Mutant K-RAS Promotes Invasion and Metastasis in Pancreatic Cancer Through GTPase Signaling Pathways.

Cancer growth and metastasis Pub Date : 2015-10-19 eCollection Date: 2015-01-01 DOI:10.4137/CGM.S29407
Julianna Padavano, Rebecca S Henkhaus, Hwudaurw Chen, Bethany A Skovan, Haiyan Cui, Natalia A Ignatenko
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引用次数: 17

Abstract

Pancreatic ductal adenocarcinoma is one of the most aggressive malignancies, characterized by the local invasion into surrounding tissues and early metastasis to distant organs. Oncogenic mutations of the K-RAS gene occur in more than 90% of human pancreatic cancers. The goal of this study was to investigate the functional significance and downstream effectors of mutant K-RAS oncogene in the pancreatic cancer invasion and metastasis. We applied the homologous recombination technique to stably disrupt K-RAS oncogene in the human pancreatic cell line MiaPaCa-2, which carries the mutant K-RAS (G12C) oncogene in both alleles. Using in vitro assays, we found that clones with disrupted mutant K-RAS gene exhibited low RAS activity, reduced growth rates, increased sensitivity to the apoptosis inducing agents, and suppressed motility and invasiveness. In vivo assays showed that clones with decreased RAS activity had reduced tumor formation ability in mouse xenograft model and increased survival rates in the mouse orthotopic pancreatic cancer model. We further examined molecular pathways downstream of mutant K-RAS and identified RhoA GTP activating protein 5, caveolin-1, and RAS-like small GTPase A (RalA) as key effector molecules, which control mutant K-RAS-dependent migration and invasion in MiaPaCa-2 cells. Our study provides rational for targeting RhoA and RalA GTPase signaling pathways for inhibition of pancreatic cancer metastasis.

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突变K-RAS通过GTPase信号通路促进胰腺癌的侵袭和转移。
胰腺导管腺癌是最具侵袭性的恶性肿瘤之一,其特点是局部浸润周围组织,早期转移到远处器官。K-RAS基因的致癌突变发生在90%以上的人类胰腺癌中。本研究旨在探讨突变型K-RAS癌基因在胰腺癌侵袭转移中的功能意义及下游效应物。我们应用同源重组技术稳定地破坏了人胰腺细胞系MiaPaCa-2的K-RAS癌基因,该细胞系在两个等位基因中都携带突变的K-RAS (G12C)癌基因。通过体外实验,我们发现K-RAS基因突变的克隆表现出低RAS活性,生长速率降低,对凋亡诱导剂的敏感性增加,运动性和侵袭性受到抑制。体内实验表明,RAS活性降低的克隆在小鼠异种移植模型中的成瘤能力降低,在小鼠原位胰腺癌模型中的存活率提高。我们进一步研究了K-RAS突变体下游的分子通路,发现RhoA GTP激活蛋白5、caveolin-1和ras样小GTPase A (RalA)是控制突变体K-RAS依赖性迁移和侵袭MiaPaCa-2细胞的关键效应分子。我们的研究为靶向RhoA和RalA GTPase信号通路抑制胰腺癌转移提供了依据。
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