Literature DB >> 25370473

Preexisting MEK1P124 mutations diminish response to BRAF inhibitors in metastatic melanoma patients.

Matteo S Carlino1, Carina Fung2, Hamideh Shahheydari3, Jason R Todd4, Suzanah C Boyd3, Mal Irvine3, Adnan M Nagrial5, Richard A Scolyer6, Richard F Kefford7, Georgina V Long8, Helen Rizos9.   

Abstract

BACKGROUND: MEK1 mutations in melanoma can confer resistance to BRAF inhibitors, although preexisting MEK1(P124) mutations do not preclude clinical responses. We sought to determine whether recurrent, preexisting MEK1(P124) mutations affected clinical outcome in BRAF inhibitor-treated patients with melanoma.
METHODS: Data from four published datasets were analyzed to determine whether preexisting MEK1(P124) mutations affect radiologic response or progression-free survival (PFS) in patients with BRAF(V600)-mutant metastatic melanoma treated with vemurafenib or dabrafenib. The effects of MEK1(P124) mutations on MAPK pathway activity and response to BRAF inhibition were also investigated in a series of cell models.
RESULTS: In a pooled analysis of 123 patients, the presence of a pretreatment MEK1(P124) mutation (N = 12, 10%) was associated with a poorer RECIST response (33% vs. 72% in MEK1(P124Q/S) vs. MEK1(P124) wild-type, P = 0.018), and a shorter PFS (median 3.1 vs. 4.8 months, P = 0.004). Furthermore, MEK1(P124Q/S) mutations were shown to have independent kinase activity and introduction of these mutations into a BRAF-mutant melanoma cell line diminished inhibition of ERK phosphorylation by dabrafenib and enhanced clonogenic survival in the presence of dabrafenib compared with cells ectopically expressing wild-type MEK1. Consistent with these data, two BRAF-mutant cell lines with endogenous MEK1(P124) mutations showed intermediate sensitivity to dabrafenib, but were highly sensitive to downstream inhibition of MEK or ERK.
CONCLUSION: Taken together, our data indicate that preexisting MEK1(P124) mutations are associated with a reduced response to BRAF inhibitor therapy and identify a subset of patients with BRAF-mutant melanoma likely to benefit from combination therapies involving MEK or ERK inhibitors. ©2014 American Association for Cancer Research.

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Year:  2014        PMID: 25370473     DOI: 10.1158/1078-0432.CCR-14-0759

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  25 in total

Review 1.  Polytherapy and Targeted Cancer Drug Resistance.

Authors:  Nilanjana Chatterjee; Trever G Bivona
Journal:  Trends Cancer       Date:  2019-02-26

2.  Leveraging Systematic Functional Analysis to Benchmark an In Silico Framework Distinguishes Driver from Passenger MEK Mutants in Cancer.

Authors:  Aphrothiti J Hanrahan; Brooke E Sylvester; Matthew T Chang; Arijh Elzein; Jianjiong Gao; Weiwei Han; Ye Liu; Dong Xu; Sizhi P Gao; Alexander N Gorelick; Alexis M Jones; Amber J Kiliti; Moriah H Nissan; Clare A Nimura; Abigail N Poteshman; Zhan Yao; Yijun Gao; Wenhuo Hu; Hannah C Wise; Elena I Gavrila; Alexander N Shoushtari; Shakuntala Tiwari; Agnes Viale; Omar Abdel-Wahab; Taha Merghoub; Michael F Berger; Neal Rosen; Barry S Taylor; David B Solit
Journal:  Cancer Res       Date:  2020-07-08       Impact factor: 12.701

Review 3.  A Convergence-Based Framework for Cancer Drug Resistance.

Authors:  David J Konieczkowski; Cory M Johannessen; Levi A Garraway
Journal:  Cancer Cell       Date:  2018-05-14       Impact factor: 31.743

Review 4.  RASopathy Gene Mutations in Melanoma.

Authors:  Ruth Halaban; Michael Krauthammer
Journal:  J Invest Dermatol       Date:  2016-05-25       Impact factor: 8.551

Review 5.  Melanoma: What do all the mutations mean?

Authors:  Elizabeth J Davis; Douglas B Johnson; Jeffrey A Sosman; Sunandana Chandra
Journal:  Cancer       Date:  2018-04-17       Impact factor: 6.860

6.  Converting biology into clinical benefit: lessons learned from BRAF inhibitors.

Authors:  Jennifer McQuade; Michael A Davies
Journal:  Melanoma Manag       Date:  2015

7.  Clinical, Molecular, and Immune Analysis of Dabrafenib-Trametinib Combination Treatment for BRAF Inhibitor-Refractory Metastatic Melanoma: A Phase 2 Clinical Trial.

Authors:  Guo Chen; Jennifer L McQuade; David J Panka; Courtney W Hudgens; Ali Amin-Mansour; Xinmeng Jasmine Mu; Samira Bahl; Judit Jané-Valbuena; Khalida M Wani; Alexandre Reuben; Caitlyn A Creasy; Hong Jiang; Zachary A Cooper; Jason Roszik; Roland L Bassett; Aron Y Joon; Lauren M Simpson; Rosalind D Mouton; Isabella C Glitza; Sapna P Patel; Wen-Jen Hwu; Rodabe N Amaria; Adi Diab; Patrick Hwu; Alexander J Lazar; Jennifer A Wargo; Levi A Garraway; Michael T Tetzlaff; Ryan J Sullivan; Kevin B Kim; Michael A Davies
Journal:  JAMA Oncol       Date:  2016-08-01       Impact factor: 31.777

Review 8.  Melanoma: oncogenic drivers and the immune system.

Authors:  Niki Karachaliou; Sara Pilotto; Cristina Teixidó; Santiago Viteri; María González-Cao; Aldo Riso; Daniela Morales-Espinosa; Miguel Angel Molina; Imane Chaib; Mariacarmela Santarpia; Eduardo Richardet; Emilio Bria; Rafael Rosell
Journal:  Ann Transl Med       Date:  2015-10

9.  Acquired BRAF inhibitor resistance: A multicenter meta-analysis of the spectrum and frequencies, clinical behaviour, and phenotypic associations of resistance mechanisms.

Authors:  Douglas B Johnson; Alexander M Menzies; Lisa Zimmer; Zeynep Eroglu; Fei Ye; Shilin Zhao; Helen Rizos; Antje Sucker; Richard A Scolyer; Ralf Gutzmer; Helen Gogas; Richard F Kefford; John F Thompson; Jürgen C Becker; Carola Berking; Friederike Egberts; Carmen Loquai; Simone M Goldinger; Gulietta M Pupo; Willy Hugo; Xiangju Kong; Levi A Garraway; Jeffrey A Sosman; Antoni Ribas; Roger S Lo; Georgina V Long; Dirk Schadendorf
Journal:  Eur J Cancer       Date:  2015-11-19       Impact factor: 9.162

10.  Upregulation of S100A9 contributes to the acquired resistance to BRAF inhibitors.

Authors:  Sung-Hee Hwang; Jun-Ho Ahn; Michael Lee
Journal:  Genes Genomics       Date:  2019-08-06       Impact factor: 1.839
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