Literature DB >> 25223734

Genomic landscape of Ewing sarcoma defines an aggressive subtype with co-association of STAG2 and TP53 mutations.

Franck Tirode1, Didier Surdez1, Xiaotu Ma2, Matthew Parker2, Marie Cécile Le Deley3, Armita Bahrami4, Zhaojie Zhang2, Eve Lapouble5, Sandrine Grossetête-Lalami1, Michael Rusch2, Stéphanie Reynaud5, Thomas Rio-Frio6, Erin Hedlund2, Gang Wu2, Xiang Chen2, Gaelle Pierron5, Odile Oberlin7, Sakina Zaidi1, Gordon Lemmon2, Pankaj Gupta2, Bhavin Vadodaria8, John Easton8, Marta Gut9, Li Ding10, Elaine R Mardis10, Richard K Wilson10, Sheila Shurtleff4, Valérie Laurence11, Jean Michon12, Perrine Marec-Bérard13, Ivo Gut9, James Downing8, Michael Dyer14, Jinghui Zhang15, Olivier Delattre16.   

Abstract

UNLABELLED: Ewing sarcoma is a primary bone tumor initiated by EWSR1-ETS gene fusions. To identify secondary genetic lesions that contribute to tumor progression, we performed whole-genome sequencing of 112 Ewing sarcoma samples and matched germline DNA. Overall, Ewing sarcoma tumors had relatively few single-nucleotide variants, indels, structural variants, and copy-number alterations. Apart from whole chromosome arm copy-number changes, the most common somatic mutations were detected in STAG2 (17%), CDKN2A (12%), TP53 (7%), EZH2, BCOR, and ZMYM3 (2.7% each). Strikingly, STAG2 mutations and CDKN2A deletions were mutually exclusive, as confirmed in Ewing sarcoma cell lines. In an expanded cohort of 299 patients with clinical data, we discovered that STAG2 and TP53 mutations are often concurrent and are associated with poor outcome. Finally, we detected subclonal STAG2 mutations in diagnostic tumors and expansion of STAG2-immunonegative cells in relapsed tumors as compared with matched diagnostic samples. SIGNIFICANCE: Whole-genome sequencing reveals that the somatic mutation rate in Ewing sarcoma is low. Tumors that harbor STAG2 and TP53 mutations have a particularly dismal prognosis with current treatments and require alternative therapies. Novel drugs that target epigenetic regulators may constitute viable therapeutic strategies in a subset of patients with mutations in chromatin modifiers. ©2014 American Association for Cancer Research.

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Year:  2014        PMID: 25223734      PMCID: PMC4264969          DOI: 10.1158/2159-8290.CD-14-0622

Source DB:  PubMed          Journal:  Cancer Discov        ISSN: 2159-8274            Impact factor:   39.397


  50 in total

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Authors:  Stephen L Lessnick; Marc Ladanyi
Journal:  Annu Rev Pathol       Date:  2011-09-19       Impact factor: 23.472

2.  Driver mutations in histone H3.3 and chromatin remodelling genes in paediatric glioblastoma.

Authors:  Jeremy Schwartzentruber; Andrey Korshunov; Xiao-Yang Liu; David T W Jones; Elke Pfaff; Karine Jacob; Dominik Sturm; Adam M Fontebasso; Dong-Anh Khuong Quang; Martje Tönjes; Volker Hovestadt; Steffen Albrecht; Marcel Kool; Andre Nantel; Carolin Konermann; Anders Lindroth; Natalie Jäger; Tobias Rausch; Marina Ryzhova; Jan O Korbel; Thomas Hielscher; Peter Hauser; Miklos Garami; Almos Klekner; Laszlo Bognar; Martin Ebinger; Martin U Schuhmann; Wolfram Scheurlen; Arnulf Pekrun; Michael C Frühwald; Wolfgang Roggendorf; Christoph Kramm; Matthias Dürken; Jeffrey Atkinson; Pierre Lepage; Alexandre Montpetit; Magdalena Zakrzewska; Krzystof Zakrzewski; Pawel P Liberski; Zhifeng Dong; Peter Siegel; Andreas E Kulozik; Marc Zapatka; Abhijit Guha; David Malkin; Jörg Felsberg; Guido Reifenberger; Andreas von Deimling; Koichi Ichimura; V Peter Collins; Hendrik Witt; Till Milde; Olaf Witt; Cindy Zhang; Pedro Castelo-Branco; Peter Lichter; Damien Faury; Uri Tabori; Christoph Plass; Jacek Majewski; Stefan M Pfister; Nada Jabado
Journal:  Nature       Date:  2012-01-29       Impact factor: 49.962

3.  Whole-genome and whole-exome sequencing of bladder cancer identifies frequent alterations in genes involved in sister chromatid cohesion and segregation.

Authors:  Guangwu Guo; Xiaojuan Sun; Chao Chen; Song Wu; Peide Huang; Zesong Li; Michael Dean; Yi Huang; Wenlong Jia; Quan Zhou; Aifa Tang; Zuoquan Yang; Xianxin Li; Pengfei Song; Xiaokun Zhao; Rui Ye; Shiqiang Zhang; Zhao Lin; Mingfu Qi; Shengqing Wan; Liangfu Xie; Fan Fan; Michael L Nickerson; Xiangjun Zou; Xueda Hu; Li Xing; Zhaojie Lv; Hongbin Mei; Shengjie Gao; Chaozhao Liang; Zhibo Gao; Jingxiao Lu; Yuan Yu; Chunxiao Liu; Lin Li; Xiaodong Fang; Zhimao Jiang; Jie Yang; Cailing Li; Xin Zhao; Jing Chen; Fang Zhang; Yongqi Lai; Zheguang Lin; Fangjian Zhou; Hao Chen; Hsiao Chang Chan; Shirley Tsang; Dan Theodorescu; Yingrui Li; Xiuqing Zhang; Jian Wang; Huanming Yang; Yaoting Gui; Jun Wang; Zhiming Cai
Journal:  Nat Genet       Date:  2013-10-13       Impact factor: 38.330

4.  Sequencing of neuroblastoma identifies chromothripsis and defects in neuritogenesis genes.

Authors:  Jan J Molenaar; Jan Koster; Danny A Zwijnenburg; Peter van Sluis; Linda J Valentijn; Ida van der Ploeg; Mohamed Hamdi; Johan van Nes; Bart A Westerman; Jennemiek van Arkel; Marli E Ebus; Franciska Haneveld; Arjan Lakeman; Linda Schild; Piet Molenaar; Peter Stroeken; Max M van Noesel; Ingrid Ora; Evan E Santo; Huib N Caron; Ellen M Westerhout; Rogier Versteeg
Journal:  Nature       Date:  2012-02-22       Impact factor: 49.962

Review 5.  Criteria for inference of chromothripsis in cancer genomes.

Authors:  Jan O Korbel; Peter J Campbell
Journal:  Cell       Date:  2013-03-14       Impact factor: 41.582

6.  Clinical effect of point mutations in myelodysplastic syndromes.

Authors:  Rafael Bejar; Kristen Stevenson; Omar Abdel-Wahab; Naomi Galili; Björn Nilsson; Guillermo Garcia-Manero; Hagop Kantarjian; Azra Raza; Ross L Levine; Donna Neuberg; Benjamin L Ebert
Journal:  N Engl J Med       Date:  2011-06-30       Impact factor: 91.245

7.  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
Journal:  Nat Genet       Date:  2013-06-30       Impact factor: 38.330

8.  Targeting oxidative stress in embryonal rhabdomyosarcoma.

Authors:  Xiang Chen; Elizabeth Stewart; Anang A Shelat; Chunxu Qu; Armita Bahrami; Mark Hatley; Gang Wu; Cori Bradley; Justina McEvoy; Alberto Pappo; Sheri Spunt; Marcus B Valentine; Virginia Valentine; Fred Krafcik; Walter H Lang; Monika Wierdl; Lyudmila Tsurkan; Viktor Tolleman; Sara M Federico; Chris Morton; Charles Lu; Li Ding; John Easton; Michael Rusch; Panduka Nagahawatte; Jianmin Wang; Matthew Parker; Lei Wei; Erin Hedlund; David Finkelstein; Michael Edmonson; Sheila Shurtleff; Kristy Boggs; Heather Mulder; Donald Yergeau; Steve Skapek; Douglas S Hawkins; Nilsa Ramirez; Philip M Potter; John A Sandoval; Andrew M Davidoff; Elaine R Mardis; Richard K Wilson; Jinghui Zhang; James R Downing; Michael A Dyer
Journal:  Cancer Cell       Date:  2013-12-09       Impact factor: 31.743

9.  The genomic landscape of the Ewing Sarcoma family of tumors reveals recurrent STAG2 mutation.

Authors:  Andrew S Brohl; David A Solomon; Wendy Chang; Jianjun Wang; Young Song; Sivasish Sindiri; Rajesh Patidar; Laura Hurd; Li Chen; Jack F Shern; Hongling Liao; Xinyu Wen; Julia Gerard; Jung-Sik Kim; Jose Antonio Lopez Guerrero; Isidro Machado; Daniel H Wai; Piero Picci; Timothy Triche; Andrew E Horvai; Markku Miettinen; Jun S Wei; Daniel Catchpool; Antonio Llombart-Bosch; Todd Waldman; Javed Khan
Journal:  PLoS Genet       Date:  2014-07-10       Impact factor: 5.917

10.  Frequent inactivating mutations of STAG2 in bladder cancer are associated with low tumour grade and stage and inversely related to chromosomal copy number changes.

Authors:  Claire F Taylor; Fiona M Platt; Carolyn D Hurst; Helene H Thygesen; Margaret A Knowles
Journal:  Hum Mol Genet       Date:  2013-11-22       Impact factor: 6.150
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  181 in total

Review 1.  Advances in the Molecular Analysis of Soft Tissue Tumors and Clinical Implications.

Authors:  Adrian Marino-Enriquez
Journal:  Surg Pathol Clin       Date:  2015-09

2.  A Combination CDK4/6 and IGF1R Inhibitor Strategy for Ewing Sarcoma.

Authors:  Lillian M Guenther; Neekesh V Dharia; Linda Ross; Amy Conway; Amanda L Robichaud; Jerrel L Catlett; Caroline S Wechsler; Elizabeth S Frank; Amy Goodale; Alanna J Church; Yuen-Yi Tseng; Rajarshi Guha; Crystal G McKnight; Katherine A Janeway; Jesse S Boehm; Jaume Mora; Mindy I Davis; Gabriela Alexe; Federica Piccioni; Kimberly Stegmaier
Journal:  Clin Cancer Res       Date:  2018-11-05       Impact factor: 12.531

3.  Highly personalized detection of minimal Ewing sarcoma disease burden from plasma tumor DNA.

Authors:  Masanori Hayashi; David Chu; Christian F Meyer; Nicolas J Llosa; Gregory McCarty; Carol D Morris; Adam S Levin; Jean-Paul Wolinsky; Catherine M Albert; Diana A Steppan; Ben Ho Park; David M Loeb
Journal:  Cancer       Date:  2016-06-28       Impact factor: 6.860

4.  Osteosarcoma With Apparent Ewing Sarcoma Gene Rearrangement.

Authors:  Melissa D Mathias; Alexander J Chou; Paul Meyers; Neerav Shukla; Meera Hameed; Narasimhan Agaram; Lu Wang; Michael F Berger; Michael Walsh; Alex Kentsis
Journal:  J Pediatr Hematol Oncol       Date:  2016-07       Impact factor: 1.289

Review 5.  Genomics of adult and pediatric solid tumors.

Authors:  Zahraa Rahal; Farah Abdulhai; Humam Kadara; Raya Saab
Journal:  Am J Cancer Res       Date:  2018-08-01       Impact factor: 6.166

6.  Plasma DNA-based molecular diagnosis, prognostication, and monitoring of patients with EWSR1 fusion-positive sarcomas.

Authors:  Neerav N Shukla; Juber A Patel; Heather Magnan; Ahmet Zehir; Daoqi You; Jiabin Tang; Fanli Meng; Aliaksandra Samoila; Emily K Slotkin; Srikanth R Ambati; Alexander J Chou; Leonard H Wexler; Paul A Meyers; Ellinor I Peerschke; Agnes Viale; Michael F Berger; Marc Ladanyi
Journal:  JCO Precis Oncol       Date:  2017-05-23

Review 7.  Challenges and Opportunities for Childhood Cancer Drug Development.

Authors:  Peter J Houghton; Raushan T Kurmasheva
Journal:  Pharmacol Rev       Date:  2019-10       Impact factor: 25.468

8.  Targeting the DNA repair pathway in Ewing sarcoma.

Authors:  Elizabeth Stewart; Ross Goshorn; Cori Bradley; Lyra M Griffiths; Claudia Benavente; Nathaniel R Twarog; Gregory M Miller; William Caufield; Burgess B Freeman; Armita Bahrami; Alberto Pappo; Jianrong Wu; Amos Loh; Åsa Karlström; Chris Calabrese; Brittney Gordon; Lyudmila Tsurkan; M Jason Hatfield; Philip M Potter; Scott E Snyder; Suresh Thiagarajan; Abbas Shirinifard; Andras Sablauer; Anang A Shelat; Michael A Dyer
Journal:  Cell Rep       Date:  2014-10-23       Impact factor: 9.423

Review 9.  Advances in the Treatment of Pediatric Bone Sarcomas.

Authors:  Patrick J Grohar; Katherine A Janeway; Luke D Mase; Joshua D Schiffman
Journal:  Am Soc Clin Oncol Educ Book       Date:  2017

10.  Promoter Methylation Analysis Reveals That KCNA5 Ion Channel Silencing Supports Ewing Sarcoma Cell Proliferation.

Authors:  Katherine E Ryland; Allegra G Hawkins; Daniel J Weisenberger; Vasu Punj; Scott C Borinstein; Peter W Laird; Jeffrey R Martens; Elizabeth R Lawlor
Journal:  Mol Cancer Res       Date:  2015-11-16       Impact factor: 5.852
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