在DMD基因中检测到的突变谱的变化取决于实验室的方法能力

IF 3.2 4区医学 Q2 CLINICAL NEUROLOGY

Journal of neuromuscular diseases Pub Date : 2023-03-25 DOI:10.17650/2222-8721-2023-13-1-33-43

E. Zinina, M. Bulakh, O. Ryzhkova, O. Shchagina, A. Polyakov

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Depending on the methodological capabilities of the laboratory, the idea of the spectrum of mutations in the DMD gene changed, which is important in genetic counseling of patients and planning the therapy available today.Aim. To analyze the spectrum of mutations in the DMD gene, including three time slices, depending on the methodological capabilities of the laboratory.Materials and methods. We analyzed the spectrum of mutations in the DMD gene for a sample of 2957 patients admitted to the laboratory of DNA diagnostics of the Research Centre for Medical Genetics with a referral diagnosis of DMD/BMD. Depending on the time of treatment and the capabilities of the laboratory, patients were divided into three groups: 2008–2015, 2016–2018, 2019–2022.Results. As a result of the study, the full range of mutations in the DMD gene was analyzed over three-time intervals, which makes it possible to get an idea of the distribution of mutation types in the sample among Russian patients. Regardless of the methodological capabilities of the laboratory, the spectrum of mutations in the DMD gene remains biased relative to world data. At the moment, there is a significant decrease in the proportion of extended deletions (50.7–59.6 %), while the proportion of extended duplications (11.8–17.2 %) and small mutations (23.2–35.0 %) increased. We assume that the main reason for such features of the spectrum is ethnic and population differences.Conclusion. Duchenne/Becker muscular dystrophy (DMD/BMD) is the most common form of muscular dystrophy, accounting for more than 50 % of all cases. Determination of the spectrum of mutations provides an understanding of their frequencies, which in the future may help patients in the appointment of therapy specific to a particular type of mutation. 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引用次数: 1

摘要

背景。杜氏肌营养不良症(DMD)是一种严重的进行性肌营养不良，发生在1至3岁的儿童中。该疾病的主要特征是近端肌肉无力，导致运动困难，最终完全残疾。贝克肌营养不良症(BMD)是一种较轻的等位基因形式的疾病，其特点是发病晚，进展缓慢。DMD/BMD发展的原因是DMD基因的突变，导致各种肌营养不良蛋白家族同种异构体的产生不足。DMD/BMD病例中最常见的突变是一个或几个外显子的严重缺失(55 - 65%)和重复(6 - 11%)，其余的DMD/BMD病例是由于小突变(约20 - 30%)。根据实验室的方法能力，DMD基因突变谱的概念发生了变化，这对患者的遗传咨询和今天可用的治疗计划是重要的。根据实验室的方法能力，分析DMD基因突变的频谱，包括三个时间切片。材料和方法。我们对医学遗传学研究中心DNA诊断实验室收治的2957例转诊诊断为DMD/BMD的患者样本进行了DMD基因突变谱分析。根据治疗时间和实验室能力，将患者分为2008-2015、2016-2018、2019 - 2022三组。这项研究的结果是，在三个时间间隔内分析了DMD基因的全部突变，这使得有可能了解俄罗斯患者样本中突变类型的分布。无论实验室的方法能力如何，DMD基因突变谱相对于世界数据仍然存在偏差。目前，延长缺失比例明显下降(50.7 ~ 59.6%)，延长重复比例上升(11.8 ~ 17.2%)，小突变比例上升(23.2 ~ 35.0%)。我们认为造成这种频谱特征的主要原因是种族和人口差异。Duchenne/Becker肌营养不良症(DMD/BMD)是最常见的肌营养不良症，占所有病例的50%以上。突变谱的确定提供了对其频率的理解，这在未来可能有助于患者指定针对特定类型突变的治疗方法。

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Change in the spectrum of detected mutations in the DMD gene depending on the methodological capabilities of the laboratory

Background. Duchenne muscular dystrophy (DMD) is a severe, progressive form of muscular dystrophy that occurs in children between one and three years of age. The disease is mainly characterized by weakness of the proximal muscles, which leads to difficulty in movement, and ultimately to complete disability. Becker muscular dystrophy (BMD) is a milder allelic form of the disorder characterized by late onset and slow progression. The cause of the development of DMD/BMD is mutations in the DMD gene, leading to a deficiency in the production of various isoforms of the dystrophin protein family. The most common mutations in case of DMD/BMD are gross deletions (55–65 %) and duplications (6–11 %) of one or several exons The remaining cases of DMD/BMD are due to small mutations (approximately 20–30 %). Depending on the methodological capabilities of the laboratory, the idea of the spectrum of mutations in the DMD gene changed, which is important in genetic counseling of patients and planning the therapy available today.Aim. To analyze the spectrum of mutations in the DMD gene, including three time slices, depending on the methodological capabilities of the laboratory.Materials and methods. We analyzed the spectrum of mutations in the DMD gene for a sample of 2957 patients admitted to the laboratory of DNA diagnostics of the Research Centre for Medical Genetics with a referral diagnosis of DMD/BMD. Depending on the time of treatment and the capabilities of the laboratory, patients were divided into three groups: 2008–2015, 2016–2018, 2019–2022.Results. As a result of the study, the full range of mutations in the DMD gene was analyzed over three-time intervals, which makes it possible to get an idea of the distribution of mutation types in the sample among Russian patients. Regardless of the methodological capabilities of the laboratory, the spectrum of mutations in the DMD gene remains biased relative to world data. At the moment, there is a significant decrease in the proportion of extended deletions (50.7–59.6 %), while the proportion of extended duplications (11.8–17.2 %) and small mutations (23.2–35.0 %) increased. We assume that the main reason for such features of the spectrum is ethnic and population differences.Conclusion. Duchenne/Becker muscular dystrophy (DMD/BMD) is the most common form of muscular dystrophy, accounting for more than 50 % of all cases. Determination of the spectrum of mutations provides an understanding of their frequencies, which in the future may help patients in the appointment of therapy specific to a particular type of mutation.

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来源期刊

Journal of neuromuscular diseases Medicine-Neurology (clinical)

CiteScore

5.10

自引率

6.10%

发文量

102

期刊介绍： The Journal of Neuromuscular Diseases aims to facilitate progress in understanding the molecular genetics/correlates, pathogenesis, pharmacology, diagnosis and treatment of acquired and genetic neuromuscular diseases (including muscular dystrophy, myasthenia gravis, spinal muscular atrophy, neuropathies, myopathies, myotonias and myositis). The journal publishes research reports, reviews, short communications, letters-to-the-editor, and will consider research that has negative findings. The journal is dedicated to providing an open forum for original research in basic science, translational and clinical research that will improve our fundamental understanding and lead to effective treatments of neuromuscular diseases.