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Literature DB >> 27312529

Molecular Landscape of Acquired Resistance to Targeted Therapy Combinations in BRAF-Mutant Colorectal Cancer.

Daniele Oddo¹, Erin M Sennott², Ludovic Barault¹, Emanuele Valtorta³, Sabrina Arena¹, Andrea Cassingena³, Genny Filiciotto¹, Giulia Marzolla¹, Elena Elez⁴, Robin M J M van Geel⁵, Alice Bartolini⁶, Giovanni Crisafulli⁶, Valentina Boscaro⁷, Jason T Godfrey², Michela Buscarino⁶, Carlotta Cancelliere⁶, Michael Linnebacher⁸, Giorgio Corti⁶, Mauro Truini³, Giulia Siravegna⁹, Julieta Grasselli⁴, Margherita Gallicchio⁷, René Bernards⁵, Jan H M Schellens⁵, Josep Tabernero⁴, Jeffrey A Engelman¹⁰, Andrea Sartore-Bianchi³, Alberto Bardelli¹, Salvatore Siena¹¹, Ryan B Corcoran¹⁰, Federica Di Nicolantonio¹².

Abstract

Although recent clinical trials of BRAF inhibitor combinations have demonstrated improved efficacy in BRAF-mutant colorectal cancer, emergence of acquired resistance limits clinical benefit. Here, we undertook a comprehensive effort to define mechanisms underlying drug resistance with the goal of guiding development of therapeutic strategies to overcome this limitation. We generated a broad panel of BRAF-mutant resistant cell line models across seven different clinically relevant drug combinations. Combinatorial drug treatments were able to abrogate ERK1/2 phosphorylation in parental-sensitive cells, but not in their resistant counterparts, indicating that resistant cells escaped drug treatments through one or more mechanisms leading to biochemical reactivation of the MAPK signaling pathway. Genotyping of resistant cells identified gene amplification of EGFR, KRAS, and mutant BRAF, as well as acquired mutations in KRAS, EGFR, and MAP2K1 These mechanisms were clinically relevant, as we identified emergence of a KRAS G12C mutation and increase of mutant BRAF V600E allele frequency in the circulating tumor DNA of a patient at relapse from combined treatment with BRAF and MEK inhibitors. To identify therapeutic combinations capable of overcoming drug resistance, we performed a systematic assessment of candidate therapies across the panel of resistant cell lines. Independent of the molecular alteration acquired upon drug pressure, most resistant cells retained sensitivity to vertical MAPK pathway suppression when combinations of ERK, BRAF, and EGFR inhibitors were applied. These therapeutic combinations represent promising strategies for future clinical trials in BRAF-mutant colorectal cancer. Cancer Res; 76(15); 4504-15. ©2016 AACR. ©2016 American Association for Cancer Research.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2016 PMID： 27312529 PMCID： PMC4970882 DOI： 10.1158/0008-5472.CAN-16-0396

Source DB: PubMed Journal: Cancer Res ISSN： 0008-5472 Impact factor: 12.701

42 in total

1. EGFR-mediated re-activation of MAPK signaling contributes to insensitivity of BRAF mutant colorectal cancers to RAF inhibition with vemurafenib.

Authors: Ryan B Corcoran; Hiromichi Ebi; Alexa B Turke; Erin M Coffee; Michiya Nishino; Alexandria P Cogdill; Ronald D Brown; Patricia Della Pelle; Dora Dias-Santagata; Kenneth E Hung; Keith T Flaherty; Adriano Piris; Jennifer A Wargo; Jeffrey Settleman; Mari Mino-Kenudson; Jeffrey A Engelman
Journal: Cancer Discov Date: 2012-01-16 Impact factor: 39.397

2. Emergence of Multiple EGFR Extracellular Mutations during Cetuximab Treatment in Colorectal Cancer.

Authors: Sabrina Arena; Beatriz Bellosillo; Giulia Siravegna; Alejandro Martínez; Israel Cañadas; Luca Lazzari; Noelia Ferruz; Mariangela Russo; Sandra Misale; Iria González; Mar Iglesias; Elena Gavilan; Giorgio Corti; Sebastijan Hobor; Giovanni Crisafulli; Marta Salido; Juan Sánchez; Alba Dalmases; Joaquim Bellmunt; Gianni De Fabritiis; Ana Rovira; Federica Di Nicolantonio; Joan Albanell; Alberto Bardelli; Clara Montagut
Journal: Clin Cancer Res Date: 2015-01-26 Impact factor: 12.531

3. Oncogene-induced senescence underlies the mutual exclusive nature of oncogenic KRAS and BRAF.

Authors: J Cisowski; V I Sayin; M Liu; C Karlsson; M O Bergo
Journal: Oncogene Date: 2015-06-01 Impact factor: 9.867

4. ERK mutations confer resistance to mitogen-activated protein kinase pathway inhibitors.

Authors: Eva M Goetz; Mahmoud Ghandi; Daniel J Treacy; Nikhil Wagle; Levi A Garraway
Journal: Cancer Res Date: 2014-10-15 Impact factor: 12.701

5. Mutation analysis of the BRAF, ARAF and RAF-1 genes in human colorectal adenocarcinomas.

Authors: Karin Fransén; Maria Klintenäs; Anna Osterström; Jan Dimberg; Hans-Jürg Monstein; Peter Söderkvist
Journal: Carcinogenesis Date: 2003-12-19 Impact factor: 4.944

6. Blockade of EGFR and MEK intercepts heterogeneous mechanisms of acquired resistance to anti-EGFR therapies in colorectal cancer.

Authors: Sandra Misale; Sabrina Arena; Simona Lamba; Giulia Siravegna; Alice Lallo; Sebastijan Hobor; Mariangela Russo; Michela Buscarino; Luca Lazzari; Andrea Sartore-Bianchi; Katia Bencardino; Alessio Amatu; Calogero Lauricella; Emanuele Valtorta; Salvatore Siena; Federica Di Nicolantonio; Alberto Bardelli
Journal: Sci Transl Med Date: 2014-02-19 Impact factor: 17.956

7. Combined BRAF (Dabrafenib) and MEK inhibition (Trametinib) in patients with BRAFV600-mutant melanoma experiencing progression with single-agent BRAF inhibitor.

Authors: Douglas B Johnson; Keith T Flaherty; Jeffrey S Weber; Jeffrey R Infante; Kevin B Kim; Richard F Kefford; Omid Hamid; Lynn Schuchter; Jonathan Cebon; William H Sharfman; Robert R McWilliams; Mario Sznol; Donald P Lawrence; Geoffrey T Gibney; Howard A Burris; Gerald S Falchook; Alain Algazi; Karl Lewis; Georgina V Long; Kiran Patel; Nageatte Ibrahim; Peng Sun; Shonda Little; Elizabeth Cunningham; Jeffrey A Sosman; Adil Daud; Rene Gonzalez
Journal: J Clin Oncol Date: 2014-10-06 Impact factor: 44.544

8. Mutations of the BRAF gene in human cancer.

Authors: Helen Davies; Graham R Bignell; Charles Cox; Philip Stephens; Sarah Edkins; Sheila Clegg; Jon Teague; Hayley Woffendin; Mathew J Garnett; William Bottomley; Neil Davis; Ed Dicks; Rebecca Ewing; Yvonne Floyd; Kristian Gray; Sarah Hall; Rachel Hawes; Jaime Hughes; Vivian Kosmidou; Andrew Menzies; Catherine Mould; Adrian Parker; Claire Stevens; Stephen Watt; Steven Hooper; Rebecca Wilson; Hiran Jayatilake; Barry A Gusterson; Colin Cooper; Janet Shipley; Darren Hargrave; Katherine Pritchard-Jones; Norman Maitland; Georgia Chenevix-Trench; Gregory J Riggins; Darell D Bigner; Giuseppe Palmieri; Antonio Cossu; Adrienne Flanagan; Andrew Nicholson; Judy W C Ho; Suet Y Leung; Siu T Yuen; Barbara L Weber; Hilliard F Seigler; Timothy L Darrow; Hugh Paterson; Richard Marais; Christopher J Marshall; Richard Wooster; Michael R Stratton; P Andrew Futreal
Journal: Nature Date: 2002-06-09 Impact factor: 49.962

9. 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

10. Phase II Pilot Study of Vemurafenib in Patients With Metastatic BRAF-Mutated Colorectal Cancer.

Authors: Scott Kopetz; Jayesh Desai; Emily Chan; Joel Randolph Hecht; Peter J O'Dwyer; Dipen Maru; Van Morris; Filip Janku; Arvind Dasari; Woonbook Chung; Jean-Pierre J Issa; Peter Gibbs; Brian James; Garth Powis; Keith B Nolop; Suman Bhattacharya; Leonard Saltz
Journal: J Clin Oncol Date: 2015-10-12 Impact factor: 44.544

40 in total

1. Mechanisms of Acquired Resistance to BRAF V600E Inhibition in Colon Cancers Converge on RAF Dimerization and Are Sensitive to Its Inhibition.

Authors: Rona Yaeger; Zhan Yao; David M Hyman; Jaclyn F Hechtman; Efsevia Vakiani; HuiYong Zhao; Wenjing Su; Lu Wang; Andrew Joelson; Andrea Cercek; Jose Baselga; Elisa de Stanchina; Leonard Saltz; Michael F Berger; David B Solit; Neal Rosen
Journal: Cancer Res Date: 2017-09-26 Impact factor: 12.701

Review 2. 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

3. Convergent Therapeutic Strategies to Overcome the Heterogeneity of Acquired Resistance in BRAF^V600E Colorectal Cancer.

Authors: Mehlika Hazar-Rethinam; Marianna Kleyman; G Celine Han; David Liu; Leanne G Ahronian; Heather A Shahzade; Lifeng Chen; Aparna R Parikh; Jill N Allen; Jeffrey W Clark; Eunice L Kwak; Jason E Faris; Janet E Murphy; Theodore S Hong; Emily E Van Seventer; Brandon Nadres; Catriona B Hong; Joseph M Gurski; Nicholas A Jessop; Dora Dias-Santagata; A John Iafrate; Eliezer M Van Allen; Ryan B Corcoran
Journal: Cancer Discov Date: 2018-02-05 Impact factor: 39.397

4. Combined BRAF, EGFR, and MEK Inhibition in Patients with BRAF^V600E-Mutant Colorectal Cancer.

Authors: Ryan B Corcoran; Thierry André; Chloe E Atreya; Jan H M Schellens; Takayuki Yoshino; Johanna C Bendell; Antoine Hollebecque; Autumn J McRee; Salvatore Siena; Gary Middleton; Kei Muro; Michael S Gordon; Josep Tabernero; Rona Yaeger; Peter J O'Dwyer; Yves Humblet; Filip De Vos; A Scott Jung; Jan C Brase; Savina Jaeger; Severine Bettinger; Bijoyesh Mookerjee; Fatima Rangwala; Eric Van Cutsem
Journal: Cancer Discov Date: 2018-02-05 Impact factor: 39.397

5. BRAF inhibition upregulates a variety of receptor tyrosine kinases and their downstream effector Gab2 in colorectal cancer cell lines.

Authors: Ricarda Herr; Sebastian Halbach; Miriam Heizmann; Hauke Busch; Melanie Boerries; Tilman Brummer
Journal: Oncogene Date: 2018-01-12 Impact factor: 9.867