FHL1 型肌营养不良症中的皱缩体和肌原纤维肌病特征。

Reducing bodies and myofibrillar myopathy features in FHL1 muscular dystrophy.

机构信息

Department of Neurology and Neuromuscular Research Laboratory, Mayo Clinic, Rochester, MN 55905, USA.

出版信息

Neurology. 2011 Nov 29;77(22):1951-9. doi: 10.1212/WNL.0b013e31823a0ebe. Epub 2011 Nov 16.

DOI:10.1212/WNL.0b013e31823a0ebe

PMID:22094483

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3235356/

Abstract

OBJECTIVE

Some pathologic features of the FHL1 myopathies and the myofibrillar myopathies (MFMs) overlap; we therefore searched for mutations in FHL1 in our cohort of 50 patients with genetically undiagnosed MFM.

METHODS

Mutations in FHL1 were identified by direct sequencing. Polymorphisms were excluded by using allele-specific PCR in 200 control subjects. Structural changes in muscle were analyzed by histochemistry, immunocytochemistry, and electron microscopy.

RESULTS

We detected 2 novel and 1 previously identified missense mutation in 5 patients. Patients 1-4 presented before age 30, display menadione-nitro blue tetrazolium-positive reducing bodies, and harbor mutations in the FHL1 LIM2 domain. Patient 5 presented at age 75 and has no reducing bodies, and his mutation is not in a LIM domain. The clinical features include progressive muscle weakness, hypertrophied muscles, rigid spine, and joint contractures, and 1 patient also has peripheral neuropathy. High-resolution electron microscopy reveals the reducing bodies composed of 13-nm tubulofilaments initially emanating from Z-disks. At a more advanced stage, abundant reducing bodies appear in the cytoplasm and nuclei with concomitant myofibrillar disintegration, accumulation of cytoplasmic degradation products, and aggregation of endoplasmic reticulum and sarcotubular profiles.

CONCLUSIONS

FHL1 dystrophies can be associated with MFM pathology. Mutations in the LIM2 domain are associated with reducing bodies composed of distinct tubulofilaments. A mutation extraneous to LIM domains resulted in a mild late-onset phenotype with MFM pathology but no reducing bodies.

摘要

目的

FHL1 肌病和肌原纤维肌病（MFMs）的一些病理特征存在重叠；因此，我们在 50 名遗传上未确诊的 MFMs 患者的队列中寻找 FHL1 突变。

方法

通过直接测序鉴定 FHL1 突变。在 200 名对照中，使用等位基因特异性 PCR 排除多态性。通过组织化学、免疫细胞化学和电子显微镜分析肌肉的结构变化。

结果

我们在 5 名患者中发现了 2 个新的和 1 个先前确定的错义突变。患者 1-4 在 30 岁之前发病，显示 menadione-nitro blue tetrazolium 阳性还原体，并携带 FHL1 LIM2 结构域的突变。患者 5 在 75 岁时发病，没有还原体，他的突变不在 LIM 结构域中。临床特征包括进行性肌肉无力、肥大的肌肉、僵硬的脊柱和关节挛缩，1 名患者还有周围神经病。高分辨率电子显微镜显示，还原体最初由 Z 盘发出的 13nm 管状细丝组成。在更晚期，细胞质和核中出现大量还原体，同时伴有肌原纤维解体、细胞质降解产物堆积以及内质网和肌浆管聚集。

结论

FHL1 营养不良症可与 MFMs 病理学相关。LIM2 结构域的突变与由独特管状细丝组成的还原体相关。位于 LIM 结构域外的突变导致具有 MFMs 病理学但没有还原体的轻度迟发性表型。

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