Nakamoto K, Ito A, Watabe K, Koma Y, Asada H, Yoshikawa K, Shinomura Y, Matsuzawa Y, Nojima H, Kitamura Y
Department of Molecular Genetics, Research Institute for Microbial Diseases, Osaka University, Suita, Osaka, Japan.
Am J Pathol. 2001 Oct;159(4):1363-74. doi: 10.1016/s0002-9440(10)62523-0.
F10 and BL6 cells of B16 mouse melanoma cells are metastatic after intravenous injection, but only BL6 cells can metastasize to lungs after subcutaneous injection. Differences in gene expression between the two cell lines were examined, and a greater expression of the Sik-similar protein (Sik-SP) gene was found in BL6 cells. Structurally, Sik-SP belongs to the nucleolar Nop5/Sik family whose members play central roles in ribosome biogenesis; however, the function of Sik-SP has not been examined. Cytology with green fluorescent protein-fused proteins showed that Sik-SP was localized to the nucleolus. To examine whether Sik-SP is involved in ribosome biogenesis, two parameters were measured: magnitude of ribosomal RNA synthesis per nucleus and magnitude of protein production from the same amount of mRNA of an exogenous luciferase gene. Both values and, in addition, nucleolar size were larger in COS-7 monkey kidney cells overexpressing Sik-SP and BL6 cells than in mock-transfected COS-7 and F10 cells, respectively. Sik-SP seemed to promote ribosome biogenesis in the nucleolus. Furthermore, the expression of Sik-SP seemed to confer a greater cell growth response to serum, because such a response was greater in BL6 cells and F10 cells overexpressing Sik-SP than in untreated and mock-transfected F10 cells. Sik-SP may render melanoma cells more competent to survive through augmenting the activity of nucleolus.
B16小鼠黑色素瘤细胞系中的F10和BL6细胞经静脉注射后具有转移能力,但只有BL6细胞在皮下注射后能转移至肺部。研究了这两种细胞系之间的基因表达差异,发现BL6细胞中Sik相似蛋白(Sik-SP)基因的表达更高。从结构上看,Sik-SP属于核仁Nop5/Sik家族,其成员在核糖体生物合成中起核心作用;然而,Sik-SP的功能尚未得到研究。利用绿色荧光蛋白融合蛋白进行的细胞学研究表明,Sik-SP定位于核仁。为了研究Sik-SP是否参与核糖体生物合成,测量了两个参数:每个细胞核的核糖体RNA合成量以及来自相同量外源荧光素酶基因mRNA的蛋白质产生量。过表达Sik-SP的COS-7猴肾细胞和BL6细胞中的这两个值以及核仁大小分别比mock转染的COS-7细胞和F10细胞中的更大。Sik-SP似乎在核仁中促进核糖体生物合成。此外,Sik-SP的表达似乎赋予细胞对血清更大的生长反应,因为过表达Sik-SP的BL6细胞和F10细胞中的这种反应比未处理和mock转染的F10细胞中的更大。Sik-SP可能通过增强核仁活性使黑色素瘤细胞更有能力存活。