Wainwright L J, Lasorella A, Iavarone A
Department of Neurology, Developmental and Molecular Biology and Comprehensive Cancer Center, Albert Einstein College of Medicine, Bronx, NY 10461, USA.
Proc Natl Acad Sci U S A. 2001 Jul 31;98(16):9396-400. doi: 10.1073/pnas.161288698.
Retinoic acid (RA) induces cell cycle arrest and differentiation of human neuroblastoma (NB) cells. Typically, NB cells differentiate along the neuronal lineage, but quiescent, "flat" cell types frequently have been described after treatment with differentiating agents. Two indistinguishable subclones of the cell line SK-N-SH, SK-N-SH-N (SH-N) and SK-N-SH-F (SH-F), display dramatically different responses to RA. In SH-N, RA induces neuronal differentiation, but in SH-F it transforms the small neuroblastic cells into large, flattened, epithelium-like cells. Here we analyze the mechanistic basis for the different effects of RA in the two NB subclones. First, we show that the flattened RA-treated SH-F expresses markers of cells undergoing replicative senescence. Inhibition of DNA synthesis by RA is significantly more rapid in SH-F than in SH-N. SH-F, which expresses basal amounts of p16(INK4A), responds to RA with elevation of p18(INK4C), marked down-regulation of cyclin D1, and swift inhibition of cyclin D-dependent kinases (cdks). Conversely, after addition of RA, SH-N retains cell cycling due to high expression of cyclin D1, the absence of Ink4 inhibitors, and accumulation of p21(Cip1). These changes result in sustained cdk activity. Accordingly, overexpression of p21(Cip1) but not p16(INK4A) induces neuronal differentiation of untreated NB cells. We propose that rapid inhibition of cdks by RA in NB leads to early cell cycle arrest, prevents neuronal differentiation, and results in a senescence-like state.
维甲酸(RA)可诱导人神经母细胞瘤(NB)细胞的细胞周期停滞和分化。通常情况下,NB细胞沿神经元谱系分化,但在用分化剂处理后,经常会出现静止的“扁平”细胞类型。细胞系SK-N-SH的两个难以区分的亚克隆,即SK-N-SH-N(SH-N)和SK-N-SH-F(SH-F),对RA表现出截然不同的反应。在SH-N中,RA诱导神经元分化,但在SH-F中,它将小的成神经细胞转化为大的、扁平的、上皮样细胞。在此,我们分析了RA在这两个NB亚克隆中产生不同作用的机制基础。首先,我们发现经RA处理后扁平的SH-F表达经历复制性衰老细胞的标志物。RA对DNA合成的抑制在SH-F中比在SH-N中显著更快。表达基础量p16(INK4A)的SH-F对RA的反应是p18(INK4C)升高、细胞周期蛋白D1显著下调以及细胞周期蛋白D依赖性激酶(cdk)迅速受到抑制。相反,添加RA后,SH-N由于细胞周期蛋白D1的高表达、Ink4抑制剂的缺失以及p21(Cip1)的积累而保持细胞周期运转。这些变化导致cdk活性持续存在。因此,p21(Cip1)而非p16(INK4A)的过表达可诱导未处理的NB细胞发生神经元分化。我们提出,RA在NB中对cdk的快速抑制导致早期细胞周期停滞,阻止神经元分化,并导致类似衰老的状态。