Literature DB >> 29540830

Classifying BRAF alterations in cancer: new rational therapeutic strategies for actionable mutations.

Matthew Dankner1,2, April A N Rose3, Shivshankari Rajkumar1,4, Peter M Siegel1,2, Ian R Watson5,6.   

Abstract

The RAS-RAF-MEK-ERK signaling cascade is among the most frequently mutated pathways in human cancer. Approximately 50% of melanoma patients possess a druggable hotspot V600E/K mutation in the BRAF protein kinase. FDA-approved combination therapies of BRAF and MEK inhibitors are available that provide survival benefits to patients with a BRAF V600 mutation. Non-V600 BRAF mutants are found in many cancers, and are more prevalent than V600 mutations in certain tumor types. For example, between 50-80% of BRAF mutations in non-small cell lung cancer and 22-30% in colorectal cancer encode for non-V600 mutants. As next generation sequencing becomes increasingly used in clinical practice, oncologists are frequently identifying non-V600 BRAF mutations in their patient's tumors, but are uncertain of viable therapeutic options that could be employed for optimal treatment. From recent studies, a new classification system is emerging for BRAF mutations based on biochemical and signaling mechanisms associated with these mutants. Class I BRAF mutations affect amino acid V600 and signal as RAS-independent active monomers, class II mutations function as RAS-independent activated dimers, and class III mutations are kinase impaired but increase signaling through the MAPK pathway due to enhanced RAS binding and subsequent CRAF activation. These distinct classes of BRAF mutations predict response to targeted therapies and have important implications for future drug development. Herein, we discuss pre-clinical and clinical findings that may lead to improved treatments for all classes of BRAF mutant cancers.

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Year:  2018        PMID: 29540830     DOI: 10.1038/s41388-018-0171-x

Source DB:  PubMed          Journal:  Oncogene        ISSN: 0950-9232            Impact factor:   9.867


  137 in total

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Journal:  N Engl J Med       Date:  2014-11-16       Impact factor: 91.245

Review 2.  BRAF, a target in melanoma: implications for solid tumor drug development.

Authors:  Keith T Flaherty; Grant McArthur
Journal:  Cancer       Date:  2010-11-01       Impact factor: 6.860

Review 3.  Targeting GPNMB with glembatumumab vedotin: Current developments and future opportunities for the treatment of cancer.

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Journal:  Pharmacol Ther       Date:  2017-05-22       Impact factor: 12.310

4.  Clinicopathological features and clinical outcomes associated with TP53 and BRAFNon-V600 mutations in cutaneous melanoma patients.

Authors:  Dae Won Kim; Lauren E Haydu; Aron Y Joon; Roland L Bassett; Alan E Siroy; Michael T Tetzlaff; Mark J Routbort; Rodabe N Amaria; Jennifer A Wargo; Jennifer L McQuade; Jan Kemnade; Patrick Hwu; Scott E Woodman; Jason Roszik; Kevin B Kim; Jeffrey E Gershenwald; Alexander J Lazar; Michael A Davies
Journal:  Cancer       Date:  2016-12-02       Impact factor: 6.860

5.  Recurrent somatic alterations of FGFR1 and NTRK2 in pilocytic astrocytoma.

Authors:  David T W Jones; Barbara Hutter; Natalie Jäger; Andrey Korshunov; Marcel Kool; Hans-Jörg Warnatz; Thomas Zichner; Sally R Lambert; Marina Ryzhova; Dong Anh Khuong Quang; Adam M Fontebasso; Adrian M Stütz; Sonja Hutter; Marc Zuckermann; Dominik Sturm; Jan Gronych; Bärbel Lasitschka; Sabine Schmidt; Huriye Seker-Cin; Hendrik Witt; Marc Sultan; Meryem Ralser; Paul A Northcott; Volker Hovestadt; Sebastian Bender; Elke Pfaff; Sebastian Stark; Damien Faury; Jeremy Schwartzentruber; Jacek Majewski; Ursula D Weber; Marc Zapatka; Benjamin Raeder; Matthias Schlesner; Catherine L Worth; Cynthia C Bartholomae; Christof von Kalle; Charles D Imbusch; Sylwester Radomski; Chris Lawerenz; Peter van Sluis; Jan Koster; Richard Volckmann; Rogier Versteeg; Hans Lehrach; Camelia Monoranu; Beate Winkler; Andreas Unterberg; Christel Herold-Mende; Till Milde; Andreas E Kulozik; Martin Ebinger; Martin U Schuhmann; Yoon-Jae Cho; Scott L Pomeroy; Andreas von Deimling; Olaf Witt; Michael D Taylor; Stephan Wolf; Matthias A Karajannis; Charles G Eberhart; Wolfram Scheurlen; Martin Hasselblatt; Keith L Ligon; Mark W Kieran; Jan O Korbel; Marie-Laure Yaspo; Benedikt Brors; Jörg Felsberg; Guido Reifenberger; V Peter Collins; Nada Jabado; Roland Eils; Peter Lichter; Stefan M Pfister
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6.  Structure and biological activity of v-raf, a unique oncogene transduced by a retrovirus.

Authors:  U R Rapp; M D Goldsborough; G E Mark; T I Bonner; J Groffen; F H Reynolds; J R Stephenson
Journal:  Proc Natl Acad Sci U S A       Date:  1983-07       Impact factor: 11.205

7.  Allosteric activation of functionally asymmetric RAF kinase dimers.

Authors:  Jiancheng Hu; Edward C Stites; Haiyang Yu; Elizabeth A Germino; Hiruy S Meharena; Philip J S Stork; Alexandr P Kornev; Susan S Taylor; Andrey S Shaw
Journal:  Cell       Date:  2013-08-29       Impact factor: 41.582

8.  RAF inhibitor resistance is mediated by dimerization of aberrantly spliced BRAF(V600E).

Authors:  Poulikos I Poulikakos; Yogindra Persaud; Manickam Janakiraman; Xiangju Kong; Charles Ng; Gatien Moriceau; Hubing Shi; Mohammad Atefi; Bjoern Titz; May Tal Gabay; Maayan Salton; Kimberly B Dahlman; Madhavi Tadi; Jennifer A Wargo; Keith T Flaherty; Mark C Kelley; Tom Misteli; Paul B Chapman; Jeffrey A Sosman; Thomas G Graeber; Antoni Ribas; Roger S Lo; Neal Rosen; David B Solit
Journal:  Nature       Date:  2011-11-23       Impact factor: 49.962

9.  The distribution of BRAF gene fusions in solid tumors and response to targeted therapy.

Authors:  Jeffrey S Ross; Kai Wang; Juliann Chmielecki; Laurie Gay; Adrienne Johnson; Jacob Chudnovsky; Roman Yelensky; Doron Lipson; Siraj M Ali; Julia A Elvin; Jo-Anne Vergilio; Steven Roels; Vincent A Miller; Brooke N Nakamura; Adam Gray; Michael K Wong; Philip J Stephens
Journal:  Int J Cancer       Date:  2015-09-08       Impact factor: 7.396

10.  BAY 43-9006 exhibits broad spectrum oral antitumor activity and targets the RAF/MEK/ERK pathway and receptor tyrosine kinases involved in tumor progression and angiogenesis.

Authors:  Scott M Wilhelm; Christopher Carter; Liya Tang; Dean Wilkie; Angela McNabola; Hong Rong; Charles Chen; Xiaomei Zhang; Patrick Vincent; Mark McHugh; Yichen Cao; Jaleel Shujath; Susan Gawlak; Deepa Eveleigh; Bruce Rowley; Li Liu; Lila Adnane; Mark Lynch; Daniel Auclair; Ian Taylor; Rich Gedrich; Andrei Voznesensky; Bernd Riedl; Leonard E Post; Gideon Bollag; Pamela A Trail
Journal:  Cancer Res       Date:  2004-10-01       Impact factor: 13.312
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  94 in total

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2.  Concomitant KRAS and BRAF mutations in colorectal cancer.

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3.  Systematic evaluation of the microRNAome through miR-CATCHv2.0 identifies positive and negative regulators of BRAF-X1 mRNA.

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Journal:  RNA Biol       Date:  2019-04-19       Impact factor: 4.652

4.  Characteristics of BRAF V600E Mutant, Deficient Mismatch Repair/Proficient Mismatch Repair, Metastatic Colorectal Cancer: A Multicenter Series of 287 Patients.

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Journal:  Oncologist       Date:  2019-05-31

5.  Prolonged Complete Response With Combined Dabrafenib and Trametinib After BRAF Inhibitor Failure in BRAF-Mutant Glioblastoma.

Authors:  Marina Kushnirsky; Lynn G Feun; Sakir H Gultekin; Macarena I de la Fuente
Journal:  JCO Precis Oncol       Date:  2020-02-03

Review 6.  Emerging application of genomics-guided therapeutics in personalized lung cancer treatment.

Authors:  Aubhishek Zaman; Trever G Bivona
Journal:  Ann Transl Med       Date:  2018-05

Review 7.  RAF kinase dimerization: implications for drug discovery and clinical outcomes.

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Journal:  Oncogene       Date:  2020-04-08       Impact factor: 9.867

8.  Concurrent inhibition of ErbB family and MEK/ERK kinases to suppress non-small cell lung cancer proliferation.

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9.  A Novel System for Functional Determination of Variants of Uncertain Significance using Deep Convolutional Neural Networks.

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10.  Whole Exome Sequencing of SMO, BRAF, PTCH1 and GNAS in Odontogenic Diseases.

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Journal:  In Vivo       Date:  2020 Nov-Dec       Impact factor: 2.155
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