Literature DB >> 23833299

Tumor genetic analyses of patients with metastatic melanoma treated with the BRAF inhibitor dabrafenib (GSK2118436).

Katherine L Nathanson1, Anne-Marie Martin, Bradley Wubbenhorst, Joel Greshock, Richard Letrero, Kurt D'Andrea, Steven O'Day, Jeffrey R Infante, Gerald S Falchook, Hendrik-Tobias Arkenau, Michael Millward, Michael P Brown, Anna Pavlick, Michael A Davies, Bo Ma, Robert Gagnon, Martin Curtis, Peter F Lebowitz, Richard Kefford, Georgina V Long.   

Abstract

PURPOSE: Dabrafenib is a selective inhibitor of V600-mutant BRAF kinase, which recently showed improved progression-free survival (PFS) as compared with dacarbazine, in metastatic melanoma patients. This study examined potential genetic markers associated with response and PFS in the phase I study of dabrafenib. EXPERIMENTAL
DESIGN: Baseline (pretreatment or archival) melanoma samples were evaluated in 41 patients using a custom genotyping melanoma-specific assay, sequencing of PTEN, and copy number analysis using multiplex ligation amplification and array-based comparative genomic hybridization. Nine patients had on-treatment and/or progression samples available.
RESULTS: All baseline patient samples had BRAF(V600E/K) confirmed. Baseline PTEN loss/mutation was not associated with best overall response to dabrafenib, but it showed a trend for shorter median PFS [18.3 (95% confidence interval, CI, 9.1-24.3) vs. 32.1 weeks (95% CI, 24.1-33), P=0.059]. Higher copy number of CCND1 (P=0.009) and lower copy number of CDKN2A (P=0.012) at baseline were significantly associated with decreased PFS. Although no melanomas had high-level amplification of BRAF, the two patients with progressive disease as their best response had BRAF copy gain in their tumors.
CONCLUSIONS: Copy number changes in CDKN2A, CCND1, and mutation/copy number changes in PTEN correlated with the duration of PFS in patients treated with dabrafenib. The results suggest that these markers should be considered in the design and interpretation of future trials with selective BRAF inhibitors in advanced melanoma patients. ©2013 AACR.

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Year:  2013        PMID: 23833299      PMCID: PMC3924894          DOI: 10.1158/1078-0432.CCR-13-0827

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


  48 in total

Review 1.  Melanoma: from mutations to medicine.

Authors:  Hensin Tsao; Lynda Chin; Levi A Garraway; David E Fisher
Journal:  Genes Dev       Date:  2012-06-01       Impact factor: 11.361

2.  Abnormal structure and expression of PTEN/MMAC1 gene in human uterine cancers.

Authors:  Y Yaginuma; T Yamashita; T Ishiya; A Morizaki; Y Katoh; T Takahashi; H Hayashi; M Ishikawa
Journal:  Mol Carcinog       Date:  2000-02       Impact factor: 4.784

3.  Role and therapeutic potential of PI3K-mTOR signaling in de novo resistance to BRAF inhibition.

Authors:  W Deng; Y N Vashisht Gopal; A Scott; G Chen; S E Woodman; M A Davies
Journal:  Pigment Cell Melanoma Res       Date:  2012-01-12       Impact factor: 4.693

4.  NRAS mutation status is an independent prognostic factor in metastatic melanoma.

Authors:  John A Jakob; Roland L Bassett; Chaan S Ng; Jonathan L Curry; Richard W Joseph; Gladys C Alvarado; Michelle L Rohlfs; Jessie Richard; Jeffrey E Gershenwald; Kevin B Kim; Alexander J Lazar; Patrick Hwu; Michael A Davies
Journal:  Cancer       Date:  2011-12-16       Impact factor: 6.860

5.  PTEN mutations and microsatellite instability in complex atypical hyperplasia, a precursor lesion to uterine endometrioid carcinoma.

Authors:  R L Levine; C B Cargile; M S Blazes; B van Rees; R J Kurman; L H Ellenson
Journal:  Cancer Res       Date:  1998-08-01       Impact factor: 12.701

6.  Genomic profiling of malignant melanoma using tiling-resolution arrayCGH.

Authors:  G Jönsson; C Dahl; J Staaf; T Sandberg; P-O Bendahl; M Ringnér; P Guldberg; A Borg
Journal:  Oncogene       Date:  2007-01-29       Impact factor: 9.867

7.  Survival in BRAF V600-mutant advanced melanoma treated with vemurafenib.

Authors:  Jeffrey A Sosman; Kevin B Kim; Lynn Schuchter; Rene Gonzalez; Anna C Pavlick; Jeffrey S Weber; Grant A McArthur; Thomas E Hutson; Stergios J Moschos; Keith T Flaherty; Peter Hersey; Richard Kefford; Donald Lawrence; Igor Puzanov; Karl D Lewis; Ravi K Amaravadi; Bartosz Chmielowski; H Jeffrey Lawrence; Yu Shyr; Fei Ye; Jiang Li; Keith B Nolop; Richard J Lee; Andrew K Joe; Antoni Ribas
Journal:  N Engl J Med       Date:  2012-02-23       Impact factor: 91.245

8.  A comprehensive catalogue of somatic mutations from a human cancer genome.

Authors:  Erin D Pleasance; R Keira Cheetham; Philip J Stephens; David J McBride; Sean J Humphray; Chris D Greenman; Ignacio Varela; Meng-Lay Lin; Gonzalo R Ordóñez; Graham R Bignell; Kai Ye; Julie Alipaz; Markus J Bauer; David Beare; Adam Butler; Richard J Carter; Lina Chen; Anthony J Cox; Sarah Edkins; Paula I Kokko-Gonzales; Niall A Gormley; Russell J Grocock; Christian D Haudenschild; Matthew M Hims; Terena James; Mingming Jia; Zoya Kingsbury; Catherine Leroy; John Marshall; Andrew Menzies; Laura J Mudie; Zemin Ning; Tom Royce; Ole B Schulz-Trieglaff; Anastassia Spiridou; Lucy A Stebbings; Lukasz Szajkowski; Jon Teague; David Williamson; Lynda Chin; Mark T Ross; Peter J Campbell; David R Bentley; P Andrew Futreal; Michael R Stratton
Journal:  Nature       Date:  2009-12-16       Impact factor: 49.962

9.  The genomic complexity of primary human prostate cancer.

Authors:  Michael F Berger; Michael S Lawrence; Francesca Demichelis; Yotam Drier; Kristian Cibulskis; Andrey Y Sivachenko; Andrea Sboner; Raquel Esgueva; Dorothee Pflueger; Carrie Sougnez; Robert Onofrio; Scott L Carter; Kyung Park; Lukas Habegger; Lauren Ambrogio; Timothy Fennell; Melissa Parkin; Gordon Saksena; Douglas Voet; Alex H Ramos; Trevor J Pugh; Jane Wilkinson; Sheila Fisher; Wendy Winckler; Scott Mahan; Kristin Ardlie; Jennifer Baldwin; Jonathan W Simons; Naoki Kitabayashi; Theresa Y MacDonald; Philip W Kantoff; Lynda Chin; Stacey B Gabriel; Mark B Gerstein; Todd R Golub; Matthew Meyerson; Ashutosh Tewari; Eric S Lander; Gad Getz; Mark A Rubin; Levi A Garraway
Journal:  Nature       Date:  2011-02-10       Impact factor: 49.962

10.  COT drives resistance to RAF inhibition through MAP kinase pathway reactivation.

Authors:  Cory M Johannessen; Jesse S Boehm; So Young Kim; Sapana R Thomas; Leslie Wardwell; Laura A Johnson; Caroline M Emery; Nicolas Stransky; Alexandria P Cogdill; Jordi Barretina; Giordano Caponigro; Haley Hieronymus; Ryan R Murray; Kourosh Salehi-Ashtiani; David E Hill; Marc Vidal; Jean J Zhao; Xiaoping Yang; Ozan Alkan; Sungjoon Kim; Jennifer L Harris; Christopher J Wilson; Vic E Myer; Peter M Finan; David E Root; Thomas M Roberts; Todd Golub; Keith T Flaherty; Reinhard Dummer; Barbara L Weber; William R Sellers; Robert Schlegel; Jennifer A Wargo; William C Hahn; Levi A Garraway
Journal:  Nature       Date:  2010-11-24       Impact factor: 49.962
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  79 in total

1.  Mechanisms of Resistance to BRAF-Targeted Melanoma Therapies.

Authors:  Ozgecan Dulgar; Tugce Kutuk; Zeynep Eroglu
Journal:  Am J Clin Dermatol       Date:  2021-01       Impact factor: 7.403

Review 2.  Cell Cycle Regulation and Melanoma.

Authors:  Wen Xu; Grant McArthur
Journal:  Curr Oncol Rep       Date:  2016-06       Impact factor: 5.075

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

Authors:  Andrea Marranci; Romina D'Aurizio; Sebastian Vencken; Serena Mero; Elena Guzzolino; Milena Rizzo; Letizia Pitto; Marco Pellegrini; Giovanna Chiorino; Catherine M Greene; Laura Poliseno
Journal:  RNA Biol       Date:  2019-04-19       Impact factor: 4.652

4.  The potential for BRAF V600 inhibitors in advanced cutaneous melanoma: rationale and latest evidence.

Authors:  Charlotte Lemech; Jeffrey Infante; Hendrik-Tobias Arkenau
Journal:  Ther Adv Med Oncol       Date:  2012-03       Impact factor: 8.168

5.  Genotyping of cutaneous melanoma.

Authors:  Isabella C Glitza; Michael A Davies
Journal:  Chin Clin Oncol       Date:  2014-09

6.  Proteomic Analysis of CSF from Patients with Leptomeningeal Melanoma Metastases Identifies Signatures Associated with Disease Progression and Therapeutic Resistance.

Authors:  Inna Smalley; Vincent Law; Clayton Wyatt; Brittany Evernden; Bin Fang; John M Koomen; Eric A Welsh; Robert J B Macaulay; Peter A Forsyth; Keiran S M Smalley
Journal:  Clin Cancer Res       Date:  2020-01-10       Impact factor: 12.531

Review 7.  CDK4 inhibitors an emerging strategy for the treatment of melanoma.

Authors:  Belinda Lee; Grant A McArthur
Journal:  Melanoma Manag       Date:  2015-08-10

Review 8.  Copper suppression as cancer therapy: the rationale for copper chelating agents in BRAFV600 mutated melanoma.

Authors:  Sarah Sammons; Donita Brady; Linda Vahdat; April Ks Salama
Journal:  Melanoma Manag       Date:  2016-09-02

Review 9.  Targeted therapies in melanoma.

Authors:  Stergios J Moschos; Ramya Pinnamaneni
Journal:  Surg Oncol Clin N Am       Date:  2015-01-24       Impact factor: 3.495

10.  AXL/AKT axis mediated-resistance to BRAF inhibitor depends on PTEN status in melanoma.

Authors:  Qiang Zuo; Jing Liu; Liping Huang; Yifei Qin; Teresa Hawley; Claire Seo; Glenn Merlino; Yanlin Yu
Journal:  Oncogene       Date:  2018-03-19       Impact factor: 9.867
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