Unknown,Transcriptomics,Genomics,Proteomics

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An epithelial-mesenchymal transition (EMT) gene signature predicts resistance to erlotinib and PI3K pathway inhibitors and identifies Axl as a novel EMT marker in non-small cell lung cancer.


ABSTRACT: Epithelial/mesenchymal transition (EMT) is associated with loss of cell adhesion molecules, such as E-cadherin, and increased invasion, migration, and proliferation in epithelial cancers. In non-small cell lung cancer (NSCLC), EMT is associated with greater resistance to EGFR inhibitors. However, its potential to predict response to other targeted drugs or chemotherapy has not been well characterized. The goal of this study was to develop a robust, platform-independent EMT gene expression signature and to investigate the association of EMT and drug response in NSCLC. A 76-gene EMT signature was derived in 54 DNA-fingerprinted NSCLC cell lines and tested in an independent set of cell lines and in NSCLC patients from the BATTLE clinical trial. The signature classified cell lines as epithelial or mesenchymal independent of the microarray platform and correlated strongly with E-cadherin protein levels, as measured by reverse phase protein array. Higher protein expression of Rab25 (in epithelial lines) and Axl (in mesenchymal lines), two signature genes associated with in EMT in other cancer types, was also confirmed. Mesenchymal cell lines demonstrated significantly greater resistance to EGFR inhibition, independent of EGFR mutation status and were more resistant to drugs targeting the PI3K/Akt pathway. We observed no association between EMT and response to cytotoxic chemotherapies, including cisplatin, pemetrexed, and docetaxel monotherapy and/or doublets (p-values ≥0.2). In NSCLC patients, the EMT signature predicted 8-week disease control in the erlotinib arm, but not in other treatment arms. In conclusion, we have developed a robust EMT signature that predicts resistance to EGFR inhibitors and PI3K/Akt pathway inhibitors. Gene expression profiles were measured in 131 core biopsies from patients with refractory non-small cell lung cancer in the Biomarker-integrated Approaches of Targeted Therapy for Lung Cancer Elimination (BATTLE) trial. We used the BATTLE dataset to test an EMT gene expression signature trained in cell lines and independant of the microarray platform.

ORGANISM(S): Homo sapiens

SUBMITTER: Pierre Saintigny 

PROVIDER: E-GEOD-33072 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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An epithelial-mesenchymal transition gene signature predicts resistance to EGFR and PI3K inhibitors and identifies Axl as a therapeutic target for overcoming EGFR inhibitor resistance.

Byers Lauren Averett LA   Diao Lixia L   Wang Jing J   Saintigny Pierre P   Girard Luc L   Peyton Michael M   Shen Li L   Fan Youhong Y   Giri Uma U   Tumula Praveen K PK   Nilsson Monique B MB   Gudikote Jayanthi J   Tran Hai H   Cardnell Robert J G RJ   Bearss David J DJ   Bearss David J DJ   Warner Steven L SL   Foulks Jason M JM   Kanner Steven B SB   Gandhi Varsha V   Krett Nancy N   Rosen Steven T ST   Kim Edward S ES   Herbst Roy S RS   Blumenschein George R GR   Lee J Jack JJ   Lippman Scott M SM   Ang K Kian KK   Mills Gordon B GB   Hong Waun K WK   Weinstein John N JN   Wistuba Ignacio I II   Coombes Kevin R KR   Minna John D JD   Heymach John V JV  

Clinical cancer research : an official journal of the American Association for Cancer Research 20121022 1


<h4>Purpose</h4>Epithelial-mesenchymal transition (EMT) has been associated with metastatic spread and EGF receptor (EGFR) inhibitor resistance. We developed and validated a robust 76-gene EMT signature using gene expression profiles from four platforms using non-small cell lung carcinoma (NSCLC) cell lines and patients treated in the Biomarker-Integrated Approaches of Targeted Therapy for Lung Cancer Elimination (BATTLE) study.<h4>Experimental design</h4>We conducted an integrated gene expressi  ...[more]

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