Analysis of mechanisms and frequency of CDKN2A/B gene loss during progression of RAS-transformed rat embryo fibroblast clones.

J N Zhou, J Hashemi, K Helou, A Zhang, D Röhme, A Zetterberg, G Levan, S Linder
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引用次数: 3

Abstract

Rat embryo fibroblasts (REFs) are inefficiently transformed by RAS-oncogenes. Induction of p16INK4A expression by RAS has been suggested to contribute to this resistance. Glucocorticoid hormones, (DEX), enhance REF transformation by RAS and facilitates the isolation of transformed and immortal cell lines. We show that DEX induced cell proliferation is paralleled by a decrease in Cdkn2a gene transcripts, suggesting a mechanism for hormone promotion. The mechanisms of progression into hormone independent cell lines were examined. Twenty-two of 30 clones which reached a population size of approximately 10(6) cells could be established as cell lines. All lines studied showed homozygous deletions of the Cdkn2 loci (Cdkn2a and Cdkn2b) on RNO5. LOH was found for all RNO5 genetic markers examined in 7 of 19 cell lines, suggesting non-disjunction events. In the remaining 12 cell lines, both copies of Cdkn2 appeared to be lost by deletions/rearrangements, some of which could by demonstrated by karyotype analysis. We conclude that (i) clonal expansion of RAS-transfected REF by DEX is paralleled by down-regulation of Cdkn2a expression; (ii) homozygous deletion of Cdkn2 were estimated to occur at a frequency of 2 x 10(-8)/cell/generation or higher, and (iii) deletion/rearrangements and nondisjunction appear to be the main mechanisms leading to deletion of Cdkn2.

ras转化大鼠胚胎成纤维细胞克隆过程中CDKN2A/B基因丢失的机制和频率分析。
ras癌基因对大鼠胚胎成纤维细胞(REFs)的转化效率不高。RAS诱导p16INK4A表达被认为有助于这种抗性。糖皮质激素(DEX)增强RAS对REF的转化,促进转化细胞系和永生细胞系的分离。我们发现,DEX诱导的细胞增殖与Cdkn2a基因转录物的减少是平行的,这表明了激素促进的机制。研究了向激素不依赖型细胞系发展的机制。在达到10(6)个细胞的群体大小的30个克隆中,有22个可以建立细胞系。所有研究的细胞系均显示RNO5上Cdkn2位点(Cdkn2a和Cdkn2b)的纯合缺失。在19个细胞系中,有7个细胞系检测的所有RNO5遗传标记均发现LOH,表明未发生分离事件。在其余12个细胞系中,Cdkn2的两个拷贝似乎都因缺失/重排而丢失,其中一些可以通过核型分析证明。我们得出结论:(i) DEX对ras转染的REF的克隆扩增与Cdkn2a表达的下调是平行的;(ii) Cdkn2的纯合缺失估计发生频率为2 × 10(-8)/细胞/代或更高,(iii)缺失/重排和不分离似乎是导致Cdkn2缺失的主要机制。
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