Hosoi H, Sugimoto T, Hayashi Y, Inaba T, Horii Y, Morioka H, Fushiki S, Hamazaki M, Sawada T
Department of Pediatrics, Kyoto Prefectural University of Medicine, Japan.
Int J Cancer. 1992 Apr 1;50(6):977-83. doi: 10.1002/ijc.2910500626.
A cell line (SCMC-MM-1) was established from a human abdominal tumor that was initially diagnosed as a malignant mesenchymoma by histological, immunohistochemical and clinical criteria. The cell line was composed of 2 morphologically and immunohistochemically distinct cell types, one with a small polygonal phenotype (P-type), characterized by the immunostaining of vimentin and the presence of a few electron-microscopically visible organelles, and the other with a giant tubular phenotype (T-type), characterized by the immunostaining of desmin, alpha-sarcomeric actin and skeletal-muscle myosin, and the presence of thick and thin myofilaments and Z-line materials. The parental cell line was cloned into 2 sublines, a P-type clone (SCMC-MM-1-19P) and a T-type clone (SCMC-MM-1-1T), which shared both 2q37 and 11p15 translocations, the characteristic chromosomal aberrations for rhabdomyosarcoma, with the parental SCMC-MM-1 cell line. Northern-blot analyses of the myogenic regulatory genes, including MyoD1 and myogenin, demonstrated the expression of MyoD1 in both of these sublines. Myogenin was very weakly expressed in the SCMC-MM-1-19P subline, but strongly expressed in the SCMC-MM-1-1T subline. Chromosomal and myogenic-regulatory-gene analyses revealed that both of these sublines were rhabdomyosarcoma cell lines. Furthermore, the regulatory-gene analyses indicated that these 2 sublines represented 2 distinct differentiation stages of myoblasts, and that MyoD1 and myogenin could serve as the lineage marker and the differentiation marker, respectively, of human rhabdomyosarcoma.
一个细胞系(SCMC-MM-1)源自一名人类腹部肿瘤,该肿瘤最初根据组织学、免疫组织化学和临床标准被诊断为恶性间叶瘤。该细胞系由两种形态学和免疫组织化学上不同的细胞类型组成,一种具有小多边形表型(P型),其特征是波形蛋白免疫染色以及存在一些电子显微镜可见的细胞器;另一种具有巨大管状表型(T型),其特征是结蛋白、α-肌动蛋白和骨骼肌肌球蛋白免疫染色,以及存在粗细肌丝和Z线物质。亲代细胞系被克隆成两个亚系,一个P型克隆(SCMC-MM-1-19P)和一个T型克隆(SCMC-MM-1-1T),它们与亲代SCMC-MM-1细胞系共享2q37和11p15易位,这是横纹肌肉瘤的特征性染色体畸变。对包括MyoD1和肌细胞生成素在内的成肌调节基因进行的Northern印迹分析表明,这两个亚系中均有MyoD1表达。肌细胞生成素在SCMC-MM-1-19P亚系中表达非常微弱,但在SCMC-MM-1-1T亚系中强烈表达。染色体和成肌调节基因分析表明,这两个亚系均为横纹肌肉瘤细胞系。此外,调节基因分析表明,这两个亚系代表了成肌细胞的两个不同分化阶段,并且MyoD1和肌细胞生成素可分别作为人类横纹肌肉瘤的谱系标志物和分化标志物。