Matteo Incarbone scite author profile

A B S T R A C T PurposeTo investigate the prognostic role of genomic gain for MET and epidermal growth factor receptor (EGFR) genes in surgically resected non-small-cell lung cancer (NSCLC). Patients and MethodsThis retrospective study included 447 NSCLC patients with available tumor tissue from primary lung tumor and survival data. EGFR and MET status was evaluated by fluorescent in situ hybridization (FISH) in tissue microarray sections. ResultsEGFR FISH results were obtained in 376 cases. EGFR gene amplification and high polysomy (EGFR FISHϩ) were observed in 10.4% and 32.4% of cases, respectively. EGFR FISH-positive patients had a nonsignificant shorter survival than EGFR FISH-negative patients (P ϭ .4). Activating EGFR mutations were detected in 9.7% of 144 stage I-II disease with no impact on survival. MET FISH analysis was performed in 435 cases. High MET gene copy number (mean Ն 5 copies/cell) was observed in 48 cases (METϩ, 11.1%), including 18 cases with true gene amplification (4.1%). METϩ status was associated with advanced stage (P ϭ .01), with grade 3 (P ϭ .016) and with EGFR FISHϩ result (P Ͻ .0001). No patient with activating EGFR mutation resulted METϩ. In the whole population, MET-positive patients had shorter survival than MET-negative patients (P ϭ .005). Multivariable model confirmed that MET-negative patients had a significant reduction in the risk of death than MET-positive patients (hazard ratio, 0.66; P ϭ .04). ConclusionMET increased gene copy number is an independent negative prognostic factor in surgically resected NSCLC. EGFR gene gain does not impact survival after resection.

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Identifying and Targeting ROS1 Gene Fusions in Non–Small Cell Lung Cancer

Davies

Theodoro

et al. 2012

413

324

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Purpose Oncogenic gene fusions involving the 3’ region of ROS1 kinase have been identified in various human cancers. In this study, we sought to characterize ROS1 fusion genes in non-small cell lung cancer (NSCLC) and establish the fusion proteins as drug targets. Experimental Design A NSCLC tissue microarray (TMA) panel containing 447 samples was screened for ROS1 rearrangement by fluorescence in-situ hybridization (FISH). This assay was also used to screen NSCLC patients. In positive samples, the identity of the fusion partner was determined through inverse-PCR and RT-PCR. In addition, the clinical utility of ROS1 inhibition was assessed by treating a ROS1-positive patient with crizotinib. The HCC78 cell line, which expresses the SLC34A2-ROS1 fusion, was treated with kinase inhibitors that have activity against ROS1. The effects of ROS1 inhibition on proliferation, cell-cycle progression, and cell signaling pathways were analyzed by MTS assay, flow cytometry, and western blotting. Results In the TMA panel, 5/428 (1.2%) evaluable samples were found to be positive for ROS1 rearrangement. Additionally, 1/48 patients tested positive for rearrangement, and this patient demonstrated tumor shrinkage upon treatment with crizotinib. The patient and one TMA sample displayed expression of the recently identified SDC4-ROS1 fusion, while two TMA samples expressed the CD74-ROS1 fusion and two others expressed the SLC34A2-ROS1 fusion. In HCC78 cells, treatment with ROS1 inhibitors was anti-proliferative and down-regulated signaling pathways that are critical for growth and survival. Conclusions ROS1 inhibition may be an effective treatment strategy for the subset of NSCLC patients whose tumors express ROS1 fusion genes.

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Matteo Incarbone

Increased MET Gene Copy Number Negatively Affects Survival of Surgically Resected Non–Small-Cell Lung Cancer Patients

Identifying and Targeting ROS1 Gene Fusions in Non–Small Cell Lung Cancer

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