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SOX2在早期人类肺鳞状细胞癌新型器官型模型中驱动支气管发育异常。

SOX2 Drives Bronchial Dysplasia in a Novel Organotypic Model of Early Human Squamous Lung Cancer.

作者信息

Correia Lúcia L, Johnson Jo-Anne, McErlean Peter, Bauer Julien, Farah Hassan, Rassl Doris M, Rintoul Robert C, Sethi Tariq, Lavender Paul, Rawlins Emma L, Littlewood Trevor D, Evan Gerard I, McCaughan Frank M

机构信息

1 Department of Biochemistry.

2 Wellcome Trust/Cancer Research UK Gurdon Institute.

出版信息

Am J Respir Crit Care Med. 2017 Jun 1;195(11):1494-1508. doi: 10.1164/rccm.201510-2084OC.

DOI:10.1164/rccm.201510-2084OC
PMID:28199128
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5470746/
Abstract

RATIONALE

Improving the early detection and chemoprevention of lung cancer are key to improving outcomes. The pathobiology of early squamous lung cancer is poorly understood. We have shown that amplification of sex-determining region Y-box 2 (SOX2) is an early and consistent event in the pathogenesis of this disease, but its functional oncogenic potential remains uncertain. We tested the impact of deregulated SOX2 expression in a novel organotypic system that recreates the molecular and microenvironmental context in which squamous carcinogenesis occurs.

OBJECTIVES

(1) To develop an in vitro model of bronchial dysplasia that recapitulates key molecular and phenotypic characteristics of the human disease; (2) to test the hypothesis that SOX2 deregulation is a key early event in the pathogenesis of bronchial dysplasia; and (3) to use the model for studies on pathogenesis and chemoprevention.

METHODS

We engineered the inducible activation of oncogenes in immortalized bronchial epithelial cells. We used three-dimensional tissue culture to build an organotypic model of bronchial dysplasia.

MEASUREMENTS AND MAIN RESULTS

We recapitulated human bronchial dysplasia in vitro. SOX2 deregulation drives dysplasia, and loss of tumor promoter 53 is a cooperating genetic event that potentiates the dysplastic phenotype. Deregulated SOX2 alters critical genes implicated in hallmarks of cancer progression. Targeted inhibition of AKT prevents the initiation of the dysplastic phenotype.

CONCLUSIONS

In the appropriate genetic and microenvironmental context, acute deregulation of SOX2 drives bronchial dysplasia. This confirms its oncogenic potential in human cells and affords novel insights into the impact of SOX2 deregulation. This model can be used to test therapeutic agents aimed at chemoprevention.

摘要

理论依据

改善肺癌的早期检测和化学预防是改善预后的关键。早期肺鳞状细胞癌的病理生物学尚不清楚。我们已经表明,性别决定区Y盒2(SOX2)的扩增是该疾病发病机制中的一个早期且一致的事件,但其功能性致癌潜力仍不确定。我们在一个新的器官型系统中测试了SOX2表达失调的影响,该系统重现了鳞状细胞癌发生的分子和微环境背景。

目的

(1)建立一种体外支气管发育异常模型,概括人类疾病的关键分子和表型特征;(2)检验SOX2失调是支气管发育异常发病机制中的关键早期事件这一假设;(3)使用该模型进行发病机制和化学预防研究。

方法

我们设计了永生化支气管上皮细胞中癌基因的诱导激活。我们使用三维组织培养构建支气管发育异常的器官型模型。

测量与主要结果

我们在体外重现了人类支气管发育异常。SOX2失调驱动发育异常,肿瘤促进因子53的缺失是一个协同遗传事件,可增强发育异常表型。失调的SOX2改变了与癌症进展特征相关的关键基因。对AKT的靶向抑制可防止发育异常表型的起始。

结论

在适当的遗传和微环境背景下,SOX2的急性失调驱动支气管发育异常。这证实了其在人类细胞中的致癌潜力,并为SOX2失调的影响提供了新的见解。该模型可用于测试旨在化学预防的治疗药物。

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