遗传性肌病的常规治疗方法

M. Pokrovsky, M. V. Korokin, A. Krayushkina, N. S. Zhunusov, K. Lapin, M. O. Soldatova, E. A. Kuzmin, O. Gudyrev, I. S. Kochkarova, A. Deikin
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引用次数: 0

摘要

这项工作的目的是分析遗传性肌病的常规治疗的可用治疗方案。材料和方法。在搜索撰写综述文章的材料时,使用了PubMed和Google Scholar等抽象数据库。对1980年至2022年9月期间的出版物进行了检索。选择以下词语及其组合作为文献选择的参数:“肌病”、“杜氏病”、“肌营养不良”、“代谢”、“线粒体”、“先天性”、“症状”、“替代”、“重组”、“皮质类固醇”、“维生素”、“蒂拉塞夫”、“治疗”、“治疗”、“证据”、“临床试验”、“患者”、“二氯乙酸”。先天性肌病是由基因突变引起的肌肉纤维萎缩和变性引起的一组异质性病理。根据一些临床和病理特征,遗传性肌病分为:1)先天性肌病;2)肌肉萎缩症;3)线粒体和4)代谢性肌病。同时,根据肌病的类型,治疗方法有很大的不同,可以基于1)替代突变蛋白;(二)表达增加;3)刺激内部代偿通路表达;4)恢复与突变蛋白功能相关的化合物平衡(对于酶);5)对线粒体功能的影响(伴有代谢性和线粒体肌病);6)减少炎症和纤维化(伴有肌肉萎缩症);同时还能增加肌肉量和力量。目前的综述介绍了所列方法的最新数据,以及具体的药理学药物及其作用机制的描述。目前,用于或正在进行临床试验治疗各种类型肌病的药理学组有:肌力、抗炎和抗纤维化药物、抗yostatin治疗以及通过停止密码子促进翻译的药物(适用于无义突变)。此外,代谢药物、代谢酶辅助因子、线粒体生物发生刺激剂和抗氧化剂可用于治疗肌病。最后,重组药物alglucosidase和avalglucosidase已被临床批准用于代谢性肌病(Pompe 's disease)的替代治疗。
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CONVENTIONAL APPROACHES TO THE THERAPY OF HEREDITARY MYOPATHIES
The aim of the work was to analyze the available therapeutic options for the conventional therapy of hereditary myopathies.Materials and methods. When searching for the material for writing a review article, such abstract databases as PubMed and Google Scholar were used. The search was carried out on the publications during the period from 1980 to September 2022. The following words and their combinations were selected as parameters for the literature selection: “myopathy”, “Duchenne”, “myodystrophy”, “metabolic”, “mitochondrial”, “congenital”, “symptoms”, “replacement”, “recombinant”, “corticosteroids”, “vitamins”, “tirasemtiv”, “therapy”, “treatment”, “evidence”, “clinical trials”, “patients”, “dichloracetate”.Results. Congenital myopathies are a heterogeneous group of pathologies that are caused by atrophy and degeneration of muscle fibers due to mutations in genes. Based on a number of clinical and pathogenetic features, hereditary myopathies are divided into: 1) congenital myopathies; 2) muscular dystrophy; 3) mitochondrial and 4) metabolic myopathies. At the same time, treatment approaches vary significantly depending on the type of myopathy and can be based on 1) substitution of the mutant protein; 2) an increase in its expression; 3) stimulation of the internal compensatory pathways expression; 4) restoration of the compounds balance associated with the mutant protein function (for enzymes); 5) impact on the mitochondrial function (with metabolic and mitochondrial myopathies); 6) reduction of inflammation and fibrosis (with muscular dystrophies); as well as 7) an increase in muscle mass and strength. The current review presents current data on each of the listed approaches, as well as specific pharmacological agents with a description of their action mechanisms.Conclusion. Currently, the following pharmacological groups are used or undergoing clinical trials for the treatment of various myopathies types: inotropic, anti-inflammatory and antifibrotic drugs, antimyostatin therapy and the drugs that promote translation through stop codons (applicable for nonsense mutations). In addition, metabolic drugs, metabolic enzyme cofactors, mitochondrial biogenesis stimulators, and antioxidants can be used to treat myopathies. Finally, the recombinant drugs alglucosidase and avalglucosidase have been clinically approved for the replacement therapy of metabolic myopathies (Pompe’s disease).
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