用于肢带型肌营养不良症和其他肌病的一线诊断检测方法。
A first-line diagnostic assay for limb-girdle muscular dystrophy and other myopathies.
作者信息
Monies Dorota, Alhindi Hindi N, Almuhaizea Mohamed A, Abouelhoda Mohamed, Alazami Anas M, Goljan Ewa, Alyounes Banan, Jaroudi Dyala, AlIssa Abdulelah, Alabdulrahman Khalid, Subhani Shazia, El-Kalioby Mohamed, Faquih Tariq, Wakil Salma M, Altassan Nada A, Meyer Brian F, Bohlega Saeed
机构信息
Department of Genetics, Research Centre, King Faisal Specialist Hospital and Research Centre, PO Box 3354, Riyadh, 11211, Kingdom of Saudi Arabia.
Saudi Human Genome Program, King Abdulaziz City for Science and Technology, Riyadh, Saudi Arabia.
出版信息
Hum Genomics. 2016 Sep 27;10(1):32. doi: 10.1186/s40246-016-0089-8.
BACKGROUND
Fifty random genetically unstudied families (limb-girdle muscular dystrophy (LGMD)/myopathy) were screened with a gene panel incorporating 759 OMIM genes associated with neurological disorders. Average coverage of the CDS and 10 bp flanking regions of genes was 99 %. All families were referred to the Neurosciences Clinic of King Faisal Specialist Hospital and Research Centre, Saudi Arabia. Patients presented with muscle weakness affecting the pelvic and shoulder girdle. Muscle biopsy in all cases showed dystrophic or myopathic changes. Our main objective was to evaluate a neurological gene panel as a first-line diagnostic test for LGMD/myopathies.
RESULTS
Our panel identified the mutation in 76 % of families (38/50; 11 novel). Thirty-four families had mutations in LGMD-related genes with four others having variants not typically associated with LGMD. The majority of cases had recessive inheritance with homoallelic pathogenic variants (97.4 %, 37/38), as expected considering the high rate of consanguinity in the study population. In one case, we detected a heterozygous mutation in DNAJB responsible for LGMD-1E. Our cohort included seven different subtypes of LGMD2. Mutations of DYSF were the most commonly identified cause of disease followed by that in CAPN3 and FKRP. Non-LGMD myopathies were due to mutations in genes associated with congenital disorder of glycosylation (ALG2), rigid spine muscular dystrophy 1 (SEPN1), inclusion body myopathy2/Nonaka myopathy (GNE), and neuropathy (WNK1). Whole exome sequencing (WES) of patients who remained undiagnosed with the neurological panel did not improve our diagnostic yield.
CONCLUSIONS
Our neurological panel achieved a high clinical sensitivity (76 %) and is an effective first-line laboratory test in patients with LGMD and other myopathies. This sensitive, cost-effective, and rapid assay significantly assists clinical practice especially in these phenotypically and genetically heterogeneous disorders. Moreover, the application of the American College of Medical Genetics (ACMG) and Association for Molecular Pathology (AMP) guidelines applied in the classification of variant pathogenecity provides a clear interpretation for physicians on the relevance of such findings.
背景
对50个未经基因研究的随机家庭(肢带型肌营养不良症(LGMD)/肌病)进行了筛查,使用了一个包含759个与神经系统疾病相关的OMIM基因的基因检测板。基因编码区(CDS)和10bp侧翼区域的平均覆盖率为99%。所有家庭均转诊至沙特阿拉伯法赫德国王专科医院和研究中心的神经科学诊所。患者表现为影响骨盆和肩胛带的肌肉无力。所有病例的肌肉活检均显示营养不良或肌病改变。我们的主要目的是评估一种神经学基因检测板作为LGMD/肌病的一线诊断测试。
结果
我们的检测板在76%的家庭(38/50;11个为新发现)中鉴定出了突变。34个家庭在LGMD相关基因中有突变,另外4个家庭有通常与LGMD无关的变异。考虑到研究人群中近亲结婚率较高,大多数病例为隐性遗传,具有纯合等位基因致病性变异(97.4%,37/38)。在1例病例中,我们在负责LGMD-1E的DNAJB中检测到杂合突变。我们的队列包括LGMD2的7种不同亚型。DYSF突变是最常见的致病原因,其次是CAPN3和FKRP中的突变。非LGMD肌病是由于与糖基化先天性疾病相关的基因(ALG2)、刚性脊柱肌营养不良1(SEPN1)、包涵体肌病2/野中肌病(GNE)和神经病(WNK1)中的突变所致。使用神经学检测板仍未确诊的患者进行全外显子测序(WES)并未提高我们的诊断率。
结论
我们的神经学检测板具有较高的临床敏感性(76%),是LGMD和其他肌病患者有效的一线实验室检测。这种敏感、经济高效且快速的检测方法对临床实践有显著帮助,尤其是在这些表型和基因异质性疾病中。此外,应用美国医学遗传学学会(ACMG)和分子病理学协会(AMP)的指南对变异致病性进行分类,为医生提供了关于此类发现相关性的清晰解释。
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