potassium currents in isolated rat ventricular myocytes Hussain, Munir, Chorvatova, A. 14 July 2009 (has links) No / Rapid exposure of cardiac muscle to high concentrations of caffeine releases Ca 2+ from the sarcoplasmic reticulum (SR). This Ca 2+ is then extruded from the cell by the Na +/Ca 2+ exchanger. Measurement of the current carried by the exchanger ( I Na/Ca) can therefore be used to estimate of the Ca 2+ content of the SR. Previous studies have shown that caffeine, however, can also inhibit K + currents. We therefore investigated whether the inhibitory effects of caffeine on these currents could contaminate measurements of I Na/Ca. Caffeine caused partial inhibition of the inward rectifier K + current ( I K1): the outward current at ¿40 mV was 1.15±0.24 pA/pF in control and decreased to 0.34±0.15 pA/pF in the presence of 10 mmol/l caffeine ( P<0.05, n=15). This was similar to the effect of caffeine on the holding current observed at ¿40 mV in the absence of K + channel block and could therefore account for the contaminating effects of caffeine observed during measurements of I Na/Ca. Moreover, caffeine also partially inhibited the transient outward ( I to) and the delayed rectifier ( I K) K + currents. Caffeine Potassium Currents Rat Ventricular Myocytes Cardiac Muscle Calcium Ion Sodium/Potassium exchanger
75	A key role for peroxynitrite-mediated inhibition of cardiac ERG (Kv11.1) K+ channels in carbon monoxide–induced proarrhythmic early afterdepolarizations Al-Owais, M.M., Hettiarachchi, N.T., Kirton, H.M., Hardy, Matthew E., Boyle, J.P., Scragg, J.L., Steele, D.S., Peers, C. 25 July 2017 (has links) Yes / Exposure to CO causes early afterdepolarization arrhythmias. Previous studies in rats have indicated that arrhythmias arose as a result of augmentation of the late Na+ current. The purpose of the present study was to examine the basis for CO-induced arrhythmias in guinea pig myocytes in which action potentials (APs) more closely resemble those of human myocytes. Whole-cell current- and voltage-clamp recordings were made from isolated guinea pig myocytes as well as from human embryonic kidney 293 (HEK293) cells that express wild-type or a C723S mutant form of ether-a-go-go–related gene (ERG; Kv11.1). We also monitored the formation of peroxynitrite (ONOO−) in HEK293 cells fluorimetrically. CO—applied as the CO-releasing molecule, CORM-2—prolonged the APs and induced early afterdepolarizations in guinea pig myocytes. In HEK293 cells, CO inhibited wild-type, but not C723S mutant, Kv11.1 K+ currents. Inhibition was prevented by an antioxidant, mitochondrial inhibitors, or inhibition of NO formation. CO also raised ONOO− levels, an effect that was reversed by the ONOO− scavenger, FeTPPS [5,10,15,20-tetrakis-(4-sulfonatophenyl)-porphyrinato-iron(III)], which also prevented the CO inhibition of Kv11.1 currents and abolished the effects of CO on Kv11.1 tail currents and APs in guinea pig myocytes. Our data suggest that CO induces arrhythmias in guinea pig cardiac myocytes via the ONOO−-mediated inhibition of Kv11.1 K+ channels. / British Heart Foundation Nitric oxide Potassium channel Myocytes
76	Évaluation des propriétés antiarythmiques de dérives oxygénés des acides gras polyinsaturés à longue chaîne / Antiarrhythmic properties of oxygenated metabolites of polyinsaturated fatty acids Roy, Jérôme 11 September 2015 (has links) L'infarctus du myocarde constitue la première cause de mortalité cardiovasculaire. Dans ce contexte, depuis plus de 40 ans et les premières études sur les populations du Groenland, il est connu qu'une consommation de poisson riche en acide gras polyinsaturés de type omégas 3 (AGPI n-3) a des effets cardioprotecteurs. De très nombreuses études cliniques, animales et cellulaires ont ensuite confirmé ces résultats cardioprotecteurs des AGPI n-3 qui semblent passer par une prévention des arythmies cardiaques post infarctus.Cependant, du fait de leurs nombreuses doubles liaisons carbone-carbone, les principaux AGPI n-3 que sont l'acide eicosapentaénoïque et l'acide docosahexaénoïque sont très sensibles à l'oxygénation à l'air et peuvent subir une peroxydation non enzymatique spontanée sous condition de stress oxydant qui accompagne notamment l'ischémie/reperfusion lors d'un infarctus du myocarde.Dans ce travail de thèse, nous posons la question de savoir quelle forme d'AGPI a des effets cardioprotecteur : la forme réduite ou oxydée. En effet, les effets des AGPI n-3 sur la fonction cardiaque sont très controversés, notamment due au manque d'information sur les mécanismes impliqués. Particulièrement, on ne sait pas quel lipide est actif : les AGPI n-3 ou un des leurs métabolites oxygénés.Durant l'ischémie reperfusion puis dans les mois qui suivent l'infarctus du myocarde, le stress oxydant est élevé et de nombreux métabolites non enzymatiques dérivés des AGPI n-3 comme les NeuroProstanes sont alors produits à tel point qu'ils sont reconnus comme biomarqueurs du stress oxydant. Ainsi, dans ce travail de recherche, nous spéculons que les NeuroProstanes ne sont pas seulement des biomarqueurs du stress oxydant mais auraient un rôle biologiquement actif qui expliqueraient les effets cardioprotecteurs connus de leurs précurseurs ; les AGPI n-3.Le but de cette thèse est dans un premier temps d'investiguer l'influence de la peroxydation lipidique du DHA sur ses propriétés antiarythmiques in cellulo sur des cellules ventriculaires cardiaques isolées puis in vivo sur des souris ayant subit un infarctus du myocarde par ligature de l'artère coronaire gauche. De la même manière, nous avons évalué les propriétés antiarythmiques des métabolites non enzymatique des AGPI n-3 et notamment le 4(RS)-4F4t-NeuroProstane. Dans un second temps et de manière plus précoce, nous avons observé si une infusion préventive de 4(RS)-4F4t-NeuroP chez le rat, 20 minutes avant un épisode d'ischémie reperfusion peut protéger le myocarde des dommages ischémiques (morts cellulaires), des arythmies et des altérations morpho-fonctionnelles.L'ensemble de ce travail de thèse a ainsi permis de mettre en évidence que un des médiateurs lipidiques des AGPI n-3 ; le 4(RS)-4-F4t-NeuroP peut exercer des effets biologiquement actifs qui passent par une prévention des arythmies dans les mois qui suivent l'infarctus du myocarde ; effets passant par une prévention des modifications post-translationnelles du RyR2 et in fine d'une régulation de l'homéostasie calcique. De manière plus précoce durant l'ischémie reperfusion, nos résultats montrent que le 4(RS)-4-F4t-NeuroP réduit les arythmies ventriculaires, la taille de la zone infarcie et la dysfonction cardiaque, effets cardioprotecteurs qui passent par des mécanismes mitochondriaux.Le travail de cette thèse démontre pour la première fois que le DHA n'exerce pas d'effets cardioprotecteurs mais que ce serait les produits issus de son oxydation non enzymatique tel le 4(RS)-4-F4t-NeuroP pouvant ainsi expliquer l'ensemble des effets connus des AGPI n-3. Cette découverte ouvre de nouvelles perspectives sur les produits oxydés non enzymatiques des AGPI n-3 comme des potentiels médiateurs dans les maladies comme durant l'infarctus du myocarde ou le stress oxydant qui est généré joue un rôle prépondérant dans les altérations physiopathologiques qui en découlent. / Since 40 years, ω3 poly-unsaturated fatty acids (n-3 PUFA) are known to have cardioprotective properties in ischemic disease such as cardiac infarction following ischemia/reperfusion period. Many studies in isolated cells or in animals confirmed these effects and it has been suggested that n-3 PUFA have direct effects on targeted proteins such as ionic channels. However, due to the abundance of double carbone bounds, the main n-3 PUFA; eicosapentaenoic acid (C20: 5 n-3, EPA) and docosahexaenoic acid (C22: 6 n-3, DHA) are very sensitive to free radical oxidation and can undergo non-enzymatic spontaneous peroxidation under oxidative stress conditions as it occurs in ischemia/reperfusion. In the present work, we addressed the question of the form of DHA having cardioprotective properties: reduced or oxidized. Indeed, the effects of n-3 PUFA on cardiac function are controversial, notably due to the lack of information on the mechanisms involved. Particularly, it is not well understood which is the active lipid: the PUFA or one of its oxygenated metabolites. In the context of oxidative stress, during ischemia/reperfusion and in month following cardiac infarction, a lot of oxygenated metabolites of PUFA like Neuroprostane; 4(RS)-4F4t-NeuroP are produced and used as biomarkers of oxidative stress. This metabolite is associated to a lower atherosclerosis risk suggesting a beneficial role in cardiovascular diseases. In this context we speculate that Neuroprostane are not just a markers of stress conditions but have biological activities.The aim of this thesis was in first time to investigate the influence of DHA peroxidation on its potentially anti-arrhythmic properties in isolated ventricular cardiomyocytes and in vivo in post-myocardial infarcted (PMI) mice. In same way, we investigated in cellulo and in vivo anti-arrhythmic properties of oxygenated metabolites of n-3 PUFA such as 4(RS)-4F4t-NeuroP. In second time we investigated if the pericardial delivery 20 minutes before occlusion of 4F4t-NeuroP protects in prevention the myocardium from ischemic damages and arrhythmias during and following an I/R episode in rats.In this study, we challenged the paradigm that spontaneously formed oxygenated metabolites of lipids are undesirable as they are unconditionally toxic. This study reveals that the lipid mediator 4(RS)-4-F4t-NeuroP derived from non-enzymatic peroxidation of DHA, can counteract such deleterious effects through cardiac anti-arrhythmic properties in month following cardiac infarction by preventing deleterious post-translational modification of RyR2 and thus regulating calcium homeostasis. More early, during ischemia/reperfusion, our results show that pericardial delivery of 4(RS)-4-F4t-NeuroP reduced ischemia-induced ventricular arrhythmias, infarct sizes, and cardiac dysfonction ; cardioprotective effects involving mitchondria mecanisms.This thesis demonstrate for the first time that DHA per se has no anti-arrhythmic effects and 4(RS)-4-F4t-NeuroP as a mediator of the cardioprotection characteristics of DHA. This discovery opens new perspectives for products of non-enzymatic oxidized n-3 PUFA as potent mediators in oxidative stress diseases like during a cardiac infarction, where oxidative stress generated play fundamental role in pathophysiological alterations. Myocytes ventriculaires murins Extrasystoles ventriculaires Canaux ioniques Infarctus du myocarde Long chain (Omega 3) Ventricular myocytes Ventricular extrasystoles Ion channels Myocardial infarction
77	L'implication des tubules T dans la repolarisation ventriculaire chez la souris Mercier, Frédéric January 2007 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. Tubules T T-tubules Repolarisation Cardiac repolarization Canaux potassiques Potassium channel Myocytes ventriculaires Ventricular myocyte Souris Mouse
78	Sobrecarga crônica de sal na dieta: mecanismos de desenvolvimento de hipertrofia ventricular esquerda em ratos Wistar machos / High salt intake: mechanisms of left ventricular hypertrophy development in male Wistar rats Ferreira, Daniele Nunes 16 December 2009 (has links) O aumento da pressão arterial não é a única consequência da sobrecarga de sal na dieta. Independente dos efeitos hemodinâmicos, o excesso de sal pode induzir alterações estruturais no miocárdio. A avaliação dos mecanismos destas alterações foi o objetivo do presente estudo. Para tanto, ratos Wistar machos foram alimentados com dieta: normossódica (NR: 1,3% de NaCl), hipersódica 1 (HR1: 4%) e hipersódica 2 (HR2: 8%) desde o desmame até a 18a semana de idade. O grupo HR2 foi dividido em HR2, HR2+Hidralazina (HZ: 15mg/ kg/ dia) e HR2+Losartan (LOS: 20mg/ kg/ dia). As drogas foram administradas a partir da 7a semana de idade. Foram avaliados pressão arterial caudal (PAc), atividade de renina plasmática (ARP), aldosterona sérica, ecocardiograma, massa ventricular esquerda (MVE) e direita (MVD), medida do diâmetro transverso do miócito (DTM), fibrose intersticial (FI), expressão protéica do receptor de angiotensina II do tipo I (AT1) e tipo 2 (AT2), dosagem de angiotensina II (AII) e ligação do anticorpo que reconhece a conformação ativada dos receptores AT1 e AT2 no ventrículo esquerdo (VE) e direito (VD). A PAc foi maior no grupo HR1 e HR2 comparado com o grupo NR. A PAc do grupo HR2+HZ e HR2+LOS não diferiu do grupo NR. ARP e ALDO foram menores nos grupos HR1, HR2, HR2+HZ e HR2+LOS. A espessura do septo interventricular na diástole e da parede posterior do ventrículo esquerdo na diástole foram maiores nos grupos HR1, HR2, HR2+HZ e HR2+LOS comparado com o grupo NR. A MVE e MVD foram maiores nos grupos HR2, HR2+HZ e HR2+LOS comparado com o grupo NR. O DTM do VE foi maior nos grupos HR1, HR2, HR2+HZ comparado com o grupo NR e HR2+LOS. DTM do VD foi maior no grupo HR2 e HR2+HZ comparado com o grupo NR, HR1 e HR2+LOS. A FI no VE e VD foi maior nos grupos HR1, HR2 e HR2+LOS comparado com o grupo NR e HR2+HZ. A expressão da proteína do receptor AT1 no VE e VD foi maior nos animais do grupo HR2 e HR2+HZ quando comparado com o grupo NR, HR1 e HR2+LOS. A expressão da proteina do receptor AT2 não foi alterada pelo alto consumo de sal, mas foi menor no grupo HR2+LOS. A ligação do anticorpo que reconhece a conformação ativada do receptor AT1 no VE e VD foi menor nos grupos HR1, HR2, HR2+HZ e HR2+LOS comparado com o grupo NR. A ligação do anticorpo que reconhece a conformação ativada do receptor AT2 não foi alterada no VE e VD dos grupos HR1, HR2 e HR2+LOS. No entanto, a ligação do anticorpo no receptor AT2 foi menor no VE e VD no grupo HR2+LOS. O conteúdo de AII foi maior em ambos os ventrículos nos grupos HR1, HR2, HR2+HZ e HR2+LOS. O elevado consumo de sal induz hipertrofia e fibrose miocárdica independente do efeito sobre a pressão arterial. A hipertrofia do cardiomiócito e a FI induzida pelo sal ocorre por mecanismos diferentes. Algumas evidências deste estudo sugerem a internalização do receptor AT1 induzido pelo sal provavelmente devido à ligação da AII. / Increased blood pressure is not the only consequence of salt overload. Independently from the hemodynamic effect, salt excess may induce structural alterations in the myocardium. The aim of the present study was to evaluate the mechanisms of the myocardium structural alteration in response to high salt intake. Male Wistar rats were fed normal (NR: 1.3% NaCl), high 1 (HR1 4%) or high 2 (HR2 8%) salt diet since weaning until 18th week of age. HR2 group was divided in HR2, HR2+hydralazine (HZ: 15mg/ kg/ dia) and HR2+losartan (LOS: 20mg/ kg/ dia). Drugs were administered since the 7th week of age. Tail-cuff blood pressure (Tc-BP), plasma renin activity (PRA), serum aldosterone (ALDO), echocardiography, left (LV) and right (RV) ventricular mass, cardiomyocyte transverse diameter (CTD), interstitial fibrosis (IF), protein expression of AT1 and AT2 receptors, angiotensin II content (AII), binding of the conformational specific anti-AT1 and anti-AT2 antibody in both ventricles were determined in the LV and RV. Tc-BP was higher in the HR1 and HR2 groups when compared to NR. Tc-BP on HR2+HZ and HR2+LOS did not differ from NR. PRA and ALDO were lower in the HR1, HR2, HR2+HZ and HR2+LOS when compared to NR. Interventricular septal and left ventricular posterior wall thicknesses were higher on HR1, HR2, HR2+HZ and HR2+LOS compared to NR. LV and RV mass was higher in the HR2, HR2+HZ and HR2+LOS when compared to NR. CTD in the LV was higher on HR1, HR2 and HR2+HZ groups than on NR and HR2+LOS groups. CTD in the RV was higher in the HR2 and HR2+HZ when compared to NR, HR1 and HR2+LOS groups. IF was higher in the LV and RV in HR1, HR2 and HR2+LOS groups than in NR and HR2+HZ groups. AT1 protein expression was higher in the HR2 and HR2+HZ compared to NR, HR1 and HR2+LOS groups. High salt intake did not increase AT2 protein expression in the HR1, HR2 and HR2+HZ groups. However, losartan induced a decrease in AT2 protein expression. In response to high salt intake, the binding of an AT1 conformational specific antibody was lower in both ventricles. Binding of the conformational specific anti-AT2 antibody in both ventricles did not change in response to HR1 and HR2. However, binding of the conformational specific anti-AT2 antibody was lower in both ventricles in the HR2+LOS group. AII was higher in both ventricles in the HR1, HR2, HR2+HZ and HR2+LOS groups. Myocardial structural alterations in response to high salt intake are independent of the effect on blood pressure. Salt induced cardiomyocyte hypertrophy and interstitial fibrosis are due to different mechanisms. Some evidences from the present study are in favor of salt induced AT1 receptor internalization probably due to AII binding. Cardiac myocytes Consumo de sal Fibrose Fibrosis Miócitos cardíacos Ratos Wistar Rats Wistar Renin-angiotensin system Salt intake Sistema renina-angiotensina
79	Ferro intracelular: fator modificável de susceptibilidade cardiovascular? / Intracellular iron: a modifiable risk factor for cardiovascular susceptibility? Socas, Leonardo Jensen 21 August 2015 (has links) Mutações no gene Hfe causam a forma mais comum da hemocromatose hereditária, doença caracterizada por acúmulo progressivo de ferro nos tecidos parenquimatosos. Um estudo prévio conduzido em nosso laboratório (Am J Cardiol 88(4):388-91, 2001) encontrou associação entre mutação do gene Hfe e cardiomiopatia isquêmica, sugerindo que o acúmulo de ferro no tecido cardíaco pode ser um fator que potencializa as agressões ao sistema cardiovascular. O objetivo do presente trabalho foi testar a hipótese de que o ferro aumenta a susceptibilidade ao risco cardiovascular. A análise de dados de 318 pacientes seguidos durante 10 anos indicou que variantes genéticas do Hfe estão associadas com maior mortalidade em pacientes com insuficiência cardíaca de diferentes etiologias. Em seguida, verificou-se o acúmulo de ferro no coração, aorta e fígado ao longo de 1, 3, 6 e 12 meses em camundongos FVB. Para mimetizar os efeitos deletérios do ferro no ser humano, validamos proteínas envolvidas no metabolismo do ferro em camundongos e tratamos os animais com 10 mg diárias de ferro dextrano durante 4 semanas. Os resultados sem a sobrecarga de ferro já apontaram acúmulo de ferro significativo no coração e no fígado ao longo de 12 meses de vida, consistente com a ideia de aumento progressivo de risco cardiovascular associado ao envelhecimento. A sobrecarga de ferro foi associada com maior mortalidade e deterioração da função cardíaca. Os camundongos tratados com ferro apresentaram diminuição da fração de ejeção, redução da espessura do septo, maior remodelamento cardíaco e aumento do volume nuclear dos cardiomiócitos. Para entender as modulações gênicas causadas pelo ferro no coração, foi medida a expressão dos transcritos primários de mRNA relativo para os genes Hfe e para a hepcidina, encontrando-se ambos os genes significativamente menos expressos nos animais tratados com ferro em comparação ao grupo que só recebeu salina. Por fim, com o intuito de estudar em condições mais controladas o comportamento cardíaco frente à sobrecarga de ferro, foram comparados dois protocolos de extração primária de cardiomiócitos ventriculares de ratos neonatos para testes farmacológicos com ferro in vitro. O enriquecimento de cardiomiócitos in vitro se estabeleceu por dois métodos: separação por gradiente de percoll (Per) e por uma pré-seleção nomeada pre plating (PP). As células cardíacas foram mantidas por 8 dias em cultura e avaliações do metabolismo, produção de espécies reativas de oxigênio e contratilidade foram medidas. Ambos os métodos foram eficientes para a obtenção de células cardíacas, entretanto, as células extraídas por protocolo PP apresentaram metabolismo aumentado, com maior consumo de glicose e produção de lactato. Por diferentes parâmetros testados o protocolo PP apresentou maior estresse oxidativo, porém sem modular a quantidade de glutationas reduzidas e oxidadas. Notadamente, o protocolo PP apresentou maior atividade contrátil com aumento dos batimentos e maior influxo intracelular de cálcio. Células cardíacas extraídas pelo método PP foram tratadas com citrato de amônia férrico com doses de 50 ?g/mL e 100 ?g/mL e, após 24 horas, foi possível observar aumento significativo de apoptose. Desta forma, os modelos celulares em questão apresentam-se como importantes ferramentas para a identificação de mecanismos moleculares e celulares associados aos efeitos deletérios causados pelo ferro. Em conjunto, os resultados do presente trabalho apoiam a hipótese de que o acúmulo de ferro no tecido cardíaco aumenta a susceptibilidade cardiovascular. Trabalhos futuros permitirão melhor compreensão dos mecanismos envolvidos no acúmulo de ferro no coração ao longo do envelhecimento em pacientes com insuficiência cardíaca / Mutations in Hfe gene lead to the most common form of hereditary hemochromatosis, an autosomal recessive disease associated with iron accumulation in parenchymal tissues. In a previous study conducted in our laboratory (Am J Cardiol 88(4):388-91, 2001), genetic variation in the Hfe gene was associated with ischemic cardiomyopathy, suggesting that higher cardiac concentrations of iron aggravates injuries on the cardiovascular system. The aim of the present study was to test the hypothesis that iron increases susceptibility to cardiovascular risk. Analysis of data from 318 patients with 10-year follow-up showed that genetic variation in the Hfe gene was associated with higher mortality among patients with heart failure due to cardiomyopathy of different etiologies. Next, we demonstrated iron accumulation in heart, aorta, and liver in mice (FVB background) aged 1, 3, 6, and 12 months. To mimic the deleterious effect of iron observed in humans, we validated proteins playing a major role in iron metabolism and treated mice with 10 mg of iron-dextran daily for 4 weeks. Results showed that even without iron overload there is significant iron accumulation in the heart and liver with time, at 12 months of age, consistent with the idea that there is a progressive age-related increase in cardiovascular risk. Iron overload was associated with higher mortality in mice and impairment of cardiac function; in response to iron treatment ejection fraction and septum thickness were reduced, while cardiac remodeling and myocyte nuclear volume were increased. To understand the underlying mechanisms associated with iron-mediated modulation of genes in the heart, we assessed Hfe and hepcidin mRNA expression and found that these genes were significantly less expressed in iron-treated animals compared with the saline solution group. Lastly, to study cardiac behavior in the face of iron overload under well-controlled conditions we compared two protocols for primary extraction of neonatal rat cardiomyocytes for in vitro pharmacological tests: Percoll (Per) and pre plating (PP) extraction methods. Cardiac cells were used after 8 days and we measured metabolism, ROS production, and contractility. Both methods were effective in obtaining a high yield of cardiomyocytes. Nevertheless, cells extracted using PP protocol presented higher metabolic rate, as suggested by increased lactate production and glycolysis rate. In the PP protocol there was an increased oxidative stress, notwithstanding without modulating the amount of oxidized and reduced glutathione peroxidase. Notably, we found an increased contractile activity for pre-platting-prepared cells, with increased beating rate and higher calcium influx. Cardiac cells extracted by PP exposed to ferric ammonium citrate with doses of 50?g/mL and 100?g/mL, after 24 hours, displayed significant increased apoptosis. The cell models examined can be considered important tools for the identification of cell and molecular mechanisms associated with the harmful effects caused by iron. Taken together, the results of the present study support the hypothesis that cardiac tissue iron accumulation increases cardiovascular susceptibility. Further studies will help to unravel the mechanisms involved in cardiac iron accumulation throughout the aging process in patients with heart failure Camundongos Cell culture techniques Ferro Heart failure Insuficiência cardíaca Iron Mice Miócitos cardíacos Myocytes cardiac Rat Ratos Técnicas de cultivo de células
80	DNA Fragmentation and Histone Hyperacetylation in the Hypoxic-Acidotic Cardiomyocyte Thompson, John William 24 November 2008 (has links) Bnip3 is a BH3-only member of the Bcl-2 family of apoptotic proteins. Our laboratory has previously shown that Bnip3 induces a unique pathway of cardiac myocyte cell death, characterized by mitochondrial dysfunction, cytochrome c release and DNA fragmentation. Bnip3 is induced by hypoxia and the death pathway is activated by concurrent acidosis. We have shown that hypoxia-acidosis creates an environment that is permissive to calpain but not caspase activation and is characterized by enhanced DNase(s) activity as evidenced by genomic DNA fragmentation. This dissertation describes the nuclear consequences of Bnip3 activation by hypoxia-acidosis. Chapter 3 presents my evidence that hypoxia with progressive acidosis in cardiac myocytes results in a biphasic activation of DNases. In phase 1, [pH]o 6.9-6.7, apoptosis-inducing factor (AIF) is released from the mitochondria and translocates to the nucleus. AIF release coincided with the loss of mitochondrial membrane potential and with the release of cytochrome c from the mitochondria. In Phase II, [pH]o 6.3-6.0, DNase II translocates from the cytoplasm to the nuclear compartment. Nuclear localization of DNase II was associated with the collapse of endosomal pH gradients, indicated by diffuse Lysotracker Red staining and with single strand DNA nicks. Both phases of DNase release were independent of Bnip3, the mPTP and calpains. Neither phase involved activation of caspase-dependent DNases. Chapter 4 describes a unique role for Bnip3 in the modulation of histone acetylation. I found that hypoxia with acidosis in cardiac myocytes but not hypoxia alone stimulated a global increase in the acetylation of histones H3 and H4. Acetylation was initiated at [pH]o ~ 6.8 and increased as the pH declined. Histone hyperacetylation was associated with an increase in histone acetyltransferase (HAT) activity but no change in deacetylase (HDAC) activity. Knockdown of Bnip3 protein expression with siRNA dramatically reduced both histone H3 and H4 acetylation levels and HAT activity indicating an essential role for Bnip3 in this process. Components of the hypoxia-acidosis death pathway including the mPTP and calpains are not required for Bnip3-mediated histone hyperacetylation. These results reveal a novel role for Bnip3 in regulating HAT activity and histone acetylation which may lead to altered cardiac gene expression.

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