Literature DB >> 34930786

Plasticity of Extrachromosomal and Intrachromosomal BRAF Amplifications in Overcoming Targeted Therapy Dosage Challenges.

Kai Song1, Jenna K Minami2,3, Arthur Huang2, Siavash R Dehkordi4, Shirley H Lomeli5, Jens Luebeck4, Mark H Goodman2, Gatien Moriceau5, Oscar Krijgsman6, Prashanthi Dharanipragada5, Trevor Ridgley7, William P Crosson2, Jesus Salazar2, Eli Pazol2, Gabriel Karin2, Rachana Jayaraman2, Nikolas G Balanis2, Salwan Alhani2, Kyle Sheu2, Johanna Ten Hoeve2,8, Amelia Palermo2,8, Stephen E Motika9, T Niroshi Senaratne10, Kim H Paraiso2, Paul J Hergenrother9, P Nagesh Rao10, Asha S Multani11, Daniel S Peeper6, Vineet Bafna4, Roger S Lo2,5,12, Thomas G Graeber2,8,12,13,14,15.   

Abstract

Focal amplifications (FA) can mediate targeted therapy resistance in cancer. Understanding the structure and dynamics of FAs is critical for designing treatments that overcome plasticity-mediated resistance. We developed a melanoma model of dual MAPK inhibitor (MAPKi) resistance that bears BRAFV600 amplifications through either extrachromosomal DNA (ecDNA)/double minutes (DM) or intrachromosomal homogenously staining regions (HSR). Cells harboring BRAFV600E FAs displayed mode switching between DMs and HSRs, from both de novo genetic changes and selection of preexisting subpopulations. Plasticity is not exclusive to ecDNAs, as cells harboring HSRs exhibit drug addiction-driven structural loss of BRAF amplicons upon dose reduction. FA mechanisms can couple with kinase domain duplications and alternative splicing to enhance resistance. Drug-responsive amplicon plasticity is observed in the clinic and can involve other MAPK pathway genes, such as RAF1 and NRAS. BRAF FA-mediated dual MAPKi-resistant cells are more sensitive to proferroptotic drugs, extending the spectrum of ferroptosis sensitivity in MAPKi resistance beyond cases of dedifferentiation. SIGNIFICANCE: Understanding the structure and dynamics of oncogene amplifications is critical for overcoming tumor relapse. BRAF amplifications are highly plastic under MAPKi dosage challenges in melanoma, through involvement of de novo genomic alterations, even in the HSR mode. Moreover, BRAF FA-driven, dual MAPKi-resistant cells extend the spectrum of resistance-linked ferroptosis sensitivity. This article is highlighted in the In This Issue feature, p. 873. ©2021 American Association for Cancer Research.

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Year:  2022        PMID: 34930786      PMCID: PMC9192483          DOI: 10.1158/2159-8290.CD-20-0936

Source DB:  PubMed          Journal:  Cancer Discov        ISSN: 2159-8274            Impact factor:   38.272


  123 in total

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2.  Concurrent MEK2 mutation and BRAF amplification confer resistance to BRAF and MEK inhibitors in melanoma.

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Journal:  Cell Rep       Date:  2013-09-19       Impact factor: 9.423

3.  Double-strand breakage in the extrachromosomal double minutes triggers their aggregation in the nucleus, micronucleation, and morphological transformation.

Authors:  Yoshihiro Oobatake; Noriaki Shimizu
Journal:  Genes Chromosomes Cancer       Date:  2019-10-04       Impact factor: 5.006

4.  Amplification of endogenous myc-related DNA sequences in a human myeloid leukaemia cell line.

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Journal:  Nature       Date:  1982-08-12       Impact factor: 49.962

5.  Amplified dihydrofolate reductase genes are localized to a homogeneously staining region of a single chromosome in a methotrexate-resistant Chinese hamster ovary cell line.

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6.  Double minutes arise from circular extrachromosomal DNA intermediates which integrate into chromosomal sites in human HL-60 leukemia cells.

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Journal:  J Clin Invest       Date:  1990-06       Impact factor: 14.808

7.  Next-generation characterization of the Cancer Cell Line Encyclopedia.

Authors:  Mahmoud Ghandi; Franklin W Huang; Judit Jané-Valbuena; Gregory V Kryukov; Christopher C Lo; E Robert McDonald; Jordi Barretina; Ellen T Gelfand; Craig M Bielski; Haoxin Li; Kevin Hu; Alexander Y Andreev-Drakhlin; Jaegil Kim; Julian M Hess; Brian J Haas; François Aguet; Barbara A Weir; Michael V Rothberg; Brenton R Paolella; Michael S Lawrence; Rehan Akbani; Yiling Lu; Hong L Tiv; Prafulla C Gokhale; Antoine de Weck; Ali Amin Mansour; Coyin Oh; Juliann Shih; Kevin Hadi; Yanay Rosen; Jonathan Bistline; Kavitha Venkatesan; Anupama Reddy; Dmitriy Sonkin; Manway Liu; Joseph Lehar; Joshua M Korn; Dale A Porter; Michael D Jones; Javad Golji; Giordano Caponigro; Jordan E Taylor; Caitlin M Dunning; Amanda L Creech; Allison C Warren; James M McFarland; Mahdi Zamanighomi; Audrey Kauffmann; Nicolas Stransky; Marcin Imielinski; Yosef E Maruvka; Andrew D Cherniack; Aviad Tsherniak; Francisca Vazquez; Jacob D Jaffe; Andrew A Lane; David M Weinstock; Cory M Johannessen; Michael P Morrissey; Frank Stegmeier; Robert Schlegel; William C Hahn; Gad Getz; Gordon B Mills; Jesse S Boehm; Todd R Golub; Levi A Garraway; William R Sellers
Journal:  Nature       Date:  2019-05-08       Impact factor: 49.962

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.  ROS production induced by BRAF inhibitor treatment rewires metabolic processes affecting cell growth of melanoma cells.

Authors:  Giulia Cesi; Geoffroy Walbrecq; Andreas Zimmer; Stephanie Kreis; Claude Haan
Journal:  Mol Cancer       Date:  2017-06-08       Impact factor: 27.401

10.  FaNDOM: Fast nested distance-based seeding of optical maps.

Authors:  Siavash Raeisi Dehkordi; Jens Luebeck; Vineet Bafna
Journal:  Patterns (N Y)       Date:  2021-05-03
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  8 in total

Review 1.  BRAF/MEK inhibition in NSCLC: mechanisms of resistance and how to overcome it.

Authors:  Ioannis Tsamis; Georgia Gomatou; Stavroula Porfyria Chachali; Ioannis Panagiotis Trontzas; Vasileios Patriarcheas; Emmanouil Panagiotou; Elias Kotteas
Journal:  Clin Transl Oncol       Date:  2022-06-21       Impact factor: 3.405

Review 2.  Ferroptosis turns 10: Emerging mechanisms, physiological functions, and therapeutic applications.

Authors:  Brent R Stockwell
Journal:  Cell       Date:  2022-07-07       Impact factor: 66.850

Review 3.  Biomolecular Condensation: A New Phase in Cancer Research.

Authors:  Anupam K Chakravarty; Daniel J McGrail; Thomas M Lozanoski; Brandon S Dunn; David J H Shih; Kara M Cirillo; Sueda H Cetinkaya; Wenjin Jim Zheng; Gordon B Mills; S Stephen Yi; Daniel F Jarosz; Nidhi Sahni
Journal:  Cancer Discov       Date:  2022-09-02       Impact factor: 38.272

Review 4.  Guilt by association: EcDNA as a mobile transactivator in cancer.

Authors:  Yanfen Zhu; Liang Gong; Chia-Lin Wei
Journal:  Trends Cancer       Date:  2022-06-23

Review 5.  Extrachromosomal DNA amplifications in cancer.

Authors:  Eunhee Yi; Rocío Chamorro González; Anton G Henssen; Roel G W Verhaak
Journal:  Nat Rev Genet       Date:  2022-08-11       Impact factor: 59.581

Review 6.  Leveraging extrachromosomal DNA to fine-tune trials of targeted therapy for glioblastoma: opportunities and challenges.

Authors:  Imran Noorani; Paul S Mischel; Charles Swanton
Journal:  Nat Rev Clin Oncol       Date:  2022-09-21       Impact factor: 65.011

Review 7.  Life of double minutes: generation, maintenance, and elimination.

Authors:  Mila Ilić; Irene C Zaalberg; Jonne A Raaijmakers; René H Medema
Journal:  Chromosoma       Date:  2022-04-30       Impact factor: 2.919

Review 8.  Extrachromosomal circular DNA: biogenesis, structure, functions and diseases.

Authors:  Ludi Yang; Ruobing Jia; Tongxin Ge; Shengfang Ge; Ai Zhuang; Peiwei Chai; Xianqun Fan
Journal:  Signal Transduct Target Ther       Date:  2022-10-02
  8 in total

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