The Stress Response Kinase JNK and Alcohol Evoked Atrial Fibrillation

应激反应激酶 JNK 和酒精诱发心房颤动

基本信息

批准号：
9333600
负责人：
Xun Ai
金额：
$ 53.78万
依托单位：
OHIO STATE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2017
资助国家：
美国
起止时间：
2017-04-15 至 2022-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/9333600
关键词：
Ablation Adult Aging Alcohol abuse Alcohol consumption Alcohol-Induced Disorders Alcoholism Alcohols Animals Arrhythmia Atrial Fibrillation Attenuated Biochemical Biological Assay Blood alcohol level measurement Calmodulin Cardiac Cardiac Electrophysiologic Techniques Cardiovascular Diseases Cell Death Centers for Disease Control and Prevention (U.S.)Clinical Clinical Data Consumption Development Dominant-Negative Mutation Economic Burden Electrophysiology (science)Failure Frequencies Functional disorder Gap Junctions Heart Heart Atrium Heart failure Human Image Inflammation Injury Institutes Intervention JUN gene Knock-out Knockout Mice Knowledge Link Logic MAPK8 gene MAPK9 gene Measurement Mediating Modification Molecular Molecular Biology Mus Muscle Cells Mutant Strains Mice N-terminal Obesity Optics Organ Outcome Pathway interactions Patients Pattern Peptides Pharmacology Phosphorylation Phosphotransferases Predisposition Prevalence Prevention Procedures Quality of life Recurrence Reporting Research Resistance Risk Risk Factors RyR2 Ryanodine Receptor Calcium Release Channel Sarcoplasmic Reticulum Signal Transduction Site Societies Stimulus Stress Tacrolimus Binding Proteins Techniques Testing Therapeutic Therapeutic Intervention Time Tissues Transgenic Mice Transgenic Organisms Translating Wild Type Mouse aged alcohol abstinence alcohol abuser alcohol exposure base binge drinking biological adaptation to stress calmodulin-dependent protein kinase II carvedilol clinical Diagnosis clinical application clinical practice clinically significant disorder prevention drinking high risk human tissue in vivo inhibitor/antagonist insight mouse model novel novel therapeutic intervention overexpression oxidation patient population prevent validation studies voltage

项目摘要

Excessive binge alcohol intake (large amount of drinking within a short period of time) has been widely recognized as a high risk factor for atrial fibrillation (AF), which is the most common arrhythmia in diagnosed clinical practice. Although significant efforts have been made to date to reduce binge drinking, repeated binge remains prevalent nationwide and consequently the prevalence of alcohol associated AF is high. This causes a tremendous economic burden on our society due to expensive AF ablation procedures and high rate of recurrent AF after ablation if patients have coexisting cardiovascular diseases. Unfortunately, currently available pharmacological therapies for alcohol-provoked AF genesis remain ineffective due to a lack of understanding of its underlying mechanisms. Our proposed studies would fill this important knowledge gap by identifying stress-response c-Jun N-terminal kinase (JNK) as an important regulator in alcohol-provoked AF genesis. JNK is known to contribute to alcohol associated cell death and tissue injury. We have recently reported for the first time that activated JNK is critical in AF substrate formation and AF development. This JNK-AF relationship provides a logical pathway through which alcohol may increase propensity for AF. Indeed, our preliminary human and animal results indicate that excessive binge alcohol exposure dramatically increases JNK activation, which enhances calmodulin type II kinase (CaMKII, a well-known pro-arrhythmia molecule) dependent sarcoplasmic reticulum (SR) Ca leak and aberrant diastolic Ca sparks/waves, thus increasing propensity for atrial arrhythmias. Inactivated JNK transgenic mice with dominant negative mutations attenuated these alcohol-provoked abnormal Ca activities. In this proposal, the JNK contribution on RyR channel dysfunction and abnormal Ca activities will be dissected using unique mouse models with genetically manipulated JNK or CaMKII activities or RyR2 single channel function. To potentially translate results from mouse models to humans, we will perform validation studies in human donor hearts. We will use complementary electrophysiological approaches (voltage/Ca dual channel optical mapping and confocal Ca imaging in intact atria/isolated atrial myocytes as well as in vivo AF induction) and biochemical techniques to gain a comprehensive picture of the relationship between alcohol-activated JNK and Ca-triggered AF via increased RyR2-mediated SR Ca leak (Aim1). The mechanistic basis of how alcohol-evoked JNK alters RyR2 channel function to increase SR leak and sparks/waves (Aim 2) will be detailed at the levels of permeabilized atrial myocytes and single RyR2 channels in mice with clinical applicability verified using human donor heart tissue. This proposal integrates important functional measurements and fundamental mechanistic studies along with appropriate alternative approaches. Pharmacological interventions that limit JNK activity and modify RyR2 channel function will be tested as potential therapeutic options to prevent and/or treat AF. JNK’s RyR2 action may also add to arrhythmia risk tied to other stresses (e.g. aging, obesity, heart failure, etc.). Thus, the underlying mechanism defined and therapeutic interventions tested here may extend the potential significance beyond alcohol associated AF.

过量饮酒（短时间内大量饮酒）已被广泛被认为是心房颤动（AF）的高危因素，心房颤动是临床诊断中最常见的心律失常尽管迄今为止已经做出了巨大努力来减少酗酒，但反复的酗酒现象仍然存在。全国范围内流行，导致酒精相关房颤的患病率很高。由于昂贵的房颤消融手术和消融后房颤复发率高，给我们的社会带来了经济负担不幸的是，如果患者患有并存的心血管疾病，目前可用的药物疗法。由于缺乏对其潜在机制的了解，酒精引起的房颤发生仍然无效。拟议的研究将通过识别应激反应 c-Jun N 末端激酶来填补这一重要的知识空白 (JNK) 作为酒精引起的房颤发生的重要调节剂，已知 JNK 有助于酒精相关的发生。我们最近首次报道了激活的 JNK 在 AF 底物中至关重要。这种 JNK-AF 关系提供了酒精可能的逻辑途径。事实上，我们的初步人类和动物研究结果表明，过量饮酒会增加房颤的可能性。暴露显着增加 JNK 激活，从而增强 II 型钙调蛋白激酶（CaMKII，一种众所周知的促心律失常分子）依赖性肌浆网（SR）Ca 泄漏和异常舒张期 Ca 火花/波，从而增加具有显性失活突变的灭活 JNK 转基因小鼠发生房性心律失常的倾向。减弱了这些由酒精引起的异常 Ca2+ 活性。在该提案中，JNK 对 RyR 通道的贡献。将使用独特的基因操纵小鼠模型来剖析功能障碍和异常的 Ca 活性 JNK 或 CaMKII 活动或 RyR2 单通道功能可能将小鼠模型的结果转化为结果。人类，我们将在人类捐赠者心脏中进行验证研究，我们将使用补充电生理学。方法（完整心房/离体心房肌细胞的电压/Ca 双通道光学测绘和共焦 Ca 成像以及体内 AF 诱导）和生化技术，以全面了解这种关系通过增加 RyR2 介导的 SR Ca 渗漏，酒精激活的 JNK 和 Ca 触发的 AF 之间存在差异 (Aim1)。酒精诱发的 JNK 如何改变 RyR2 通道功能以增加 SR 泄漏和火花/波的机制基础（目标 2）将详细介绍具有临床症状的小鼠的透化心房肌细胞和单 RyR2 通道的水平该提案整合了重要的功能测量，验证了其适用性。和基本机制研究以及适当的替代方法。限制 JNK 活性和修改 RyR2 通道功能的药物将作为潜在的治疗选择进行测试，以预防和/或治疗 AF，JNK 的 RyR2 作用也可能增加与其他压力（例如衰老、肥胖、心脏病）相关的心律失常风险。因此，这里定义的潜在机制和测试的治疗干预措施可能会延长除了酒精相关的房颤之外，还有潜在的意义。