Développement d'une stratégie thérapeutique anti-apoptotique contre les lésions d'ischémie-reperfusion myocardique / Development of therapeutical anti-apoptotic strategy against myocardial ischemia-reperfusion

Franck-Miclo, Alicia

28 September 2012

L'infarctus du myocarde (IDM) est consécutif à une occlusion coronaire provoquant une ischémie prolongée. La taille de l'infarctus est le déterminant majeur de la récupération du myocarde et de la survie du patient. La reperfusion coronaire la plus précoce (par thrombolyse ou angioplastie) est reconnue comme étant le seul traitement recommandé. Cependant, malgré les effets bénéfiques, la reperfusion s'accompagne d'effets délétères appelés « lésions de reperfusion ». Récemment, l'efficacité du postconditionnement ischémique (PostC) a été démontrée en clinique. Il permet, lorsqu'il est utilisé au cours de l'angioplastie primaire ou de sauvetage, de réduire significativement la taille de l'infarctus. L'application du protocole de PostC reste cependant limitée aux patients admis dans les centres d'angioplastie, ce qui exclut tous les patients thrombolysés. Afin d'améliorer la cardioprotection, il est nécessaire de déterminer la fenêtre thérapeutique temporelle optimale d'administration du PostC. De plus, il est nécessaire de développer des stratégies thérapeutiques nouvelles, adjuvants de la reperfusion, qui pourront être administrées dès que le diagnostic d'IDM est posé. L'objectif de notre travail a donc été d'étudier l'influence du délai d'application du PostC sur l'efficacité de cardioprotection dans un modèle murin d'ischémie-reperfusion et de rechercher des substances pharmacologiques cardioprotectrices. Nos travaux révèlent que l'efficacité du PostC est maintenue s'il est appliqué les 30 premières minutes après le début de la reperfusion. D'autre part, nous avons évalué le potentiel thérapeutique de peptides inhibiteurs ciblant l'apoptose responsable de la mort cellulaire au cours de l'ischémie-reperfusion. L'utilisation de peptides Tat-BH4 et Pip2b-BH4 pour le traitement des lésions d'ischémie-reperfusion myocardique a fait l'objet d'une étude preuve-de-concept in vivo. Les constructions peptidiques inhibant l'interaction FAS-DAXX, injectées en intraveineuse au moment de la reperfusion, induisent une diminution de 50% de la taille d'infarctus et de l'apoptose. Ils ont fait l'objet d'un dépôt de brevet car ils constituent des outils pharmacologiques à haut potentiel thérapeutique. / Myocardial infarction (MI) results from a coronary occlusion leading to severe ischemia. Infarct size is a major determinant of myocardial salvage and mortality. Prompt revascularization (either by thrombolysis or primary angioplasty) is recommended for AMI patients but leads to deleterious effects called "reperfusion injury". Recently, ischemic postconditioning (PostC) efficiency has been reported in patients. However, its application during primary angioplasty is limited to patients admitted in angioplasty centers thereby excluding thrombolysed patients. In order to improve cardioprotection, it is necessary to define the time window for optimal cardioprotection and to develop new pharmacological strategies for AMI patients. Our work, using an in vivo mouse model of ischemia-reperfusion, shows that PostC efficiency is maintained if applied the first 30 minutes after the onset of reperfusion. Furthermore, we evaluated the therapeutic potential of peptide inhibitors targeting apoptosis, which is responsible for cell death during ischemia-reperfusion. As a proof-of-concept study, the cardioprotective effects of Tat-BH4 and Pip2b-BH4 peptidic constructs have been revealed in vitro and in vivo. The peptidic constructs targeting FAS-DAXX interaction, injected intravenously as a single bolus at the time of reperfusion, reduced by 50% both infarct size and apoptosis. These pharmacological tools have been patented due to their high therapeutic potential.

Cardioprotection

Daxx

Apoptose

Ischémie-reperfusion

Postconditionnement

Coeur

Cardioprotection

Daxx

Apoptosis

Ischémia

Postconditioning

Heart

616

Deciphering the Interlink between STAT3 and MAPKs in Ischemia/Reperfusion and Ischemic Conditioning / Déchiffrer les Liens entre STAT3 et les MAPKs au course du Ischémie/Reperfusion et Postconditionnement Ischémique

Harhous, Zeina

20 September 2019

Les maladies cardiovasculaires sont une des principales causes de morbidité et de mortalité au monde. La plus courante est l’infarctus du myocarde définit pathologiquement par la mortalité cellulaire dû à une ischémie prolongée d’une partie du ventricule gauche. L'ischémie est caractérisée par un apport sanguin insuffisant causé par une obstruction d’une artère coronaire. La restauration, en clinique, du flux sanguin, appelée reperfusion, est considérée comme la méthode la plus efficace contre les dommages ischémiques. Paradoxalement, cette restauration du flux sanguin est associée à une exacerbation de la lésion tissulaire, entraînant alors des lésions d'ischémie-reperfusion (I/R). Dans le but de limiter ces lésions, le conditionnement ischémique myocardique est une avancée majeure dans le domaine de la cardioprotection. Ce protocole confère ses effets cardioprotecteurs via le recrutement de divers mécanismes endogènes suivant l’activation de deux voies intracellulaires : la voie RISK (Reperfusion Injury Salvage Kinase) et/ou la voie SAFE (Survivor Activator Factor Enhancer). Ces voies impliquent l'activation de différentes cascades de signalisation et de protéines kinases. En particulier, concernant la voie SAFE, le transducteur de signal et l'activateur de transcription-3 STAT3, a été identifié comme un acteur clé dans le postconditionnement ischémique (PostCI). Il est suggéré que les effets cardioprotecteurs attribués à STAT3 soient liés à ses effets en tant que facteur de transcription et en tant que régulateur de l’activité mitochondriale, mais tout n’est pas encore connu. En revanche, il est admis que STAT3 est activé par la phosphorylation ciblant les résidus tyrosine 705 et sérine 727. Dans nos travaux actuels, nous avions initialement pour objectif d’étudier les rôles cardioprotecteurs mitochondriaux de STAT3 après une I/R et un PostCI. Cependant, nous n'avons pas été en mesure de détecter STAT3 dans les mitochondries de cardiomyocytes adultes de souris, dans des conditions basales et de stress, en utilisant différentes approches. Fait intéressant, nous avons montré une localisation exclusive de STAT3 dans les myocytes cardiaques adultes, le long des tubules T, et nous avons mis en évidence les inconvénients des techniques précédemment utilisées.Outre les rôles putatifs de STAT3 dans les mitochondries, nous avons ciblé ses effets dans la signalisation et la génomique au cours de l'I/R et du PostCI. Nous avons tout d’abord cherché à déterminer, pendant l’I/R et le PostCI, la cinétique temporelle d’activation de STAT3 et des autres kinases de la voie RISK, notamment Akt et les MAPK ERK1 / 2, JNK et p38. En outre, nous avions pour objectif d’étudier les liens entre les voies SAFE et RISK en déchiffrant les liens entre STAT3 et les kinases RISK au cours du PostCI. Nous avons montré qu’après une ischémie et un temps court de reperfusion, STAT3 et ERK1/2 sont activés, et que l’utilisation d’un PostCI active d’autant plus STAT3 en induisant exclusivement la phosphorylation de sa tyrosine. Nous avons également montré que l’interconnexion entre les voies SAFE et RISK, dans le protocole PostCI utilisé, se fait par STAT3 et ERK1/2. À partir de ces résultats, nous nous sommes dirigés vers la génomique grâce à laquelle nous avons étudié l'activité de STAT3 au cours de l'IPoC. À cet égard, nous avons montré que STAT3 est impliqué dans la régulation de la réponse inflammatoire au cours de la PostCI. Dans l’ensemble, cette étude présente une approche globale des fonctions mitochondriales, de signalisation et génomiques de STAT3 dans le contexte de la protection cardiaque / Cardiovascular diseases are leading causes of morbidity and mortality worldwide. Among the mostly prevailing cardiovascular diseases is myocardial infarction, which is pathologically defined as myocardial death due to a prolonged ischemia. Ischemia is an insufficient supply of blood caused by a blockade in the coronary arteries. The early restoration of blood flow is considered the most effective method against the ischemic lesions. Paradoxically, this blood flow restoration is associated with an exacerbation of the tissue injury, leading to the ischemia-reperfusion (I/R) injury. To avoid this injury, the myocardial ischemic conditioning protocol has rejuvenated the field of cardioprotection. This protocol confers its cardioprotective effects via recruiting various endogenous mechanisms following the activation of two intracellular pathways: the reperfusion injury salvage kinase (RISK) or survivor activator factor enhancer (SAFE) pathways. These pathways involve the activation of different signaling cascades and protein kinases. Zooming in through the SAFE pathway, the signal transducer and activator of transcription-3, STAT3, has been identified as a prominent key player in ischemic postconditioning (IPoC). The cardioprotective effects attributed to STAT3 are suggested to be linked to its roles as a transcription factor and as a regulator of the mitochondrial activity, but these are not well studied and elaborated. STAT3 is activated by phosphorylation, which targets the tyrosine 705 and serine 727 residues. In our current work, we initially aimed to investigate the mitochondrial cardioprotective roles of STAT3 following I/R and IPoC. However, we were not able to detect STAT3 in the mitochondria of adult mouse cardiomyocytes under variousbasal and stress conditions using different approaches. Interestingly, we showed an exclusive STAT3 pattern in adult cardiac myocytes, along the T-tubules, and highlighted drawbacks of previously used techniques. Aside from the mitochondrial roles of STAT3, we targeted its signaling and genomic roles during I/R and IPoC. We first aimed to determine, during I/R and IPoC, the temporal kinetics of activation of STAT3 and the other kinases of the RISK pathway including Akt and the MAPKs ERK1/2, JNK and p38. In addition, we aimed to decipher the interlink between the SAFE and RISK pathways through deciphering the interlink between STAT3 and the RISK kinases following IPoC. We showed that a short reperfusion time activates STAT3 and ERK1/2 following ischemia, and that the application of IPoC further activates STAT3 through inducing its tyrosine phosphorylation. We also showed that the interlink between SAFE and RISK pathways, in the IPoC protocol we used, is through STAT3 and ERK1/2. From this signaling level, we moved toward the genomic level whereby we investigated the genomic activity of STAT3 during IPoC. In this regard, we have shown that STAT3 is involved in the regulation of the inflammatory response during IPoC. Overall, this study presents a global approach of STAT3’s mitochondrial, signaling and genomic functions in the context of cardiac protection

STAT3

Infarctus myocarde

Postconditionnement ischémique

Ischémie-reperfusion

STAT3

Myocardial Infarction

Ischemia/Reperfusion

Ischemic postconditioning

570

Nitric Oxide and Postconditioning: Cardioprotective Methods for Acute Care of Ischemia Reperfusion Injury

Pong, Terrence Kwok Cay

05 October 2013

Timely coronary artery reperfusion is essential to prevent myocyte death following myocardial infarction. The act of restoring blood flow however, paradoxically reduces the beneficial effects of reperfusion. This phenomenon, termed myocardial reperfusion injury, refers to the injury of cardiac myocytes that were viable immediately before reperfusion. Recent studies have shown that the timing and hemodynamic sequence of events which govern reperfusion can help to minimize the severity of reperfusion injury. The term postconditioning describes a modified form of reperfusion that involves a series of flow interruptions which confer significant cardioprotection to the heart. This thesis investigates ischemic postconditioning and endothelial nitric oxide synthase (eNOS) phosphorylation as cardioprotective therapies against reperfusion injury. In the first half of this thesis, we test the hypothesis that phosphorylation of eNOS serves as a cardioprotection nodal point for ischemic postconditioning. We show that phosphorylation of eNOS increases enzyme activity and that its product, nitric oxide, plays a critical role in cardioprotection. A number of cardiac dysfunctions arise after reperfusion and we address the effects of postconditioning on infarct size and myocardial blood flow. The second half of this thesis introduces the use of magnetic relaxometry sensors to detect cardiac biomarkers. The ability to non-invasively measure infarct size in small animals would be helpful in studying models of myocardial ischemia-reperfusion injury. We investigate the use of implantable biosensors in vivo and show that the cumulative detection of cardiac biomarkers correlates with infarct severity. / Engineering and Applied Sciences

eNOS

biomedical engineering

cellular biology

biosensors

echocardiography

myocardial infarction

nitric oxide

postconditioning

Muscle squelettique et ischémie-reperfusion expérimentale des membres : mécanismes impliqués dans la protection ou les effets délétères de la cyclosporine et facteurs limitant les conditionnements pharmacologique et ischémique / Skeletal muscle and experimental ischemia-reperfusion members : mechanisms involved in the protective effects of cyclosporine and the limiting factors of pharmacologic and ischemic postconditioning

Pottecher, Julien

17 September 2012

Le muscle strié squelettique subit de graves lésions d’ischémie-reperfusion (IR) au cours de la progression de l’artériopathie oblitérante des membres inférieurs et lors d’interventions chirurgicales qui nécessitent l’interruption transitoire du flux sanguin dans les artères des membres. Dans ce contexte, nos objectifs étaient de mettre à profit deux modèles expérimentaux d’IR des membres inférieurs par clampage aortique et garrotage unilatéral pour : ° tester l’efficacité d’une alternative médicamenteuse au postconditionnement ischémique par l’utilisation de la cyclosporine A (CsA). En se liant à la cyclophiline D, la CsA empêche l’ouverture du pore de transition mitochondrial (mPTP) à un niveau très distal de la cascade d’évènements qui conduit à la nécrose après IR. ° déterminer de quelle façon deux comorbidités fréquemment retrouvées chez des patients souffrant d’atteinte artérielle (le diabète et l’âge) influencent l’effet de la cyclosporine. Avec les protocoles de conditionnement et aux doses que nous avons utilisées, la cyclosporine a des effets différents sur les conséquences musculaires de l’ischémie-reperfusion des membres inférieurs, dépendant de la pathologie sous-jacente des animaux étudiés. Il semble intéressant d’étudier l’effet dose-réponse de la cyclosporine A pour déterminer l’intervalle thérapeutique optimal, celui-ci pouvant être différent chez l’animal sain et pathologique. D’autre part, étant donné l’importance considérable du stress oxydant chez les animaux diabétiques et sénescents, la co-administration de cyclosporine et d’un antioxydant au moment de la reperfusion pourrait rétablir une protection. / Peripheral arterial disease and many surgical procedures (requiring vascular clamping or tourniquet application) induce severe skeletal muscle ischemia-reperfusion (IR) injuries. As a result, using experimental hind limb ischemia-reperfusion models, our goals were: ° To test a pharmacologic substitute to ischemic postconditioning by using cyclosporine A, that acts on a very downstream step of IR injury cascade by binding to cyclophilin D and inhibiting mitochondrial transition pore opening. We wondered if cyclosporine could alleviate mitochondrial dysfunction and reduce ROS production in skeletal muscles submitted to IR. ° To determine how diabetes and senescence would influence cyclosporine A protective effects. In conclusion, the protective effects of pharmacologic postconditioning with cyclosporine A seem to critically depend on the model under study. A variable and narrow dose-effect relationship is likely and makes it necessary to perform a dose finding study in every pathologic model. Considering the narrow relationships between mitochondrial protection and oxidative stress, combing cyclosporine A postconditioning with antioxidant therapy may restore a more robust protective effect but this hypothesis has to be validated.

Ischémie-reperfusion

Muscle strié squelettique

Postconditionnement

Cyclosporine

Ischemia-reperfusion

Skeletal muscle

Postconditioning

Cyclosporine

616.13

Možnosti orgánové protekce po globální ischemii při srdeční zástavě. / Possibilities of organ protection after global ischemia during cardiac arrest.

Mudrochová, Hana

January 2019

Successful cardiopulmonary resuscitation is the first step to rescue life during cardiac arrest. High mortality even after successful restoration of spontaneous circulation is substantially caused by patophysiological process associated with ischemia-reperfusion injury and it is widely called post-cardiac arrest syndrome (PCAS). There are many patophysiological mechanisms involved in the development and progress of this syndrom; the key role seems to play oxidative stress, triggering the activation cascade of systemic inflammatory reaction. In our study we have tested different possibilities of influencing the post-cardiac arrest syndrom. In the first experimental study we have compared the effect of mild therapeutic hypothermia with controlled normothermia on PCAS in a porcine model of cardiac arrest. In the second study we have compared in the same model the protective effects of mild therapeutic hypothermia, administration of nitric oxide and ischemic postconditioning. Results of the first experiment have revealed that mild therapeutic hypotermia is superior in the resuscitability, maintenance of blood pressure, oxidative stress suppression and organ damage protection than controlled normothermia. In the second experiment we have shown that neither nitric oxide administration, nor ischemic...

Elucidating the underlying mechanisms of benfotiamine-induced cardioprotection

Garson, Kirsty-Lee

04 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Context: Cardiovascular diseases are the leading cause of death globally. Myocardial infarction is responsible for the highest number of deaths due to cardiovascular disease. Objective: We have previously shown that acute benfotiamine administration at the onset of reperfusion is associated with decreased infarct size and preserved contractile function in response to ischemia-reperfusion. We aimed to evaluate the involvement of the phosphatidylinositol 3-kinase/Akt (PI3K/Akt) and Janus kinase/signal transducer and activator of transcription (JAK/STAT) pro-survival signaling pathways in mediating these cardioprotective effects. Materials and Methods: Part One - Hearts were rapidly excised from Wistar rats and mounted on a Langendorff perfusion apparatus. After stabilization, hearts were subjected to 30 minutes of regional ischemia and 120 minutes of reperfusion. The control group received no treatment. Experimental groups were treated with 100 μM benfotiamine ± 0.1 μM Tyrphostin AG490 or Wortmannin (inhibitors of JAK2 and PI3K, respectively), dissolved in dimethyl sulfoxide. The vehicle control group received an equivalent dose of dimethyl sulfoxide. All treatments were administered for 20 minutes at the onset of reperfusion. Functional parameters were measured throughout, to test the effects of benfotiamine ± pro-survival pathway inhibitors on functional recovery. In addition, hearts were stained with Evans blue and triphenyltetrazolium chloride to assess the effects of benfotiamine ± pro-survival pathway inhibitors on infarct size. Part Two - Hearts that were perfused ± 30 minutes of global ischemia and ± 20 minutes of benfotiamine administration, were used to assess PI3K/Akt and JAK/STAT signaling in response to ischemia-reperfusion and benfotiamine treatment. As with previous experiments, benfotiamine was administered at a concentration of 100 μM, at the onset of reperfusion. Tissues were assessed by Western blot analysis. Results: 20 minutes of acute benfotiamine administration at the onset of reperfusion led to a decrease in infarct size (35.6 ± 2.4% vs. 55.7 ± 5.0% [p<0.05]). Inhibition of PI3K/Akt signaling by addition of Wortmannin abrogated this infarct-limiting effect (51.5 ± 1.3% vs. 35.6 ± 2.4% [p<0.05]). However, inhibition of JAK/STAT signaling had no effect. There were no significant differences in left ventricular developed pressure, coronary flow rate or heart rate during the experiments. In addition, 20 minutes of acute benfotiamine administration at the onset of reperfusion lead to an increase in phospho-FOXO/FOXO in the cytosolic fraction, but no significant change in phospho-STAT3/STAT3 in the nucleus. Conclusions: Our results suggest that acute benfotiamine administration at the onset of reperfusion may act to reduce infarct size via activation of PI3K/Akt pro-survival signaling. / AFRIKAANSE OPSOMMING: Konteks: Kardiovaskulêre siekte is die hoofoorsaak van sterftes wêreldwyd. Miokardiale infarksie is verantwoordelik vir die grootste aantal sterftes weens kardiovaskulêre siekte. Doel: Ons het voorheen getoon dat akute benfotiamientoediening met die aanvang van reperfusie geassosieer is met „n verkleining in die infarkgrootte, en dit het verder ook die kontraktiele funksie in reaksie op ischemie-reperfusie behou. Ons doel was om die betrokkenheid van die fosfatidielinositol 3-kinase/Akt (PI3K/Akt) en Janus kinase/seintransduseerde en aktiveerder van transkripsie (JAK/STAT) pro-oorlewings seinweg in die mediasie van hierdie kardiobeskermende effekte te evalueer. Materiale en Metodes: Deel een - Harte is vinnig vanuit Wistarrotte verwyder en op die Langendorff-perfusieapparaat gemonteer. Na stabilisering is die harte blootsgestel aan 30 minute regionale ischemie en 120 minute reperfusie. Die kontrole groep het geen behandeling ontvang nie. Eksperimentele groepe is met 100 μM benfotiamien ± 0.1 μM Tirfostien AG490 of Wortmannin (inhibeerders van JAK2 en PI3K, onderskeidelik) behandel, opgelos in dimetielsulfoksied. Die draer-kontrole groep het „n ekwivalente dosis van dimetielsulfoksied ontvang. Alle behandelings is toegedien vir 20 minute aan die begin van die reperfusie. Funksionele parameters is deurgaans gemeet om te toets vir die effekte van benfotiamien ± pro-oorlewingsweg inhibeerders op funksionele herstel. Verder is die harte met Evans-blou en trifenieltetrazoliumchloried gekleur om die effek van benfotiamien ± pro-oorlewingsweg inhibeerders op die infarkgrootte te bepaal. Deel twee - Harte is vir ± 30 minute perfuseer met globale ischemie en ± 20 minute met benfotiamientoediening. Dit was gebruik om PI3K/Akt en JAK/STAT seine as gevolg van ischemie-reperfusie en benfotiamienbehandeling te ondersoek. Soos met die vorige eksperimente, is benfotiamien toegedien by ‟n konsentrasie van 100 μM met die aanvang van reperfusie. Weefsel is ondersoek deur middel van Western blot analise. Resultate: 20 minute van akute benfotiamientoediening, met die aanvang van reperfusie, het tot „n verkleining in die infarkgrootte (35.6 ± 2.4% vs. 55.7 ± 5.0% [p<0.05]) gelei. Inhibering van die PI3K/Akt seinweg deur toediening van Wortmannin het die infark-beperkende effek opgehef (51.5 ± 1.3% vs. 35.6 ± 2.4% [p<0.05]). Inhibering van JAK/STAT seine het egter geen effek getoon nie. Daar was geen beduidende verskille in linkerventrikulêr-ontwikkelde druk, koronêre-vloeitempo of harttempo tydens die eksperimente nie. Verder, 20 minute van akute benfotiamientoediening met die aanvang van reperfusie het „n toename in fosfo-FOXO/FOXO in die sitosoliese-fraksie veroorsaak, maar geen beduidende verandering in fosfo-STAT3/STAT3 is in die nukleus waargeneem nie. Gevolgtrekkings: Ons resultate suggereer dat akute benfotiamientoediening met die aanvang van reperfusie moontlik die infarkgrootte via aktivering van die PI3K/Akt pro-oorlewingsein kan verklein.

Benfotiamine

Myocardial infarction

Pharmacological postconditioning

Pro-survival pathways

UCTD

Theses -- Physiology (Human and animal)

Etude de la signalisation intracellulaire de la cardioprotection vis-à-vis des lésions d'ischémie-reperfusion : implication de GSK-3β, de la voie WNT et de la voie mTOR

Vigneron, François

15 December 2010

L’infarctus du myocarde, problème majeur de santé publique, est caractérisé par une nécrose cardiomyocytaire. Des séries d’occlusions-reperfusions courtes, réalisées avant l’ischémie (Préconditionnement (PréC) ischémique) ou au moment de la reperfusion (Postconditionnement (PostC) ischémique), protègent le coeur contre des lésions d’ischémie-reperfusion (IR). Les mécanismes intracellulaires impliqués restent obscurs. Nous avons étudié la signalisation intracellulaire du PréC et du PostC, et la cardioprotection qui en découle, sur un modèle de coeur isolé perfusé de souris. Le PréC ischémique peut être mimé par une activation directe du canal potassique mitochondrial ATP dépendant (mitoKATP), entraînant la mise en place d’une boucle d’auto-amplification incluant l’activation d’Akt, l’inhibition de GSK-3β et l’ouverture du mitoKATP. Cette réponse est liée à la production modérée d’espèces dérivées de l’oxygène par le mitoKATP et aboutie à une cardioprotection. La voie de développement Wnt est capable de moduler le PréC via GSK-3β. La voie de survie mTOR, cible de GSK-3β est aussi impliquée et pourrait induire des modifications traductionnelles lors de la réponse adaptative à l’IR. Le PostC ischémique peut également être mimé par activation directe du mitoKATP lors de la reperfusion, engendrant une protection du coeur et la mise en place d’une boucle d’auto-amplification similaire à celle du PréC, comprenant Akt, GSK-3β et le mitoKATP. Le PostC est dépendant de GSK-3β, mais contrairement au PréC, il n’impliquerait pas les voies Wnt et mTOR. Cette étude est la première démontrant que le PréC implique les voies de survie mTOR et de développement Wnt avec un rôle central de GSK-3β. / Myocardial infarction is a major problem of public health, whose prognosis is related to the extent of the infarcted territory. Transient episodes of ischemia/reperfusion before ischemia (ischemic PreConditioning (PreC)), or at the onset of reperfusion (ischemic PostConditioning (PostC)) confer myocardium resistance to lethal ischemia. However the exact mechanism of PreC and PostC remains obscure. Our objectives were to examine signaling events during PreC and PostC and their effects on cardioprotection in an isolated mouse heart model. We provide evidence that pharmacological PreC by direct activation of mitoKATP, like ischemic PreC, involve an amplification loop involving ROS production and resulting in a sustained down-regulation of GSK-3β via Akt activation and a constant opening of mitoKATP. The mTOR pathway is a target of this loop and participates to cardioprotection. Disruption of Wnt pathway by sFRP1 modulates this loop inducing GSK-3β activation. This is the first evidence that PreC involves both a pro-survival mTOR pathway and an embryonic developmental Wnt pathway targeting GSK-3β. During ischemic and pharmacological PostC, the same amplification loop is activated, including Akt, GSK-3β and the mitoKATP. Unlike PreC, PostC did not induce the mTOR survival pathway: neither phosphorylation of mTOR nor of its targets p70S6K and 4E-BP1 were observed. However, cardiac overexpression of a Wnt antagonist, impairing PreC through GSK3-β, was unable to abolish cardioprotection afforded by PostC. PostC signaling differs from the preC pathway. Despite these discrepancies, GSK-3β plays a key role in both types of cardioprotection.

Cardioprotection

Préconditionnement

Postconditionnement

Signalisation cellulaire

GSK-3 β

Wnt

Mtor

Ros

MitoKATP

Cardioprotection

Preconditioning

Postconditioning

Cell signaling

Avaliação do efeito do pré e pós-condicionamento em modelo de isquemia renal transitória estudo comparativo experimental em ratos /

Arantes, Vinicius Monteiro

January 2016

Orientador: Noma Sueli Pinheiro Modolo / Resumo: Introdução: a lesão por isquemia-reperfusão (LIR) é uma importante causa de lesãorenal aguda experimentada na prática clínica. A restauração da perfusão aos tecidosapós um período de isquemia inicia uma cascata de inflamação associada ao acúmulode íons, formação de espécies reativas de oxigênio (ERO), disfunção endotelial eativação imune. O condicionamento isquêmico é a aplicação de breves ciclos deinterrupção seguidas de restauração do fluxo sanguíneo, tendo o objetivo de adaptaros tecidos à isquemia. Pode ser aplicado antes do estímulo principal, como précondicionamento(PCI), ou depois, sendo denominado pós-condicionamento (PCoI).Metodologia: estudo experimental realizado com 40 ratos wistar, divididos em cincogrupos para análise comparativa: Sham (S): laparotomia; Controle (C): laparotomia e30 min de isquemia; Pré-condicionamento (PRE): laparotomia, PCI e 30 min deisquemia; Pré e Pós-condicionamento (PRE/POS): laparotomia, PCI, 30 min deisquemia e PCoI; Pós-condicionamento (POS): laparotomia, 30 min de isquemia ePCoI. A comparação entre os grupos foi realizada pela análise bioquímica sérica decreatinina, ureia, lipocalina associada à gelatinase de neutrófilos (NGAL) e histolologia.Resultados: apenas o grupo Sham apresentou valores estatisticamente menores dosmarcadores de lesão renal e menor incidência de lesão tubular renal à histologia(S<C=PRÉ=PRÉ/PÓS=PÓS).Discussão e conclusão: no presente estudo, o PCI e o PoCI, isoladamente ou emc... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Background: Ischemia-reperfusion injury (IRI) is an unavoidable aspect of transplantation, as well as an important cause of acute kidney injury in clinical practice. Restoration of the blood supply after an ischemic period activates an inflammatory cascade associated with multiple processes, including ion accumulation, free reactive oxygen species (ROS) formation, endothelial dysfunction, and immune activation. Ischemic “conditioning” refers to the application of a brief series of ischemic periods followed by reperfusion in the setting of major ischemia. In ischemic preconditioning (IPC), the conditioning stimulus is applied before the major ischemic event, whereas in ischemic postconditioning (IPoC), it is applied after the event. Methods: Forty Wistar rats were randomized into five groups: Sham (S): laparotomy; Control (C): laparotomy and 30 min ischemia; Preconditioning (PRE): laparotomy, IPC, and 30 min ischemia; Preconditioning and Postconditioning (PRE/POST): laparotomy, IPC, 30 min ischemia, and IPoC; Postconditioning (POST): laparotomy, 30 min ischemia, and IPoC. Serum analyses of creatinine and neutrophil gelatinaseassociated lipocalin (NGAL) were performed, and renal histology was also examined. Results: Severe tubular injury and increases in creatinine were observed in all groups except the S group, and no significant differences were detected between the other groups (S<C=PRE=PRE/POST=POST). Conclusions: IPC and IPoC, together or separately, were unable to exert a... (Complete abstract click electronic access below) / Doutor

Pré-condicionamento isquêmico

Pós-condicionamento isquêmico

Rim

Ratos.

Lesão renal aguda.

Ischemic preconditioning

Ischemic postconditioning

Kidney

Rats

Acute kidney injury

Avaliação do efeito do pré e pós-condicionamento em modelo de isquemia renal transitória: estudo comparativo experimental em ratos / Effects of ischemic preconditioning and postconditioning in an ischemia-reperfusion model: a comparative experimental study in rats

Arantes, Vinicius Monteiro [UNESP]

23 February 2016

Submitted by VINÍCIUS MONTEIRO ARANTES null (viniciusma43@yahoo.com.br) on 2016-04-07T17:19:19Z No. of bitstreams: 1 Vinicius Monteiro Arantes (Doutorado) - Pós defesa.pdf: 1192517 bytes, checksum: 45c5c5f675af52789c6d2d6a395b44b0 (MD5) / Approved for entry into archive by Felipe Augusto Arakaki (arakaki@reitoria.unesp.br) on 2016-04-08T11:47:33Z (GMT) No. of bitstreams: 1 arantes_vm_dr_bot.pdf: 1192517 bytes, checksum: 45c5c5f675af52789c6d2d6a395b44b0 (MD5) / Made available in DSpace on 2016-04-08T11:47:33Z (GMT). No. of bitstreams: 1 arantes_vm_dr_bot.pdf: 1192517 bytes, checksum: 45c5c5f675af52789c6d2d6a395b44b0 (MD5) Previous issue date: 2016-02-23 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Introdução: a lesão por isquemia-reperfusão (LIR) é uma importante causa de lesão renal aguda experimentada na prática clínica. A restauração da perfusão aos tecidos após um período de isquemia inicia uma cascata de inflamação associada ao acúmulo de íons, formação de espécies reativas de oxigênio (ERO), disfunção endotelial e ativação imune. O condicionamento isquêmico é a aplicação de breves ciclos de interrupção seguidas de restauração do fluxo sanguíneo, tendo o objetivo de adaptar os tecidos à isquemia. Pode ser aplicado antes do estímulo principal, como précondicionamento (PCI), ou depois, sendo denominado pós-condicionamento (PCoI). Metodologia: estudo experimental realizado com 40 ratos wistar, divididos em cinco grupos para análise comparativa: Sham (S): laparotomia; Controle (C): laparotomia e 30 min de isquemia; Pré-condicionamento (PRE): laparotomia, PCI e 30 min de isquemia; Pré e Pós-condicionamento (PRE/POS): laparotomia, PCI, 30 min de isquemia e PCoI; Pós-condicionamento (POS): laparotomia, 30 min de isquemia e PCoI. A comparação entre os grupos foi realizada pela análise bioquímica sérica de creatinina, ureia, lipocalina associada à gelatinase de neutrófilos (NGAL) e histolologia. Resultados: apenas o grupo Sham apresentou valores estatisticamente menores dos marcadores de lesão renal e menor incidência de lesão tubular renal à histologia (S<C=PRÉ=PRÉ/PÓS=PÓS). Discussão e conclusão: no presente estudo, o PCI e o PoCI, isoladamente ou em conjunto, foram incapazes de prevenir dano estrutural tubular renal. A duração do período isquêmico é um aspecto crítico nas estratégias de condicionamento. Os resultados encontrados indicam que o condicionamento pode não melhorar os desfechos, e em alguns casos pode ser prejudicial. / Background: Ischemia-reperfusion injury (IRI) is an unavoidable aspect of transplantation, as well as an important cause of acute kidney injury in clinical practice. Restoration of the blood supply after an ischemic period activates an inflammatory cascade associated with multiple processes, including ion accumulation, free reactive oxygen species (ROS) formation, endothelial dysfunction, and immune activation. Ischemic “conditioning” refers to the application of a brief series of ischemic periods followed by reperfusion in the setting of major ischemia. In ischemic preconditioning (IPC), the conditioning stimulus is applied before the major ischemic event, whereas in ischemic postconditioning (IPoC), it is applied after the event. Methods: Forty Wistar rats were randomized into five groups: Sham (S): laparotomy; Control (C): laparotomy and 30 min ischemia; Preconditioning (PRE): laparotomy, IPC, and 30 min ischemia; Preconditioning and Postconditioning (PRE/POST): laparotomy, IPC, 30 min ischemia, and IPoC; Postconditioning (POST): laparotomy, 30 min ischemia, and IPoC. Serum analyses of creatinine and neutrophil gelatinaseassociated lipocalin (NGAL) were performed, and renal histology was also examined. Results: Severe tubular injury and increases in creatinine were observed in all groups except the S group, and no significant differences were detected between the other groups (S<C=PRE=PRE/POST=POST). Conclusions: IPC and IPoC, together or separately, were unable to exert a protective effect against tubular cell injury and preserve kidney function. The duration of the ischemic period is a critical aspect of the conditioning strategy. Our results indicate that conditioning may not improve the outcome, and it may even be harmful.

Pré-condicionamento isquêmico

Pós-condicionamento isquêmico

Rim

Ratos

Lesão renal aguda

Ischemic preconditioning

Ischemic postconditioning

Kidney

Rats

Acute kidney injury

Cardiac Na/K-ATPase in Ischemia-Reperfusion Injury and Cardioprotection

Duan, Qiming

22 July 2014

No description available.

Biomedical Research

Na,K-ATPase

Coronary Heart Disease

Ischemia reperfusion injury

Cell signaling

Preconditioning

Postconditioning

Ouabain

Digoxin

Phosphoinositide 3-kinase