MET phosphorylation predicts poor outcome in small cell lung carcinoma and its inhibition blocks HGF-induced effects in MET mutant cell lines.

BACKGROUND: Small cell lung carcinoma (SCLC) has poor prognosis and remains orphan from targeted therapy. MET is activated in several tumour types and may be a promising therapeutic target. METHODS: To evaluate the role of MET in SCLC, MET gene status and protein expression were evaluated in a panel of SCLC cell lines. The MET inhibitor PHA-665752 was used to study effects of pathway inhibition in basal and hepatocyte growth factor (HGF)-stimulated conditions. Immunohistochemistry for MET and p-MET was performed in human SCLC samples and association with outcome was assessed. RESULTS: In MET mutant SCLC cells, HGF induced MET phosphorylation, increased proliferation, invasiveness and clonogenic growth. PHA-665752 blocked MET phosphorylation and counteracted HGF-induced effects. In clinical samples, total MET and p-MET overexpression were detected in 54% and 43% SCLC tumours (n = 77), respectively. MET phosphorylation was associated with poor median overall survival (132 days) vs p-MET negative cases (287 days) (P < 0.001). Phospho-MET retained its prognostic value in a multivariate analysis. CONCLUSIONS: MET activation resulted in a more aggressive phenotype in MET mutant SCLC cells and its inhibition by PHA-665752 reversed this phenotype. In patients with SCLC, MET activation was associated with worse prognosis, suggesting a role in the adverse clinical behaviour in this disease.

C-MET as a new therapeutic target for the development of novel anticancer drugs.

MET is a tyrosine kinase receptor that, upon binding of its natural ligand, the hepatocyte growth factor (HGF), is phosphorylated and subsequently activates different signalling pathways involved in proliferation, motility, migration and invasion. MET has been found to be aberrantly activated in human cancer via mutation, amplification or protein overexpression. MET expression and activation have been associated with prognosis in a number of tumour types and predict response to MET inhibitors in preclinical models. Here we review the HGF/MET signalling pathway, its role in human cancer and the different inhibitory strategies that have been developed for therapeutic use.

C-MET as a new therapeutic target for the development of novel anticancer drugs

MET is a tyrosine kinase receptor that, upon binding of its natural ligand, the hepatocyte growth factor (HGF), is phosphorylated and subsequently activates different signalling pathways involved in proliferation, motility, migration and invasion. MET has been found to be aberrantly activated in human cancer via mutation, amplification or protein overexpression. MET expression and activation have been associated with prognosis in a number of tumour types and predict response to MET inhibitors in preclinical models. Here we review the HGF/MET signalling pathway, its role in human cancer and the different inhibitory strategies that have been developed for therapeutic use (AU)

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Mitogen-activated protein kinase phosphatase-1 (MKP-1) impairs the response to anti-epidermal growth factor receptor (EGFR) antibody cetuximab in metastatic colorectal cancer patients.

BACKGROUND: The validation of KRAS mutations as a negative marker of response to anti-epidermal growth factor receptor (EGFR) antibodies has meant a seminal advance towards treatment individualisation of colorectal cancer (CRC) patients. However, as a KRAS wild-type status does not guarantee a response to anti-EGFR antibodies, a current challenge is the identification of other biomarkers of response. On the basis of pre-clinical evidence, we hypothesised that mitogen-activated protein kinase phosphatase-1 (MKP-1), a phosphatase that inactivates MAPKs, could be a mediator of resistance to anti-EGFR antibodies. METHODS: Tumour specimens from 48 metastatic CRC patients treated with cetuximab-based chemotherapy were evaluated for KRAS and BRAF mutational status and MKP-1 expression as assessed by immunohistochemistry. RESULTS: As expected, clinical benefit was confined to wild-type KRAS and BRAF patients. Mitogen-activated protein kinase phosphatase-1 was overexpressed in 16 patients (33%) and was not associated with patient baseline clinicopathological characteristics and KRAS mutational status. All patients with BRAF mutations (n=3) had MKP-1 overexpression. Among KRAS wild-type patients, MKP-1 overexpressors had a 7% response rate (RR), whereas patients not overexpressing MKP-1 had a 44% RR (P=0.03). Moreover, median time to progression was significantly longer in MKP-1 non-overexpressing patients (32 vs 13 weeks, P=0.009). CONCLUSION: These results support the concept of MKP-1 as a promising negative marker of response to cetuximab-based treatment in CRC patients with wild-type KRAS.

Genetic changes in small cell lung carcinoma

Small cell lung carcinoma (SCLC) accounts for approximately 15% of all lung cancer cases. Despite a frequently good response to first-line treatment with chemotherapy and/or radiotherapy, early relapse occurs in the majority of patients and 5-year survival is only about 5%. Therefore, there is a need to develop novel treatments to improve the outcome of patients with SCLC. To fulfil this need, it is critical to gain further understanding on the molecular basis of SCLC and specifically to identify novel therapeutic targets. Clinical trials with molecularly targeted agents have been performed with little success in the past, but recently many promising oncogenic pathways have been discovered and novel targeted therapies are under evaluation. In this review, we summarise the most relevant genetic and signalling pathway alterations reported to date in SCLC and discuss the potential therapeutic implications of such events (AU)

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