肺腺癌中的致癌性RIT1突变

Oncogenic RIT1 mutations in lung adenocarcinoma.

作者信息

Berger A H, Imielinski M, Duke F, Wala J, Kaplan N, Shi G-X, Andres D A, Meyerson M

机构信息

1] Cancer Program, The Broad Institute of Harvard and M.I.T., 7 Cambridge Center, Cambridge, MA, USA [2] Department of Medical Oncology, Dana Farber Cancer Institute, Boston, MA, USA.

1] Cancer Program, The Broad Institute of Harvard and M.I.T., 7 Cambridge Center, Cambridge, MA, USA [2] Department of Medical Oncology, Dana Farber Cancer Institute, Boston, MA, USA [3] Department of Pathology, Massachusetts General Hospital, Boston, MA, USA [4] Department of Pathology, Harvard Medical School, Boston, MA, USA.

出版信息

Oncogene. 2014 Aug 28;33(35):4418-23. doi: 10.1038/onc.2013.581. Epub 2014 Jan 27.

DOI:10.1038/onc.2013.581

PMID:24469055

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4150988/

Abstract

Lung adenocarcinoma is comprised of distinct mutational subtypes characterized by mutually exclusive oncogenic mutations in RTK/RAS pathway members KRAS, EGFR, BRAF and ERBB2, and translocations involving ALK, RET and ROS1. Identification of these oncogenic events has transformed the treatment of lung adenocarcinoma via application of therapies targeted toward specific genetic lesions in stratified patient populations. However, such mutations have been reported in only ∼55% of lung adenocarcinoma cases in the United States, suggesting other mechanisms of malignancy are involved in the remaining cases. Here we report somatic mutations in the small GTPase gene RIT1 in ∼2% of lung adenocarcinoma cases that cluster in a hotspot near the switch II domain of the protein. RIT1 switch II domain mutations are mutually exclusive with all other known lung adenocarcinoma driver mutations. Ectopic expression of mutated RIT1 induces cellular transformation in vitro and in vivo, which can be reversed by combined PI3K and MEK inhibition. These data identify RIT1 as a driver oncogene in a specific subset of lung adenocarcinomas and suggest PI3K and MEK inhibition as a potential therapeutic strategy in RIT1-mutated tumors.

摘要

肺腺癌由不同的突变亚型组成，其特征是RTK/RAS通路成员KRAS、EGFR、BRAF和ERBB2中存在相互排斥的致癌突变，以及涉及ALK、RET和ROS1的易位。这些致癌事件的鉴定通过在分层患者群体中应用针对特定基因损伤的疗法改变了肺腺癌的治疗方式。然而，在美国仅约55%的肺腺癌病例中报道了此类突变，这表明其余病例涉及其他恶性机制。在此，我们报告在约2%的肺腺癌病例中，小GTPase基因RIT1发生体细胞突变，这些突变聚集在该蛋白开关II结构域附近的一个热点区域。RIT1开关II结构域突变与所有其他已知的肺腺癌驱动突变相互排斥。突变型RIT1的异位表达在体外和体内均可诱导细胞转化，联合PI3K和MEK抑制可逆转这种转化。这些数据确定RIT1是特定亚组肺腺癌中的驱动癌基因，并提示PI3K和MEK抑制作为RIT1突变肿瘤的一种潜在治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aecb/4150988/2f002f6a84eb/41388_2014_Article_BFonc2013581_Fig1_HTML.jpg

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肺腺癌中的致癌性RIT1突变

Oncogenic RIT1 mutations in lung adenocarcinoma.

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