Lu Y J, Williamson D, Clark J, Wang R, Tiffin N, Skelton L, Gordon T, Williams R, Allan B, Jackman A, Cooper C, Pritchard-Jones K, Shipley J
Molecular Cytogenetics, Institute of Cancer Research, Sutton, Surrey SM2 5NG, United Kingdom.
Proc Natl Acad Sci U S A. 2001 Jul 31;98(16):9197-202. doi: 10.1073/pnas.161272798.
Altered expression of genes can have phenotypic consequences in cancer development and treatment, developmental abnormalities, and differentiation processes. Here we describe a rapid approach, termed comparative expressed sequence hybridization (CESH), which gives a genome-wide view of relative expression patterns within tissues according to chromosomal location. No prior knowledge of genes or cloning is required, and minimal amounts of tissue can be used. Expression profiles are achieved in a manner similar to the identification of chromosomal imbalances by comparative genomic hybridization analysis. The approach is demonstrated to indicate a chromosomal region that harbors overexpressed genes that may be associated with a drug-resistant phenotype. In addition, known and new regions of differential gene expression in both normal tissues and tumor samples from the soft tissue sarcoma group of rhabdomyosarcoma (RMS) are indicated. These regions included 2p24; overexpression of MYCN at 2p24 was confirmed by quantitative reverse transcription-PCR for all of the alveolar RMS cases and did not necessarily correspond to genomic amplification. Evidence including region specific microarray analysis indicated that overexpression of several genes from a region may be required for detection by CESH. This evidence is consistent with clusters of functionally related genes and mechanisms that affect the expression of a number of genes at a particular genomic location. The distinctive CESH profiles demonstrated in different subtypes of RMS show potential for tumor classification.
基因表达的改变在癌症发展与治疗、发育异常以及分化过程中会产生表型后果。在此,我们描述了一种快速方法,称为比较表达序列杂交(CESH),它能根据染色体定位给出组织内相对表达模式的全基因组视图。无需事先了解基因或进行克隆,并且可以使用极少量的组织。表达谱的获取方式类似于通过比较基因组杂交分析来识别染色体失衡。该方法被证明可指示一个含有可能与耐药表型相关的过表达基因的染色体区域。此外,还指出了横纹肌肉瘤(RMS)软组织肉瘤组正常组织和肿瘤样本中已知和新的差异基因表达区域。这些区域包括2p24;通过定量逆转录 - PCR对所有肺泡型RMS病例证实了2p24处MYCN的过表达,且不一定与基因组扩增相对应。包括区域特异性微阵列分析在内的证据表明,CESH检测可能需要一个区域中多个基因的过表达。这一证据与功能相关基因簇以及影响特定基因组位置多个基因表达的机制一致。在不同RMS亚型中展示的独特CESH谱显示出肿瘤分类的潜力。