Nutlin-3对p53-Mdm2复合物的破坏揭示了不同的癌细胞表型。
Disruption of the p53-Mdm2 complex by Nutlin-3 reveals different cancer cell phenotypes.
作者信息
Arva Nicoleta C, Talbott Kathryn E, Okoro Danielle R, Brekman Angelika, Qiu Wei Gang, Bargonetti Jill
机构信息
Center for the Study of Gene Structure and Function and Department of Biological Sciences, Hunter College, New York, New York, USA.
出版信息
Ethn Dis. 2008 Spring;18(2 Suppl 2):S2-1-8.
INTRODUCTION
Mdm2 inhibits p53 transactivation by forming a p53-Mdm2 complex on chromatin. Upon DNA damage-induced complex disruption, such latent p53 can be activated, but in cells overexpressing Mdm2 because of a homozygous single nucleotide polymorphism at position 309 (T --> G) of mdm2, the complex is highly stable and cannot be disrupted by DNA damage, rendering p53 inactive.
METHODS
To determine whether the p53 response phenotype is influenced differentially in cells with variable mdm2 genotypes, we compared responses to DNA damage and targeted p53-Mdm2 complex disruption by Nutlin-3 in the following wild-type p53 human cancer cell lines: A875 and CCF-STTG-1 (G/G for mdm2 SNP309), SJSA-1 (mdm2 genomic amplification and T/T for mdm2 SNP309), MCF-7 (estrogen-induced Mdm2 overexpression and T/G for mdm2 SNP309), ML-1 and H460 (T/T for mdm2 SNP309), and K562 (p53-null and T/G for mdm2 SNP309). We also examined mdm2 gene-splicing patterns in these lines by cloning and sequencing analyses.
RESULTS
While Mdm2-overexpressing G/G cells were resistant to p53 activation by DNA damage, they were sensitive to Nutlin-3. Strikingly, the p53 G1 checkpoint in G/G cells was activated by Nutlin-3 but not by etoposide, whereas in other Mdm2-overexpressing cells, both drugs activated p53 and subsequent G1 arrest or apoptosis. cDNA clones lacking exons 5-9 were generated at a high frequency in cells overexpressing Mdm2.
CONCLUSION
Nutlin-3 and DNA damage distinguish a differential phenotype in human cancer cells with G/G mdm2 SNP309 from other Mdm2 overexpressers. Categorization of the Mdm2 isoforms produced and their influence on p53 activity will help in characterization and treatment development for different cancers.
引言
Mdm2 通过在染色质上形成 p53-Mdm2 复合物来抑制 p53 的反式激活。在 DNA 损伤诱导复合物解离后,这种潜在的 p53 可被激活,但在因 mdm2 基因第 309 位(T→G)纯合单核苷酸多态性而过度表达 Mdm2 的细胞中,该复合物高度稳定,不能被 DNA 损伤解离,导致 p53 失活。
方法
为了确定在具有不同 mdm2 基因型的细胞中 p53 反应表型是否受到不同影响,我们比较了以下野生型 p53 人类癌细胞系对 DNA 损伤的反应以及 Nutlin-3 对 p53-Mdm2 复合物的靶向解离作用:A875 和 CCF-STTG-1(mdm2 SNP309 为 G/G)、SJSA-1(mdm2 基因扩增且 mdm2 SNP309 为 T/T)、MCF-7(雌激素诱导 Mdm2 过表达且 mdm2 SNP309 为 T/G)、ML-1 和 H460(mdm2 SNP309 为 T/T)以及 K562(p53 缺失且 mdm2 SNP309 为 T/G)。我们还通过克隆和测序分析检查了这些细胞系中 mdm2 基因的剪接模式。
结果
虽然过度表达 Mdm2 的 G/G 细胞对 DNA 损伤诱导的 p53 激活具有抗性,但它们对 Nutlin-3 敏感。引人注目的是,G/G 细胞中的 p53 G1 检查点被 Nutlin-3 激活,但未被依托泊苷激活,而在其他过度表达 Mdm2 的细胞中,这两种药物均激活 p53 并随后导致 G1 期阻滞或凋亡。在过度表达 Mdm2 的细胞中,高频产生了缺失外显子 5 - 9 的 cDNA 克隆。
结论
Nutlin-3 和 DNA 损伤在具有 G/G mdm2 SNP309 的人类癌细胞中与其他过度表达 Mdm2 的细胞表现出不同的表型。对产生的 Mdm2 异构体进行分类及其对 p53 活性的影响将有助于不同癌症的特征描述和治疗开发。
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