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RB与细胞周期蛋白依赖性激酶通路:明确肺癌中RB缺失与p16缺失的区别

RB and cyclin dependent kinase pathways: defining a distinction between RB and p16 loss in lung cancer.

作者信息

Kaye Frederic J

机构信息

Genetics Branch, Center for Cancer Research, NCI, NIH and National Naval Medical Center, Bethesda, Maryland 20889, USA.

出版信息

Oncogene. 2002 Oct 7;21(45):6908-14. doi: 10.1038/sj.onc.1205834.

Abstract

The genetic components of the RB:CDK:cyclin:p16 tumor suppressor pathway undergo mutational and epigenetic alterations in a wide range of human cancers and serve as critical targets for inactivation by the transforming oncoproteins of several DNA tumor viruses. Lung cancer has been a useful model system for these studies as it was the first tumor to demonstrate an important role for RB in the genesis of a common adult malignancy and was also the first human cancer to demonstrate genetic evidence for a multi-component RB:p16 tumor suppressor pathway. Lung tumorigenesis, however, is a complex disease process that requires longstanding carcinogen exposure in order to acquire somatic alterations at many distinct genetic loci. Understanding the multifunctional properties of RB to regulate cell proliferation, differentiation, and apoptosis and how they relate to the sequential accumulation of other clonal gene defects will be essential in order to understand the specific patterns of gene inactivation observed in different subtypes of lung cancer and to fulfill the promise of 'molecular target' therapeutics.

摘要

RB

细胞周期蛋白依赖性激酶(CDK):细胞周期蛋白: p16肿瘤抑制通路的遗传成分在多种人类癌症中发生突变和表观遗传改变,并成为几种DNA肿瘤病毒的转化癌蛋白使其失活的关键靶点。肺癌一直是这些研究的有用模型系统,因为它是第一个证明RB在常见成人恶性肿瘤发生中起重要作用的肿瘤,也是第一个证明多组分RB:p16肿瘤抑制通路存在遗传学证据的人类癌症。然而,肺癌发生是一个复杂的疾病过程,需要长期接触致癌物才能在许多不同的基因位点获得体细胞改变。了解RB调节细胞增殖、分化和凋亡的多功能特性,以及它们如何与其他克隆基因缺陷的顺序积累相关,对于理解在不同亚型肺癌中观察到的基因失活的特定模式以及实现“分子靶点”治疗的前景至关重要。

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