Clinical, pathological, and genetic mutation analysis of sporadic inclusion body myositis in Japanese people

错义突变 生物 遗传学 结蛋白 肌病 外显子 包涵体肌炎 突变 基因 表型 病理 肌炎 免疫组织化学 医学 解剖 免疫学 波形蛋白
作者
Huaying Cai,Ichiro Yabe,Kazunori Sato,Takahiro Kano,Masakazu Nakamura,Hideki Hozen,Hidenao Sasaki
出处
期刊:Journal of Neurology [Springer Science+Business Media]
卷期号:259 (9): 1913-1922 被引量:24
标识
DOI:10.1007/s00415-012-6439-0
摘要

Previous studies have identified several genetic loci associated with the development of familial inclusion body myopathy. However, there have been few genetic analyses of sporadic inclusion body myositis (sIBM). In order to explore the molecular basis of sIBM and to investigate genotype-phenotype correlations, we performed a clinicopathological analysis of 21 sIBM patients and screened for mutations in the Desmin, GNE, MYHC2A, VCP, and ZASP genes. All coding exons of the five genes were sequenced directly. Definite IBM was confirmed in 14 cases, probable IBM in three cases, and possible IBM in four cases. No cases showed missense mutations in the Desmin, GNE, or VCP genes. Three patients carried the missense mutation c.2542T>C (p.V805A) in the MYHC2A gene; immunohistochemical staining for MYHC isoforms in these three cases showed atrophy or loss of muscle fibers expressing MYHC IIa or IIx. One patient harbored the missense mutation c.1719G>A (p.V566M) in the ZASP gene; immunohistochemical studies of Z-band-associated proteins revealed Z-band abnormalities. Both of the novel heterogeneous mutations were located in highly evolutionarily conserved domains of their respective genes. Cumulatively, these findings have expanded our understanding of the molecular background of sIBM. However, we advocate further clinicopathology and investigation of additional candidate genes in a larger cohort.

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