Zimmer D B, Cornwall E H, Reynolds P D, Donald C M
Department of Pharmacology, School of Medicine, University of South Alabama, Mobile, Alabama 36688, USA.
J Biol Chem. 1998 Feb 20;273(8):4705-11. doi: 10.1074/jbc.273.8.4705.
As a first step in determining what cellular processes are regulated by the calcium-modulated protein S100A1 isoform in neurons, the effects of ablated S100A1 expression on neurite organization and microtubule/tubulin levels in PC12 cells were examined. A mammalian expression vector containing the rat S100A1 cDNA in the antisense orientation with respect to a cytomegalovirus promoter was constructed and transfected into PC12 cells. Indirect immunofluorescence microscopy confirmed decreased S100A1 protein levels in all three stable transfectants (pAntisense clones) that expressed exogenous S100A1 antisense mRNA. In response to nerve growth factor, pAntisense clones extended significantly more neurites than control cells (4.01 +/- 0.16 versus 2.93 +/- 0.16 neurites/cell). This increase in neurite number was accompanied by an increase in total alpha-tubulin levels in untreated (4.0 +/- 0.6 versus 1.76 +/- 0.4 ng of alpha-tubulin/mg of total protein) and nerve growth factor-treated pAntisense clones (4.15 +/- 0.4 versus 2. 04 +/- 0.5 ng of alpha-tubulin/mg of total protein) when compared with control cells. At high cell densities, pAntisense clones exhibited a significant decrease in anchorage-dependent growth. In soft agar, pAntisense clones formed significantly more colonies (153 +/- 8%) than control cells (116 +/- 5%). However, the pAntisense soft agar colonies were significantly smaller than those observed in control cells (40.6 +/- 3.0 versus 59.5 +/- 1.2 micron). These data suggest that cell density inhibits both anchorage-independent and -dependent growth of pAntisense clones. In summary, ablation of S100A1 expression in PC12 cells results in increased tubulin levels, altered neurite organization, and decreased cell growth. Thus, S100A1 may directly link the cytoskeleton and calcium signal transduction pathways to cell proliferation.
作为确定钙调节蛋白S100A1亚型在神经元中调控哪些细胞过程的第一步,研究了PC12细胞中S100A1表达缺失对神经突组织和微管/微管蛋白水平的影响。构建了一个哺乳动物表达载体,其中大鼠S100A1 cDNA相对于巨细胞病毒启动子呈反义方向,并将其转染到PC12细胞中。间接免疫荧光显微镜证实,在所有三个表达外源性S100A1反义mRNA的稳定转染子(p反义克隆)中,S100A1蛋白水平降低。响应神经生长因子时,p反义克隆比对照细胞长出更多的神经突(4.01±0.16对2.93±0.16个神经突/细胞)。神经突数量的增加伴随着未处理的(4.0±0.6对1.76±0.4 ngα-微管蛋白/毫克总蛋白)和经神经生长因子处理的p反义克隆中总α-微管蛋白水平的增加(4.15±0.4对2.04±0.5 ngα-微管蛋白/毫克总蛋白),与对照细胞相比。在高细胞密度下,p反义克隆的锚定依赖性生长显著降低。在软琼脂中,p反义克隆形成的集落明显多于对照细胞(153±8%对116±5%)。然而,p反义软琼脂集落明显小于对照细胞中的集落(40.6±3.0对59.5±1.2微米)。这些数据表明细胞密度抑制了p反义克隆的非锚定依赖性和锚定依赖性生长。总之,PC12细胞中S100A1表达的缺失导致微管蛋白水平升高、神经突组织改变和细胞生长减少。因此,S100A1可能直接将细胞骨架和钙信号转导途径与细胞增殖联系起来。
