Viswanathan Meera C, Blice-Baum Anna C, Sang Tzu-Kang, Cammarato Anthony
Division of Cardiology, Department of Medicine, Johns Hopkins University, Ross 1050, 720 Rutland Avenue, Baltimore, MD 21205, USA.
Institute of Biotechnology & Department of Life Science, National Tsing Hua University, Hsinchu City 30013, Taiwan.
J Cardiovasc Dev Dis. 2016 Jun;3(2). doi: 10.3390/jcdd3020019. Epub 2016 May 24.
Valosin-containing protein (VCP) is a highly conserved mechanoenzyme that helps maintain protein homeostasis in all cells and serves specialized functions in distinct cell types. In skeletal muscle, it is critical for myofibrillogenesis and atrophy. However, little is known about VCP's role(s) in the heart. Its functional diversity is determined by differential binding of distinct cofactors/adapters, which is likely disrupted during disease. VCP mutations cause multisystem proteinopathy (MSP), a pleiotropic degenerative disorder that involves inclusion body myopathy. MSP patients display progressive muscle weakness. They also exhibit cardiomyopathy and die from cardiac and respiratory failure, which are consistent with critical myocardial roles for the enzyme. Nonetheless, efficient models to interrogate VCP in cardiac muscle remain underdeveloped and poorly studied. Here, we investigated the significance of VCP and mutant VCP in the heart. Cardiac-restricted RNAi-mediated knockdown of TER94, the VCP homolog, severely perturbed myofibrillar organization and heart function in adult flies. Furthermore, expression of MSP disease-causing alleles engendered cardiomyopathy in adults and structural defects in embryonic hearts. may therefore serve as a valuable model for examining role(s) of VCP in cardiogenesis and for identifying novel heart-specific VCP interactions, which when disrupted via mutation, contribute to or elicit cardiac pathology.
含缬酪肽蛋白(VCP)是一种高度保守的机械酶,有助于维持所有细胞中的蛋白质稳态,并在不同细胞类型中发挥特殊功能。在骨骼肌中,它对肌原纤维生成和萎缩至关重要。然而,人们对VCP在心脏中的作用知之甚少。其功能多样性由不同辅因子/衔接蛋白的差异结合决定,而这种结合在疾病过程中可能会被破坏。VCP突变会导致多系统蛋白病(MSP),这是一种涉及包涵体肌病的多效性退行性疾病。MSP患者表现出进行性肌肉无力。他们还会出现心肌病,并死于心脏和呼吸衰竭,这与该酶在心肌中的关键作用一致。尽管如此,用于研究心肌中VCP的有效模型仍未充分开发且研究较少。在这里,我们研究了VCP和突变型VCP在心脏中的重要性。心脏特异性RNAi介导的VCP同源物TER94的敲低严重扰乱了成年果蝇的肌原纤维组织和心脏功能。此外,MSP致病等位基因的表达在成年果蝇中引发了心肌病,并在胚胎心脏中导致了结构缺陷。因此,果蝇可能是一个有价值的模型,用于研究VCP在心脏发生中的作用,以及识别新的心脏特异性VCP相互作用,这些相互作用在通过突变被破坏时会导致或引发心脏病理变化。