The loss of slow skeletal muscle isoform of troponin T in spindle intrafusal fibres explains the pathophysiology of Amish nemaline myopathy

Oki Kentaro; Wei Bin; Feng Han‐Zhong; Jin Jian‐Ping

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The loss of slow skeletal muscle isoform of troponin T in spindle intrafusal fibres explains the pathophysiology of Amish nemaline myopathy

机译：血管内纤维血管内纤维的肌钙蛋白T缓慢骨骼肌损失解释了Amish Nemaline肌病的病理生理学

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Key points The pathogenic mechanism and the neuromuscular reflex‐related phenotype (e.g. tremors accompanied by clonus) of Amish nemaline myopathy, as well as of other recessively inherited TNNT1 myopathies, remain to be clarified. The truncated slow skeletal muscle isoform of troponin T (ssTnT) encoded by the mutant TNNT1 gene is unable to incorporate into myofilaments and is degraded in muscle cells. By contrast to extrafusal muscle fibres, spindle intrafusal fibres of normal mice contain a significant level of cardiac TnT and a low molecular weight splice form of ssTnT. Intrafusal fibres of ssTnT‐knockout mice have significantly increased cardiac TnT. Rotarod and balance beam tests have revealed abnormal neuromuscular co‐ordination in ssTnT‐knockout mice and a blunted response to a spindle sensitizer, succinylcholine. The loss of ssTnT and a compensatory increase of cardiac TnT in intrafusal nuclear bag fibres may increase myofilament Ca 2+ ‐sensitivity and tension, impairing spindle function, thus identifying a novel mechanism for the development of targeted treatment. Abstract A nonsense mutation at codon Glu180 of TNNT1 gene causes Amish nemaline myopathy (ANM), a recessively inherited disease with infantile lethality. TNNT1 encodes the slow skeletal muscle isoform of troponin T (ssTnT). The truncated ssTnT is unable to incorporate into myofilament and is degraded in muscle cells. The symptoms of ANM include muscle weakness, atrophy, contracture and tremors accompanied by clonus. An ssTnT‐knockout (KO) mouse model recapitulates key features of ANM such as atrophy of extrafusal slow muscle fibres and increased fatigability. However, the neuromuscular reflex‐related symptoms of ANM have not been explained. By isolating muscle spindles from ssTnT‐KO and control mice aiming to examine the composition of myofilament proteins, we found that, in contrast to extrafusal fibres, intrafusal fibres contain a significant level of cardiac TnT and the low molecular weight splice form of ssTnT. Intrafusal fibres from ssTnT‐KO mice have significantly increased cardiac TnT. Rotarod and balance beam tests revealed impaired neuromuscular co‐ordination in ssTnT‐KO mice, indicating abnormality in spindle functions. Unlike the wild‐type control, the beam running ability of ssTnT‐KO mice had a blunted response to a spindle sensitizer, succinylcholine. Immunohistochemistry detected ssTnT and cardiac TnT in nuclear bag fibres, whereas fast skeletal muscle TnT was detected in nuclear chain fibres, and cardiac α‐myosin was present in one of the two nuclear bag fibres. The loss of ssTnT and a compensatory increase of cardiac TnT in nuclear bag fibres would increase myofilament Ca 2+ ‐sensitivity and tension, thus affecting spindle activities. This mechanism provides an explanation for the pathophysiology of ANM, as well as a novel target for treatment.

机译：关键点致病机制和神经肌肉反射相关的表型（例如，伴随着Clonus伴随着Clonus）的Amish Nemaline肌神话，以及其他隐性遗传的TNNT1肌病仍然澄清。由突变体TNNT1基因编码的肌钙蛋白T（SSTNT）的截头慢骨骼肌同种型不能掺入肌细胞中并在肌肉细胞中降解。相反，与Uttrafusal肌纤维相比，正常小鼠的主轴肠纤维含有显着水平的心脏TNT和SSTNT的低分子量剪接形式。 SSTNT敲除小鼠的肠外纤维具有显着增加的心脏TNT。 Rotarod和平衡梁试验揭示了SSTNT敲除小鼠中的异常神经肌肉协调以及对梭菌敏化剂，琥珀酰胆碱的垂直反应。脑内核袋纤维中的SSTNT丧失和心脏TNT的补偿性增加可能会增加丝丝CA 2+ - 敏感度和张力，损害主轴功能，从而识别用于靶向治疗的新机制。摘要TNNT1基因Codon Glu180的无意义突变导致Amish Nemaline肌病（ANM），一种带有婴儿杀伤性的隐性遗传性疾病。 TNNT1编码肌钙蛋白T（SSTNT）的慢骨骼肌同种型。截短的SSTNT无法掺入纤细的丝网中，并在肌肉细胞中降解。 ANM的症状包括肌肉无力，萎缩，挛缩和震颤伴随着Clonus。 SSTNT-NocketOut（KO）小鼠模型重新承认ANM的关键特征，例如萎缩性慢肌纤维的萎缩和增加的疲劳性。然而，尚未解释ANM的神经肌肉反射相关症状。通过从SSTNT-KO和对小鼠中分离肌肉锭子并控制旨在检查丝粉蛋白的组成，与预纤维相比，肠内纤维含有显着水平的心脏TNT和SSTNT的低分子量剪裁形式。来自SSTNT-KO小鼠的肠外纤维显着增加了心脏TNT。 Rotarod和平衡梁试验揭示了SSTNT-KO小鼠中的神经肌肉协调受损，表明主轴功能异常。与野生型控制不同，SSTNT-KO小鼠的光束运行能力与对纺锤体敏化剂，琥珀酰胆碱的响应迟钝。免疫组织化学检测到核袋纤维中的SSTNT和心脏TNT，而在核链纤维中检测到快速骨骼肌TNT，并且存在于两个核纤维中的一个中的心脏α-肌蛋白。 SSTNT的丧失和核袋纤维心脏TNT的补偿性增加将增加毫微晶CA 2+ - 敏感和张力，从而影响主轴活动。该机制为ANM的病理生理学以及一种新的治疗目标提供了解释。

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来源
《The Journal of Physiology》 |2019年第15期|共14页
作者
Oki Kentaro; Wei Bin; Feng Han‐Zhong; Jin Jian‐Ping;
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作者单位

Department of PhysiologyWayne State University School of MedicineDetroit MI USA;

Department of PhysiologyWayne State University School of MedicineDetroit MI USA;

Department of PhysiologyWayne State University School of MedicineDetroit MI USA;

Department of PhysiologyWayne State University School of MedicineDetroit MI USA;

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原文格式 PDF
正文语种 eng
中图分类人体生理学;
关键词
Amish Nemaline Myopathy; Troponin T Isoforms; Myofilament; Muscle Spindle; Intrafusal Fiber;

机译：Amish Nemaline肌病;肌钙蛋白T同种型;肌丝;肌肉主轴;肠出纤维;

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专利

1. The loss of slow skeletal muscle isoform of troponin T in spindle intrafusal fibres explains the pathophysiology of Amish nemaline myopathy [J] . Oki Kentaro, Wei Bin, Feng Han‐Zhong, The Journal of Physiology . 2019,第15期

机译：血管内纤维血管内纤维的肌钙蛋白T缓慢骨骼肌损失解释了Amish Nemaline肌病的病理生理学
2. Protein Structure-Function Relationship at Work: Learning from Myopathy Mutations of the Slow Skeletal Muscle Isoform of Troponin T [J] . Anupom Mondal, J.-P. Jin Frontiers in Physiology . 2016,第3期

机译：在工作中的蛋白质结构与功能的关系：从肌钙蛋白T慢骨骼肌同工型的肌病突变中学习
3. Defining alpha-skeletal and alpha-cardiac actin expression in human heart and skeletal muscle explains the absence of cardiac involvement in ACTA1 nemaline myopathy. [J] . Ilkovski B, Clement S, Sewry C, Neuromuscular disorders: NMD . 2005,第12期

机译：定义人心脏和骨骼肌中的α-骨骼肌和α-心脏肌动蛋白表达可以解释ACTA1肾上腺肌病中没有心脏受累。
4. Protein Structure-Function Relationship at Work: Learning from Myopathy Mutations of the Slow Skeletal Muscle Isoform of Troponin T [O] . Anupom Mondal, J.-P. Jin 2016

机译：在工作中的蛋白质结构与功能的关系：从肌钙蛋白T慢骨骼肌同工型的肌病突变中学习
5. Clinical phenotype and loss of the slow skeletal muscle troponin T in three new patients with recessive TNNT1 nemaline myopathy [O] . Justine Géraud, Klaus Dieterich, John Rendu, 2020

机译：三种新患者患者患者临床表型和丧失骨骼肌肌钙蛋白T.

The loss of slow skeletal muscle isoform of troponin T in spindle intrafusal fibres explains the pathophysiology of Amish nemaline myopathy

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