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

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

Redução da densidade de extrassístoles e dos sintomas relacionados após administração de magnésio por via oral / Successful improvement of frequency and symptoms of premature complexes after oral Magnesium administration

Falco, Cristina Nadja Muniz Lima de

09 November 2012

Introdução: As extrassístoles ventriculares e supraventriculares (EV e ESSV) são frequentes e muitas vezes sintomáticas. O íon magnésio (Mg) desempenha um papel importante na fisiologia do potencial de ação transmembrana celular e do ritmo cardíaco. Objetivo: Avaliar se a administração do Pidolato de Magnésio (PMg) em pacientes com EV e ESSV é superior ao placebo (P) na melhora dos sintomas e densidade das extrassístoles(DES). Métodos: Estudo duplo-cego, randomizado, com 90 pacientes sintomáticos consecutivos, com mais de 240/EV ou ESSV ao Holter de 24 horas e selecionados para receber P ou PMg. Para avaliar a melhora da sintomatologia, foi feito um questionário categórico e específico de sintomas relacionado às extrassístoles. Foi considerada significante uma redução de mais de 70% na DES por hora após o tratamento. A dose do PMg foi de 3,0g/dia por 30 dias, equivalente a 260mg do elemento Mg. Nenhum paciente tinha cardiopatia estrutural ou insuficiência renal. Resultados: Dos 90 pacientes estudados, 49 eram do sexo feminino (54,4%). A faixa etária variou de 16 a 70 anos. No grupo PMg, 77,8% dos pacientes tiveram redução maior que 70%, 6,7% deles entre 50% a 70% e, somente 13,3% dos pacientes com redução menor que 50% na DES . No grupo P, 44,4% dos pacientes tiveram melhora de apenas 30% na frequência de extrassístoles (p<0,001). A melhora dos sintomas foi alcançada em 91,1% dos pacientes do grupo PMg, comparada com somente 15,6% do grupo P(p<0,001). Conclusão: A suplementação de Mg por via oral reduziu a DES, resultando em melhora dos sintomas. Estudos clínicos e moleculares são necessários para avaliar o Mg intracelular e orientar quanto às necessidades diárias deste íon, evidenciar as prováveis deficiências e esclarecer melhor como prevenir e tratar pacientes com extrassístoles sintomáticas e sem cardiopatia estrutural. / Introduction: Premature ventricular and supraventricular complexes (PVC and PsVC) are frequent and often symptomatic. The magnesium (Mg) ion plays a role in the physiology of cell membranes and cardiac rhythm. Objective: We evaluated whether the administration of Mg Pidolate (MgP) in patients with PVC and PsVC is superior to placebo (P) in improving symptoms and arrhythmia frequency. Methods: Randomized double-blind study with 90 consecutive symptomatic patients with more than 240 PVC or PsVC on 24-hour Holter monitoring who were selected to receive placebo or MgP. To evaluate symptom improvement, a categorical and a specific questionnaire for symptoms related to PVC and PsVC was made. Improvement in premature complex density (PCD) per hour was considered significant if percentage reduction was >=70% after treatment. The dose of MgP was 3.0 g/day for 30 days, equivalent to 260mg of Mg element. None of the patients had structural heart disease or renal failure. Results: Of the 90 patients, 49 were female (54,4%). Ages ranged from 16 to 70 years old. In the MgP group, 77.8% of patients had a PCD reduction >70%, 6,7% of them from 50% to 70%, and only 13.3% <50%. In the P group, 44,4% showed slight improvement, <30%, in the premature complexes frequency (p<0.001). Symptom improvement was achieved in 91.1% of patients in the MgP group, compared with only 15.6% in the P group (p<0.001). Conclusions: Oral Mg supplementation decreases PCD, resulting in symptom improvement. Clinical and molecular studies are needed to evaluate intracellular Mg and develop better targets for the daily needs of this ion, show probable deficiencies, and explain how to prevent and better treat patients with symptomatic premature ventricular, and supraventricular complexes and no apparent heart disease.

Arritmias cardíacas

Canais iônicos

Cardiac arrhythmias

Complexos prematuros

Extrassístoles

Extrasystoles

Ion channels

Magnésio

Magnesium

Premature complexes

Questionários

Questionnaires

Redução da densidade de extrassístoles e dos sintomas relacionados após administração de magnésio por via oral / Successful improvement of frequency and symptoms of premature complexes after oral Magnesium administration

Cristina Nadja Muniz Lima de Falco

09 November 2012

Introdução: As extrassístoles ventriculares e supraventriculares (EV e ESSV) são frequentes e muitas vezes sintomáticas. O íon magnésio (Mg) desempenha um papel importante na fisiologia do potencial de ação transmembrana celular e do ritmo cardíaco. Objetivo: Avaliar se a administração do Pidolato de Magnésio (PMg) em pacientes com EV e ESSV é superior ao placebo (P) na melhora dos sintomas e densidade das extrassístoles(DES). Métodos: Estudo duplo-cego, randomizado, com 90 pacientes sintomáticos consecutivos, com mais de 240/EV ou ESSV ao Holter de 24 horas e selecionados para receber P ou PMg. Para avaliar a melhora da sintomatologia, foi feito um questionário categórico e específico de sintomas relacionado às extrassístoles. Foi considerada significante uma redução de mais de 70% na DES por hora após o tratamento. A dose do PMg foi de 3,0g/dia por 30 dias, equivalente a 260mg do elemento Mg. Nenhum paciente tinha cardiopatia estrutural ou insuficiência renal. Resultados: Dos 90 pacientes estudados, 49 eram do sexo feminino (54,4%). A faixa etária variou de 16 a 70 anos. No grupo PMg, 77,8% dos pacientes tiveram redução maior que 70%, 6,7% deles entre 50% a 70% e, somente 13,3% dos pacientes com redução menor que 50% na DES . No grupo P, 44,4% dos pacientes tiveram melhora de apenas 30% na frequência de extrassístoles (p<0,001). A melhora dos sintomas foi alcançada em 91,1% dos pacientes do grupo PMg, comparada com somente 15,6% do grupo P(p<0,001). Conclusão: A suplementação de Mg por via oral reduziu a DES, resultando em melhora dos sintomas. Estudos clínicos e moleculares são necessários para avaliar o Mg intracelular e orientar quanto às necessidades diárias deste íon, evidenciar as prováveis deficiências e esclarecer melhor como prevenir e tratar pacientes com extrassístoles sintomáticas e sem cardiopatia estrutural. / Introduction: Premature ventricular and supraventricular complexes (PVC and PsVC) are frequent and often symptomatic. The magnesium (Mg) ion plays a role in the physiology of cell membranes and cardiac rhythm. Objective: We evaluated whether the administration of Mg Pidolate (MgP) in patients with PVC and PsVC is superior to placebo (P) in improving symptoms and arrhythmia frequency. Methods: Randomized double-blind study with 90 consecutive symptomatic patients with more than 240 PVC or PsVC on 24-hour Holter monitoring who were selected to receive placebo or MgP. To evaluate symptom improvement, a categorical and a specific questionnaire for symptoms related to PVC and PsVC was made. Improvement in premature complex density (PCD) per hour was considered significant if percentage reduction was >=70% after treatment. The dose of MgP was 3.0 g/day for 30 days, equivalent to 260mg of Mg element. None of the patients had structural heart disease or renal failure. Results: Of the 90 patients, 49 were female (54,4%). Ages ranged from 16 to 70 years old. In the MgP group, 77.8% of patients had a PCD reduction >70%, 6,7% of them from 50% to 70%, and only 13.3% <50%. In the P group, 44,4% showed slight improvement, <30%, in the premature complexes frequency (p<0.001). Symptom improvement was achieved in 91.1% of patients in the MgP group, compared with only 15.6% in the P group (p<0.001). Conclusions: Oral Mg supplementation decreases PCD, resulting in symptom improvement. Clinical and molecular studies are needed to evaluate intracellular Mg and develop better targets for the daily needs of this ion, show probable deficiencies, and explain how to prevent and better treat patients with symptomatic premature ventricular, and supraventricular complexes and no apparent heart disease.

Arritmias cardíacas

Canais iônicos

Complexos prematuros

Extrassístoles

Magnésio

Questionários

Cardiac arrhythmias

Extrasystoles

Ion channels

Magnesium

Premature complexes

Questionnaires