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首页> 美国卫生研究院文献>Oncogenesis >Comparative analysis of SV40 17kT and LT function in vivo demonstrates that LTs C-terminus re-programs hepatic gene expression and is necessary for tumorigenesis in the liver
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Comparative analysis of SV40 17kT and LT function in vivo demonstrates that LTs C-terminus re-programs hepatic gene expression and is necessary for tumorigenesis in the liver

机译:体内SV40 17kT和LT功能的比较分析表明LT的C末端可重新编程肝基因表达并且对于肝脏中的肿瘤发生是必需的

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Transformation by Simian Virus 40 (SV40) large T antigen (LT) is mediated in large part by its interaction with a variety of cellular proteins at distinct binding domains within LT. While the interaction of LT's N-terminus with the tumor suppressor Rb is absolutely required for LT-dependent transformation, the requirement for the interaction of LT's C-terminus with p53 is less clear and cell- and context-dependent. Here, we report a line of transgenic mice expressing a doxycycline-inducible liver-specific viral transcript that produces abundant 17kT, a naturally occurring SV40 early product that is co-linear with LT for the first 131 amino acids and that binds to Rb, but not p53. Comparative analysis of livers of transgenic mice expressing either 17kT or full length LT demonstrates that 17kT stimulates cell proliferation and induces hepatic hyperplasia but is incapable of inducing hepatic dysplasia or promoting hepatocarcinogenesis. Gene expression profiling demonstrates that 17kT and LT invoke a set of shared molecular signatures consistent with the action of LT's N-terminus on Rb-E2F-mediated control of hepatocyte transcription. However, 17kT also induces a unique set of genes, many of which are known transcriptional targets of p53, while LT actively suppresses them. LT also uniquely deregulates the expression of a subset of genes within the imprinted network and rapidly re-programs hepatocyte gene expression to a more fetal-like state. Finally, we provide evidence that the LT/p53 complex provides a gain-of-function for LT-dependent transformation in the liver, and confirm the absolute requirement for LT's C-terminus for liver tumor development by demonstrating that phosphatase and tensin homolog (PTEN)-deficiency readily cooperates with LT, but not 17kT, for tumorigenesis. These results confirm independent and inter-dependent functions for LT's N- and C-terminus and emphasize differences in the requirements for LT's C-terminus in cell-type dependent transformation.
机译:猿猴病毒40(SV40)大T抗原(LT)的转化在很大程度上是由于其与LT内不同结合域的多种细胞蛋白相互作用而介导的。 LT依赖型转化绝对需要LT的N末端与肿瘤抑制因子Rb相互作用,而LT的C末端与p53相互作用的要求则不太明确,并且与细胞和环境无关。在这里,我们报告了一系列表达强力霉素诱导的肝特异性病毒转录物的转基因小鼠,该转录物产生丰富的17kT,这是天然存在的SV40早期产物,与LT共线性的前131个氨基酸与Rb结合,但是不是p53。表达17kT或全长LT的转基因小鼠肝脏的比较分析表明17kT刺激细胞增殖并诱导肝增生,但不能诱导肝发育异常或促进肝癌发生。基因表达谱分析表明17kT和LT调用了一组共享的分子标记,这些标记与LT Nb对Rb-E2F介导的肝细胞转录控制的作用一致。然而,17kT还诱导了一组独特的基因,其中许多是已知的p53转录靶标,而LT则主动抑制了它们。 LT还可以独特地解除印迹网络中基因子集的表达,并迅速将肝细胞基因表达重新编程为更像胎儿的状态。最后,我们提供证据表明LT / p53复合物为肝脏中依赖LT的转化提供了功能增强,并通过证明磷酸酶和张力蛋白同源物(PTEN)证实了LT C末端对于肝脏肿瘤发展的绝对需求。 )缺陷容易与LT协同作用,但不能与17kT协同作用以进行肿瘤发生。这些结果证实了LT N和C末端具有独立和相互依赖的功能,并强调了LT C末端在细胞类型依赖性转化中的需求差异。

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