The Role of MET Receptor Tyrosine Kinase in Non-Small Cell Lung Cancer and Clinical Development of Targeted Anti-MET Agents

Robinson, Kyle; Sandler, Alan

doi:10.1634/theoncologist.2012-0262

Cited by 60 publications

(44 citation statements)

References 53 publications

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“…Better understanding of the molecular pathophysiology of non-small cell lung cancer (NSCLC) has led to the development of more selective and targeted treatment options with improved outcome rates (2,3). With the discovery of EGFR mutations, EML4-ALK (Echinoderm microtubule-associated protein like 4-anaplastic lymphoma kinase) translocations and the ROS1 translocation, lung cancer treatment has been fundamentally changed and shown to be much more effective than ancient chemoradiation therapy regimens (4)(5)(6)(7).…”

Section: Introductionmentioning

confidence: 99%

“…MET is a heterodimeric transmembrane receptor tyrosine kinase, composed of an extracellular a-chain and a transmembrane spanning b-chain linked via disulfide bonds (2) and its gene is localized to chromosome 7q (8). Binding of HGF to MET triggers receptor dimerization and transphosphorylation, which lead to conformational changes of the receptor with subsequent activation of the tyrosine kinase (TK).…”

Section: Introductionmentioning

confidence: 99%

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MET Amplification Status in Therapy-Naïve Adeno- and Squamous Cell Carcinomas of the Lung

Schildhaus

Schultheis

Rüschoff³

et al. 2015

Clinical Cancer Research

156

120

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Purpose: MET is a potential therapeutic target in lung cancer and both MET tyrosine kinase inhibitors and monoclonal antibodies have entered clinical trials. MET signaling can be activated by various mechanisms, including gene amplification. In this study, we aimed to investigate MET amplification status in adenoand squamous cell carcinomas of the lung. We propose clearly defined amplification scores and provide epidemiologic data on MET amplification in lung cancer.Experimental Design: We evaluated the prevalence of increased MET gene copy numbers in 693 treatment-na€ ve cancers by FISH, defined clear cutoff criteria, and correlated FISH results to MET IHC.Results: Two thirds (67%) of lung cancers do not have gains in MET gene copy numbers, whereas 3% show a clear-cut high-level amplification (MET/centromer7 ratio !2.0 or average gene copy number per nucleus !6.0 or !10% of tumor cells containing !15 MET copies). The remaining cases can be subdivided into intermediate-(6%) and low-level gains (24%). Importantly, MET amplifications occur at equal frequencies in squamous and adenocarcinomas without or with EGFR or KRAS mutations.Conclusion: MET amplification is not a mutually exclusive genetic event in therapy-na€ ve non-small cell lung cancer. Our data suggest that it might be useful to determine MET amplification (i) before EGFR inhibitor treatment to identify possible primary resistance to anti-EGFR treatment, and (ii) to select cases that harbor KRAS mutations additionally to MET amplification and, thus, may not benefit from MET inhibition. Furthermore, our study provides comprehensive epidemiologic data for upcoming trials with various MET inhibitors. Clin Cancer Res; 21(4); 907-15. Ó2014 AACR.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

MET Amplification Status in Therapy-Naïve Adeno- and Squamous Cell Carcinomas of the Lung

Schildhaus

Schultheis

Rüschoff³

et al. 2015

Clinical Cancer Research

156

120

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“…In particular, activating mutations such as the L858R point mutation in exon 21 and the small inframe deletions in exon 19 of the EGFR tyrosine kinase domain are correlated with sensitivity to EGFR tyrosine kinase inhibitors in non-small cell lung cancer (NSCLC) patients [1][2][3][4]. Poziotinib 1, a highly potent, and orally bioavailable inhibitor of human epidermal growth factor receptors HER 1 , HER 2 , and HER 4 tyrosine kinase, was developed in a late-stage clinic trial for the prevention and treatment of patients with NSCLC including clinical limitation caused by acquired mutation (EGFR T790M), breast cancer and gastric cancer by Hanmi Science Co., Ltd [5][6][7]. It could be marketed for the treatment of advanced solid tumors as a new-generation anticancer.…”

Section: Introductionmentioning

confidence: 99%

“…1 H-NMR (DMSO-d 6 Preparation of tert-butyl l-4-(4-(3,4-dichloro-2-fluorophenylamino)-7-methoxyquinazolin-6-yloxy) piperidin-l-carboxylate (6) 4-(3,4-dichloro-2-fluorophenylamino)-7-methoxyquinazolin-6-ol (12.6 g, 0.036mol) was admixed with N,N-dimethylformamide (80 ml) under stirring, followed by addition of tert-butyl 4-(tosyloxy)piperidin-l-carboxylate (15 g, 0.042 mol) and potassium carbonate (15 g, 0.113) to the mixture. The reaction temperature was raised to 90 °C, and the mixture was stirred for 3 hours(TLC monitor).…”

Section: Introductionmentioning

confidence: 99%

An Improved Procedure for the Preparation of Poziotinib

Cai¹,

Ma²,

Hou³

2015

Proceedings of the 2015 International Conference on Mechatronics, Electronic, Industrial and Control Engineering

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Abstract-1. Objective: To improve the synthetic procedure of the anticancer drug poziotinib. 2. Methods: The poziotinib was synthesized in six stages starting from 7-methoxy-4-oxo-3,4-dihydroquinazolin-yl acetate (2) by chlorinated, ammonification, hydrolysis, condensation, take off Boc and amidation reaction. Compound 2 reacted with POCl3 followed by ammonification to afford 8. Compound 8 reacted with ammonia water in methanol to obtain 9 which passes through the condensation reaction to obtain 6. Compound 6 took off Boc in the CF3COOH followed by amidation reaction to afford the poziotinib. Results: The anticancer drug poziotinib was synthesized by using 7-methoxy-4-oxo-3,4-dihydroquinazolin-yl acetate as starting material in 6 steps. The structures were characterized by 1H NMR and ESI-MS. 4. Conclusion: The starting material is very easy to get, the reaction conditions are moderate and the operation is convenient. The reaction steps are shortened and the overall yield is 37.2 %. This method is suitable for industrial producing.

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“…Although best described in gastroesophageal tumors (16,17), MET gene amplification can occur in several other malignancies, including NSCLC (18), ovarian cancer (19), and colorectal cancer (20), particularly as a mechanism of resistance to therapies targeting EGFR (e.g., cetuximab in colorectal cancer and gefitinib in NSCLC; refs. 20,21).…”

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confidence: 99%

Development of a Novel c-MET–Based CTC Detection Platform

Zhang

Boominathan

Foulk

et al. 2016

Molecular Cancer Research

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Amplification of the MET oncogene is associated with poor prognosis, metastatic dissemination, and drug resistance in many malignancies. We developed a method to capture and characterize circulating tumor cells (CTC) expressing c-MET using a ferromagnetic antibody. Immunofluorescence was used to characterize cells for c-MET, DAPI, and pan-CK, excluding CD45 þ leukocytes. The assay was validated using appropriate cell line controls spiked into peripheral blood collected from healthy volunteers (HV). In addition, peripheral blood was analyzed from patients with metastatic gastric, pancreatic, colorectal, bladder, renal, or prostate cancers. CTCs captured by c-MET were enumerated, and DNA FISH for MET amplification was performed. The approach was highly sensitive (80%) for MET-amplified cells, sensitive (40%-80%) for c-MET-overexpressed cells, and specific (100%) for both c-MET-negative cells and in 20 HVs. Of 52 patients with metastatic carcinomas tested, c-MET CTCs were captured in replicate samples from 3 patients [gastric, colorectal, and renal cell carcinoma (RCC)] with 6% prevalence. CTC FISH demonstrated that MET amplification in both gastric and colorectal cancer patients and trisomy 7 with gain of MET gene copies in the RCC patient. The c-MET CTC assay is a rapid, noninvasive, sensitive, and specific method for detecting MET-amplified tumor cells. CTCs with MET amplification can be detected in patients with gastric, colorectal, and renal cancers.Implications: This study developed a novel c-MET CTC assay for detecting c-MET CTCs in patients with MET amplification and warrants further investigation to determine its clinical applicability.

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The Role of MET Receptor Tyrosine Kinase in Non-Small Cell Lung Cancer and Clinical Development of Targeted Anti-MET Agents

Cited by 60 publications

References 53 publications

MET Amplification Status in Therapy-Naïve Adeno- and Squamous Cell Carcinomas of the Lung

MET Amplification Status in Therapy-Naïve Adeno- and Squamous Cell Carcinomas of the Lung

An Improved Procedure for the Preparation of Poziotinib

Development of a Novel c-MET–Based CTC Detection Platform

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