Abstract
ObjectivesThe oncogenic MET exon 14 skipping mutation (METex14del) is described to drive 1.3 %–5.7 % of non-small-cell lung cancer (NSCLC) and multiple studies with cMET inhibitors show promising clinical responses. RNA-based analysis seems most optimal for METex14del detection, however, acquiring sufficient RNA material is often problematic. An alternative is DNA-based analysis, but commercially available DNA-based panels only detect up to 63 % of known METex14del alterations. The goal of this study is to describe an optimized DNA-based diagnostic test for METex14del in NSCLC, including clinical features and follow-up of patients treated with cMET-targeted therapy and consequent resistance mechanisms. Material and methodsRoutinely processed diagnostic pathology non-squamous NSCLC specimens were investigated by a custom-made DNA-based targeted amplicon-based next generation sequencing (NGS) panel, which includes 4 amplicons for METex14del detection. Retrospectively, histopathological characteristics and clinical follow up were investigated for advanced non-squamous NSCLC with METex14del. ResultsIn silico analysis showed that our NGS panel is able to detect 96 % of reported METex14 alterations. METex14del was found in 2 % of patients with non-squamous NSCLC tested for therapeutic purposes. In total, from May 2015 - Sep 2018, METex14del was found in 46 patients. Thirty-six of these patients had advanced non-squamous NSCLC, they were predominantly elderly (76.5 years [53–90]), male (25/36) and (ex)-smokers (23/36). Five patients received treatment with crizotinib (Pfizer Oncology), in a named patient based program, disease control was achieved for 4/5 patients (3 partial responses, 1 stable disease) and one patient had a mixed response. Two patients developed a MET D1228N mutation during crizotinib treatment, inducing a resistance mechanism to crizotinib. ConclusionsThis study shows that METex14del can be reliably detected by routine DNA NGS analysis. Although a small cohort, patients responded well to targeted treatment, underlining the need for routine testing of METex14del in advanced non-squamous NSCLC to guarantee optimal personalized treatment.
Highlights
Worldwide, lung cancer remains the leading cause of cancer-related deaths [1]
We describe an optimized DNA-based diagnostic test for METex14del detection and report the histological and clinical fea tures of a real world METex14del non-squamous non-small-cell lung cancer (NSCLC) patient cohort, including follow-up of patients treated with cMET-targeted therapy and consequent resistance mechanisms
From January 2016 up to and including May 2018, 1541 nonsquamous NSCLC cancer samples were tested by routine pathology molecular diagnostics for therapeutic purposes
Summary
Lung cancer remains the leading cause of cancer-related deaths [1]. In the last decade, innovations in targeted therapy have drastically improved survival in mutation driven tumors [2,3,4]. METex14del is shown in 1.3 %–5.7 % of NSCLC patients based on both RNA and DNA tests using RT-PCR or Generation Sequencing (NGS) [5,8,9,10,11,12,13,14]. This alteration has been de scribed as a potential oncogenic driver, showing mostly mutual exclu siveness with other oncogenic driver mutations [5,12,15]. Several stu dies in small series suggest that patients, harboring a METex14del, respond well to cMET tyrosine kinase inhibitors (TKI), such as crizo tinib, tepotinib, capmatinib and cabozantinib [10,16,17,18,19,20,21]
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