Computational Modeling of Sarcomere Protein Mutations and Drug Effects on Cardiac Muscle Behavior

Momcilo Prodanovic, B. Stojanovic, Danica Prodanovic, N. Filipovic, S. Mijailovich
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引用次数: 1

Abstract

Hypertrophic and Dilated Cardiomyopathies are caused by inherited mutations in sarcomeric proteins: Myosin (M), Troponin (Tn), Tropomyosin (Tm) and Myosin Binding Protein-C (MyBP-C). A quantitative understanding of how mutations change protein behaviour, and hence cardiac muscle contraction, and how adaptations to these changes result in disease, could accelerate the design of novel personalized treatments and therapeutics. Newly developed multiscale computational tools, tightly interlaced with multiple experiments, can enhance efforts to correct the problems associated with cardiomyopathies and prevent or more effectively manage the disease. Using these computational tools, we examined the effects of mutations in myosin and troponin on cardiac muscle contractility and overall heart functional behaviour. We also examined the effects of potential therapeutics that modulate protein interactions and cardiac muscle contractility.
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肌节蛋白突变的计算模型和药物对心肌行为的影响
肥厚型和扩张型心肌病是由肌凝蛋白(Myosin, M)、肌钙蛋白(Troponin, Tn)、原肌凝蛋白(tromyosin, Tm)和肌凝蛋白结合蛋白c (MyBP-C)的遗传突变引起的。定量了解突变如何改变蛋白质行为,从而导致心肌收缩,以及对这些变化的适应如何导致疾病,可以加速设计新的个性化治疗和治疗方法。新开发的多尺度计算工具,与多个实验紧密交织,可以加强纠正与心肌病相关的问题,预防或更有效地管理疾病。使用这些计算工具,我们检查了肌凝蛋白和肌钙蛋白突变对心肌收缩性和整体心脏功能行为的影响。我们还研究了调节蛋白质相互作用和心肌收缩性的潜在疗法的效果。
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