Nicassio Francesco, Bianchi Fabrizio, Capra Maria, Vecchi Manuela, Confalonieri Stefano, Bianchi Marco, Pajalunga Deborah, Crescenzi Marco, Bonapace Ian Marc, Di Fiore Pier Paolo
IFOM, Istituto Fondazione Italiana per la Ricerca sul Cancro di Oncologia Molecolare, Milan, Italy.
J Clin Invest. 2005 Nov;115(11):3015-25. doi: 10.1172/JCI24862. Epub 2005 Oct 13.
The molecular anatomy of cancer cells is being explored through unbiased approaches aimed at the identification of cancer-specific transcriptional signatures. An alternative biased approach is exploitation of molecular tools capable of inducing cellular transformation. Transcriptional signatures thus identified can be readily validated in real cancers and more easily reverse-engineered into signaling pathways, given preexisting molecular knowledge. We exploited the ability of the adenovirus early region 1 A protein (E1A) oncogene to force the reentry into the cell cycle of terminally differentiated cells in order to identify and characterize genes whose expression is upregulated in this process. A subset of these genes was activated through a retinoblastoma protein/E2 viral promoter required factor-independent (pRb/E2F-independent) mechanism and was overexpressed in a fraction of human cancers. Furthermore, this overexpression correlated with tumor progression in colon cancer, and 2 of these genes predicted unfavorable prognosis in breast cancer. A proof of principle biological validation was performed on one of the genes of the signature, skeletal muscle cell reentry-induced (SKIN) gene, a previously undescribed gene. SKIN was found overexpressed in some primary tumors and tumor cell lines and was amplified in a fraction of colon adenocarcinomas. Furthermore, knockdown of SKIN caused selective growth suppression in overexpressing tumor cell lines but not in tumor lines expressing physiological levels of the transcript. Thus, SKIN is a candidate oncogene in human cancer.
通过旨在识别癌症特异性转录特征的无偏倚方法,正在探索癌细胞的分子解剖结构。另一种有偏倚的方法是利用能够诱导细胞转化的分子工具。鉴于已有的分子知识,这样鉴定出的转录特征可以很容易地在实际癌症中得到验证,并且更容易反向工程到信号通路中。我们利用腺病毒早期区域1A蛋白(E1A)癌基因迫使终末分化细胞重新进入细胞周期的能力,以识别和表征在此过程中表达上调的基因。这些基因的一个子集是通过视网膜母细胞瘤蛋白/E2病毒启动子所需因子非依赖性(pRb/E2F非依赖性)机制激活的,并且在一部分人类癌症中过表达。此外,这种过表达与结肠癌的肿瘤进展相关,其中2个基因预测乳腺癌预后不良。对该特征的一个基因,即骨骼肌细胞重新进入诱导(SKIN)基因(一个先前未描述的基因)进行了原理验证生物学验证。发现SKIN在一些原发性肿瘤和肿瘤细胞系中过表达,并且在一部分结肠腺癌中扩增。此外,敲低SKIN在过表达的肿瘤细胞系中导致选择性生长抑制,但在表达该转录本生理水平的肿瘤系中则不然。因此,SKIN是人类癌症中的一个候选癌基因。