Clinical and Genetic Heterogeneity of Nuclear Envelopathy Related Muscular Dystrophies in an Indian Cohort.

IF 3.2 4区医学 Q2 CLINICAL NEUROLOGY

Journal of neuromuscular diseases Pub Date : 2024-01-01 DOI:10.3233/JND-230172

Dipti Baskar, Veeramani Preethish-Kumar, Kiran Polavarapu, Seena Vengalil, Saraswati Nashi, Deepak Menon, Valakunja Harikrishna Ganaraja, Manu Santhappan Girija, Bevinahalli Nanjegowda Nandeesh, Gautham Arunachal, Atchayaram Nalini

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引用次数: 0

Abstract

Introduction: Nuclear envelopathies occur due to structural and/or functional defects in various nuclear envelope proteins such as lamin A/C and lamin related proteins. This study is the first report on the phenotype-genotype patterns of nuclear envelopathy-related muscular dystrophies from India.

Methods: In this retrospective study, we have described patients with genetically confirmed muscular dystrophy associated with nuclear envelopathy. Data on clinical, laboratory findings and muscle MRI were collected.

Results: Sixteen patients were included with median age at onset of 3 years (range: 1 month - 17 years). Three genes were involved: LMNA (11, 68.75%), EMD (4, 25%) and SYNE1 (1, 6.25%). The 11 patients with LMNA variants were Congenital muscular dystrophy (MDCL)=4, Limb Girdle Muscular Dystrophy (LGMD1B)=4 and Emery-Dreifuss Muscular Dystrophy (EDMD2)=3. On muscle biopsy, one patient from each laminopathy phenotype (n = 3) revealed focal perivascular inflammatory infiltrate. Other notable features were ophthalmoparesis in one and facial weakness in one. None had cardiac involvement. Patients with EDMD1 had both upper (UL) and lower limb (LL) proximo-distal weakness. Cardiac rhythm disturbances such as sick sinus syndrome and atrial arrhythmias were noted in two patients with EDMD1. Only one patient with variant c.654_658dup (EMD) lost ambulation in the 3rd decade, 18 years after disease onset. Two had finger contractures with EMD and SYNE1 variants respectively. All patients with LMNA and SYNE1 variants were ambulant at the time of evaluation. Mean duration of illness (years) was 11.6±13 (MDCL), 3.2±1.0 (EDMD2), 10.4±12.8 (LGMD1B), 11.8±8.4 (EDMD1) and 3 (EDMD4). One patient had a novel SYNE1 mutation (c.22472dupA, exon 123) and presented with UL phenotype and prominent finger and wrist contractures.

Conclusion: The salient features included ophthalmoparesis and facial weakness in LMNA, prominent finger contractures in EMD and SYNE1 and upper limb phenotype with the novel pathogenic variant in SYNE1.

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印度队列中核包膜相关肌营养不良症的临床和遗传异质性

导言：核包膜病是由于各种核包膜蛋白（如层粘连蛋白A/C和层粘连蛋白相关蛋白）的结构和/或功能缺陷引起的。本研究首次报道了印度核包膜病相关肌营养不良症的表型-基因型模式：在这项回顾性研究中，我们描述了经基因证实与核包膜病变相关的肌肉萎缩症患者。我们收集了有关临床、实验室检查结果和肌肉核磁共振成像的数据：共纳入 16 名患者，发病时的中位年龄为 3 岁（范围：1 个月 - 17 岁）。涉及三个基因：LMNA（11 例，占 68.75%）、EMD（4 例，占 25%）和 SYNE1（1 例，占 6.25%）。这11名LMNA变体患者中，先天性肌营养不良症（MDCL）=4人，肢腰肌营养不良症（LGMD1B）=4人，埃默里-德赖福斯肌营养不良症（EDMD2）=3人。在肌肉活检中，每种板层病表型的一名患者（n = 3）都发现有局灶性血管周围炎症浸润。其他值得注意的特征包括：一名患者眼部瘫痪，一名患者面部无力。没有人累及心脏。EDMD1患者既有上肢（UL）无力，也有下肢（LL）近远端无力。两名 EDMD1 患者出现心律紊乱，如病窦综合征和房性心律失常。只有一名变异型c.654_658dup（EMD）患者在发病18年后的第3个10年失去了行动能力。两名分别患有 EMD 和 SYNE1 变体的患者手指挛缩。所有患有LMNA和SYNE1变异型的患者在接受评估时都能行动自如。平均病程（年）为11.6±13（MDCL）、3.2±1.0（EDMD2）、10.4±12.8（LGMD1B）、11.8±8.4（EDMD1）和3（EDMD4）。其中一名患者存在新型SYNE1突变（c.22472dupA，外显子123），表现为UL表型以及突出的手指和手腕挛缩：结论：LMNA的突出特征包括眼瘫和面部无力，EMD和SYNE1的突出手指挛缩，以及SYNE1新型致病变异的上肢表型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.