Journal ArticleDOI
MEK162 for patients with advanced melanoma harbouring NRAS or Val600 BRAF mutations: a non-randomised, open-label phase 2 study
Paolo A. Ascierto,Dirk Schadendorf,Carola Berking,Sanjiv S. Agarwala,Carla M.L. van Herpen,Paola Queirolo,Christian U. Blank,Axel Hauschild,J. Thaddeus Beck,Annie St-Pierre,Faiz Niazi,Simon Wandel,Malte Peters,Angela Zubel,Reinhard Dummer +14 more
TLDR
MEK162 is the first targeted therapy to show activity in patients with NRAS -mutated melanoma and might offer a new option for a cancer with few effective treatments.Abstract:
Summary Background Patients with melanoma harbouring Val600 BRAF mutations benefit from treatment with BRAF inhibitors. However, no targeted treatments exist for patients with BRAF wild-type tumours, including those with NRAS mutations. We aimed to assess the use of MEK162, a small-molecule MEK1/2 inhibitor, in patients with NRAS -mutated or Val600 BRAF -mutated advanced melanoma. Methods In our open-label, non-randomised, phase 2 study, we assigned patients with NRAS -mutated or BRAF -mutated advanced melanoma to one of three treatment arms on the basis of mutation status. Patients were enrolled at university hospitals or private cancer centres in Europe and the USA. The three arms were: twice-daily MEK162 45 mg for NRAS -mutated melanoma, twice-daily MEK162 45 mg for BRAF -mutated melanoma, and twice-daily MEK162 60 mg for BRAF -mutated melanoma. Previous treatment with BRAF inhibitors was permitted, but previous MEK inhibitor therapy was not allowed. The primary endpoint was the proportion of patients who had an objective response (ie, a complete response or confirmed partial response). We report data for the 45 mg groups. We assessed clinical activity in all patients who received at least one dose of MEK162 and in patients assessable for response (with two available CT scans). This study is registered with ClinicalTrials.gov, number NCT01320085, and is currently recruiting additional patients with NRAS mutations (based on a protocol amendment). Findings Between March 31, 2011, and Jan 17, 2012, we enrolled 71 patients who received at least one dose of MEK162 45 mg. By Feb 29, 2012 (data cutoff), median follow-up was 3·3 months (range 0·6–8·7; IQR 2·2–5·0). No patients had a complete response. Six (20%) of 30 patients with NRAS -mutated melanoma had a partial response (three confirmed) as did eight (20%) of 41 patients with BRAF -mutated melanoma (two confirmed). The most frequent adverse events were acneiform dermatitis (18 [60%] patients with NRAS -mutated melanoma and 15 [37%] patients with the BRAF -mutated melanoma), rash (six [20%] and 16 [39%]), peripheral oedema (ten [33%] and 14 [34%]), facial oedema (nine [30%] and seven [17%]), diarrhoea (eight [27%] and 15 [37%]), and creatine phosphokinase increases (11 [37%] and nine [22%]). Increased creatine phosphokinase was the most common grade 3–4 adverse event (seven [23%] and seven [17%]). Four patients had serious adverse events (two per arm), which included diarrhoea, dehydration, acneiform dermatitis, general physical deterioration, irregular heart rate, malaise, and small intestinal perforation. No deaths occurred from treatment-related causes. Interpretation To our knowledge, MEK162 is the first targeted therapy to show activity in patients with NRAS -mutated melanoma and might offer a new option for a cancer with few effective treatments. Funding Novartis Pharmaceuticals.read more
Citations
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Ceritinib enhances the efficacy of trametinib in BRAF/NRAS-wild type melanoma cell lines
Daniel Verduzco,Brent M. Kuenzi,Fumi Kinose,Vernon K. Sondak,Zeynep Eroglu,Uwe Rix,Keiran S.M. Smalley +6 more
TL;DR: It is demonstrated that combining a specific inhibitor (trametinib) with a more broadly targeted agent (cerit inib) has efficacy against tumors with heterogeneous mutational profiles.
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Combination therapy of melanoma using kinase inhibitors.
TL;DR: The short era of single BRAF inhibition in BRAF-mutated melanoma is soon taken over by dual concurrent inhibition of MEK and BRAF, which delays the onset of acquired resistance, resulting in increased progression-free and overall survival.
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Targeting the ERK pathway for the treatment of Cushing's disease.
TL;DR: The potent actions of MEK-162 to inhibit corticotroph tumor growth and hormone secretion in vitro and in vivo via TR4-dependent and independent mechanisms are demonstrated, and the possibility of MEk-162 as a novel therapy for Cushing's disease is raised.
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Non-BRAF-targeted therapy, immunotherapy, and combination therapy for melanoma
TL;DR: The increasing availability of high-throughput technologies will allow the elucidation of molecular mechanisms underlying responsiveness to cancer therapy and unveil an increased number of potential therapeutic targets.
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Combining ERBB family and MET inhibitors is an effective therapeutic strategy in cutaneous malignant melanoma independent of BRAF/NRAS mutation status.
Ishani Das,Margareta Wilhelm,Veronica Höiom,Rodolfo Franco Márquez,Fernanda Costa Svedman,Fernanda Costa Svedman,Johan Hansson,Johan Hansson,Rainer Tuominen,Suzanne Egyhazi Brage +9 more
TL;DR: The results show that afatinib and crizotinib in combination is a promising alternative targeted therapy option for CMM patients, irrespective of BRAF/NRAS mutational status, as well as for cases where resistance has developed towards BRAF inhibitors.
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Dabrafenib in BRAF-mutated metastatic melanoma: a multicentre, open-label, phase 3 randomised controlled trial
Axel Hauschild,Jean-Jacques Grob,Lev V. Demidov,Thomas Jouary,Ralf Gutzmer,Michael Millward,Piotr Rutkowski,Christian U. Blank,Wilson H. Miller,Eckhart Kaempgen,Salvador Martín-Algarra,Boguslawa Karaszewska,Cornelia Mauch,Vanna Chiarion-Sileni,Anne-Marie Martin,Suzanne Swann,Patricia Haney,Beloo Mirakhur,Mary E. Guckert,Vicki L. Goodman,Paul B. Chapman +20 more
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Combined BRAF and MEK Inhibition in Melanoma with BRAF V600 Mutations
Keith T. Flaherty,J. R. Infante,Adil Daud,Rene Gonzalez,Richard F. Kefford,Jeffrey A. Sosman,Omid Hamid,Lynn M. Schuchter,Jonathan Cebon,Nageatte Ibrahim,Ragini Kudchadkar,Howard A. Burris,Gerald S. Falchook,Alain Algazi,Karl D. Lewis,Georgina V. Long,Igor Puzanov,Peter F. Lebowitz,Ajay Singh,Shonda M Little,Peng Sun,Alicia Allred,Daniele Ouellet,Kevin B. Kim,Kiran Patel,Jeffrey S. Weber +25 more
TL;DR: Dabrafenib and trametinib were safely combined at full monotherapy doses, and the rate of pyrexia was increased with combination therapy, whereas the rates of proliferative skin lesions was nonsignificantly reduced.
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Distinct Sets of Genetic Alterations in Melanoma
John A. Curtin,Jane Fridlyand,Toshiro Kageshita,Hetal N. Patel,Klaus J. Busam,Heinz Kutzner,Kwang Hyun Cho,Setsuya Aiba,Eva B. Bröcker,Philip E. LeBoit,Daniel Pinkel,Boris C. Bastian +11 more
TL;DR: The genetic alterations identified in melanoma at different sites and with different levels of sun exposure indicate that there are distinct genetic pathways in the development of melanoma and implicate CDK4 and CCND1 as independent oncogenes in melanomas without mutations in BRAF or N-RAS.
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