Your search keyword '"Barthel, FP"' showing total 20 results

1. Molecular and clonal evolution in recurrent metastatic gliosarcoma

Author

Anderson, KJ, Tan, AC, Parkinson, J, Back, M, Kastelan, M, Newey, A, Brewer, J, Wheeler, H, Hudson, AL, Amin, SB, Johnson, KC, Barthel, FP, Verhaak, RGW, Khasraw, Mustafa, Anderson, KJ, Tan, AC, Parkinson, J, Back, M, Kastelan, M, Newey, A, Brewer, J, Wheeler, H, Hudson, AL, Amin, SB, Johnson, KC, Barthel, FP, Verhaak, RGW, and Khasraw, Mustafa

Published

2020

2. Glioblastoma in adults: a Society for Neuro-Oncology (SNO) and European Society of Neuro-Oncology (EANO) consensus review on current management and future directions

Author

Wen, PY, Weller, M, Lee, EQ, Alexander, BM, Barnholtz-Sloan, JS, Barthel, FP, Batchelor, TT, Bindra, RS, Chang, SM, Chiocca, EA, Cloughesy, TF, DeGroot, JF, Galanis, E, Gilbert, MR, Hegi, ME, Horbinski, C, Huang, RY, Lassman, AB, Le Rhun, E, Lim, M, Mehta, MP, Mellinghoff, IK, Minniti, G, Nathanson, D, Platten, M, Preusser, M, Roth, P, Sanson, M, Schiff, D, Short, S C, Taphoorn, MJ, Tonn, JC, Tsang, J, Verhaak, RGW (Roel), von Deimling, A, Wick, W, Zadeh, G, Reardon, DA, Aldape, KD, Bent, Martin, Wen, PY, Weller, M, Lee, EQ, Alexander, BM, Barnholtz-Sloan, JS, Barthel, FP, Batchelor, TT, Bindra, RS, Chang, SM, Chiocca, EA, Cloughesy, TF, DeGroot, JF, Galanis, E, Gilbert, MR, Hegi, ME, Horbinski, C, Huang, RY, Lassman, AB, Le Rhun, E, Lim, M, Mehta, MP, Mellinghoff, IK, Minniti, G, Nathanson, D, Platten, M, Preusser, M, Roth, P, Sanson, M, Schiff, D, Short, S C, Taphoorn, MJ, Tonn, JC, Tsang, J, Verhaak, RGW (Roel), von Deimling, A, Wick, W, Zadeh, G, Reardon, DA, Aldape, KD, and Bent, Martin

Published

2020

3. Longitudinal molecular trajectories of diffuse glioma in adults

Author

Barthel, FP, Johnson, KC, Varn, FS, Moskalik, AD, Tanner, G, Kocakavuk, E, Anderson, KJ, Abiola, O, Aldape, K, Alfaro, KD, Alpar, D, Amin, SB, Ashley, DM, Bandopadhayay, P, Barnholtz-Sloan, JS, Beroukhim, R, Bock, C, Brastianos, PK, Brat, DJ, Brodbelt, AR, Bruns, AF, Bulsara, KR, Chakrabarty, A, Chakravarti, A, Chuang, JH, Claus, EB, Cochran, EJ, Connelly, J, Costello, JF, Finocchiaro, G, Fletcher, MN, French, PJ, Gan, HK, Gilbert, MR, Gould, PV, Grimmer, MR, Iavarone, A, Ismail, A, Jenkinson, MD, Khasraw, M, Kim, H, Kouwenhoven, MCM, LaViolette, PS, Li, M, Lichter, P, Ligon, KL, Lowman, AK, Malta, TM, Mazor, T, McDonald, KL, Molinaro, AM, Do-Hyun, N, Nayyar, N, Ng, HK, Ngan, CY, Niclou, SP, Niers, JM, Noushmehr, H, Noorbakhsh, J, Ormond, DR, Park, C-K, Poisson, LM, Rabadan, R, Radlwimmer, B, Rao, G, Reifenberger, G, Sa, JK, Schuster, M, Shaw, BL, Short, SC, Smitt, PAS, Sloan, AE, Smits, M, Suzuki, H, Tabatabai, G, Van Meir, EG, Watts, C, Weller, M, Wesseling, P, Westerman, BA, Widhalm, G, Woehrer, A, Yung, WKA, Zadeh, G, Huse, JT, De Groot, JF, Stead, LF, Verhaak, RGW, Barthel, FP, Johnson, KC, Varn, FS, Moskalik, AD, Tanner, G, Kocakavuk, E, Anderson, KJ, Abiola, O, Aldape, K, Alfaro, KD, Alpar, D, Amin, SB, Ashley, DM, Bandopadhayay, P, Barnholtz-Sloan, JS, Beroukhim, R, Bock, C, Brastianos, PK, Brat, DJ, Brodbelt, AR, Bruns, AF, Bulsara, KR, Chakrabarty, A, Chakravarti, A, Chuang, JH, Claus, EB, Cochran, EJ, Connelly, J, Costello, JF, Finocchiaro, G, Fletcher, MN, French, PJ, Gan, HK, Gilbert, MR, Gould, PV, Grimmer, MR, Iavarone, A, Ismail, A, Jenkinson, MD, Khasraw, M, Kim, H, Kouwenhoven, MCM, LaViolette, PS, Li, M, Lichter, P, Ligon, KL, Lowman, AK, Malta, TM, Mazor, T, McDonald, KL, Molinaro, AM, Do-Hyun, N, Nayyar, N, Ng, HK, Ngan, CY, Niclou, SP, Niers, JM, Noushmehr, H, Noorbakhsh, J, Ormond, DR, Park, C-K, Poisson, LM, Rabadan, R, Radlwimmer, B, Rao, G, Reifenberger, G, Sa, JK, Schuster, M, Shaw, BL, Short, SC, Smitt, PAS, Sloan, AE, Smits, M, Suzuki, H, Tabatabai, G, Van Meir, EG, Watts, C, Weller, M, Wesseling, P, Westerman, BA, Widhalm, G, Woehrer, A, Yung, WKA, Zadeh, G, Huse, JT, De Groot, JF, Stead, LF, and Verhaak, RGW

Abstract

The evolutionary processes that drive universal therapeutic resistance in adult patients with diffuse glioma remain unclear1,2. Here we analysed temporally separated DNA-sequencing data and matched clinical annotation from 222 adult patients with glioma. By analysing mutations and copy numbers across the three major subtypes of diffuse glioma, we found that driver genes detected at the initial stage of disease were retained at recurrence, whereas there was little evidence of recurrence-specific gene alterations. Treatment with alkylating agents resulted in a hypermutator phenotype at different rates across the glioma subtypes, and hypermutation was not associated with differences in overall survival. Acquired aneuploidy was frequently detected in recurrent gliomas and was characterized by IDH mutation but without co-deletion of chromosome arms 1p/19q, and further converged with acquired alterations in the cell cycle and poor outcomes. The clonal architecture of each tumour remained similar over time, but the presence of subclonal selection was associated with decreased survival. Finally, there were no differences in the levels of immunoediting between initial and recurrent gliomas. Collectively, our results suggest that the strongest selective pressures occur during early glioma development and that current therapies shape this evolution in a largely stochastic manner.

Published

2019

4. Comprehensive and Integrated Genomic Characterization of Adult Soft Tissue Sarcomas

Author

Lazar, AJ, McLellan, MD, Bailey, MH, Miller, CA, Appelbaum, EL, Cordes, MG, Fronick, CC, Fulton, LA, Fulton, RS, Mardis, ER, Schmidt, HK, Wong, W, Wilson, RK, Yellapantula, V, Radenbaugh, AJ, Hoadley, KA, Hayes, DN, Parker, JS, Wilkerson, MD, Auman, JT, Balu, S, Bodenheimer, T, Hoyle, AP, Jefferys, SR, Jones, CD, Lehmann, K-V, Meng, S, Mieczkowski, PA, Mose, LE, Perou, CM, Roach, J, Senbabaoglu, Y, Shi, Y, Simons, JV, Skelly, T, Soloway, MG, Tan, D, Veluvolu, U, Davis, IJ, Hepperla, AJ, Brohl, AS, Kasaian, K, Mungall, K, Sadeghi, S, Barthel, FP, Verhaak, R, Hu, X, Chibon, F, Cherniack, AD, Shih, J, Beroukhim, R, Meyerson, M, Cibulskis, C, Gabriel, SB, Saksena, G, Schumacher, SE, Gao, Q, Wyczalkowski, M, Bowlby, R, Robertson, AG, Ally, A, Balasundaram, M, Brooks, D, Carlsen, R, Chuah, E, Dhalla, N, Holt, RA, Jones, SJM, Lee, D, Li, I, Ma, Y, Marra, MA, Mayo, M, Moore, RA, Mungall, AJ, Schein, JE, Sipahimalani, P, Tam, A, Thiessen, N, Wong, T, Danilova, L, Cope, L, Baylin, SB, Bootwalla, MS, Lai, PH, Laird, PW, Maglinte, DT, Van Den Berg, DJ, Weisenberger, DJ, Wrangle, J, Drill, E, Shen, R, Iype, L, Reynolds, SM, Shmulevich, I, Yau, C, Armenia, J, Liu, EM, Benz, C, Pastore, A, Sanchez-Vega, F, Schultz, N, Akbani, R, Hegde, AM, Liu, W, Lu, Y, Mills, GB, Weinstein, JN, Roszik, J, Anur, P, Spellman, P, Abeshouse, A, Chen, H-W, Gao, J, Heins, Z, Kundra, R, Larsson, E, Ochoa, A, Sander, C, Socci, N, Zhang, H, Noble, MS, Heiman, DI, Kim, J, Chin, L, Getz, G, Cho, J, Defreitas, T, Frazer, S, Gehlenborg, N, Lawrence, MS, Lin, P, Meier, S, Voet, D, Byers, L, Diao, L, Gay, CM, Wang, J, Newton, Y, Cooper, LAD, Gutman, DA, Lee, S, Nalisnik, M, Bowen, J, Gastier-Foster, JM, Gerken, M, Helsel, C, Hobensack, S, Leraas, KM, Lichtenberg, TM, Ramirez, NC, Wise, L, Zmuda, E, Anderson, ML, Castro, P, Ittmann, M, Gordienko, E, Paklina, O, Setdikova, G, Raut, CP, Karlan, BY, Lester, J, Belyaev, D, Fulidou, V, Potapova, O, Voronina, O, Demetri, GD, Ramalingam, SS, Behera, M, Delman, K, Owonikoko, TK, Sica, GL, Boyd, J, Magliocco, A, Salner, A, Bennett, J, Iacocca, M, Swanson, P, Dottino, P, Kalir, T, Pereira, E, Akeredolu, T, Crain, D, Curley, E, Gardner, J, Mallery, D, Morris, S, Paulauskis, J, Penny, R, Shelton, C, Shelton, T, Thompson, E, Hoon, DB, Parfitt, J, Birrer, M, Karseladze, A, Mariamidze, A, Dao, F, Levine, DA, Olvera, N, Maki, RG, Bartlett, J, Eschbacher, J, Dubina, M, Mozgovoy, E, Fedosenko, K, Manikhas, G, Sekhon, H, Ramirez, N, Ingram, DR, Torres, KE, DiSaia, P, Godwin, AK, Godwin, EM, Kuo, H, Madan, R, Reilly, C, Adebamowo, C, Adebamowo, SN, Bocklage, T, Higgins, K, Martinez, C, Boice, L, Grilley-Olson, JE, Huang, M, Perou, AH, Thorne, LB, Rathmell, WK, Gutmann, DH, Singer, S, Chudamani, S, Liu, J, Lolla, L, Naresh, R, Pihl, T, Sun, Q, Wan, Y, Wu, Y, Felau, I, Zenklusen, JC, Demchok, JA, Ferguson, ML, Hutter, CM, Sofia, HJ, Tarnuzzer, R, Wang, Z, Yang, L, Zhang, JJ, Demicco, EG, Doyle, LA, Hornick, JL, Rubin, BP, de Rijn, MV, Baker, L, Riedel, RF, Ding, L, Ladanyi, M, Novak, JE, Van Tine, BA, Davis, LE, Grilley-Olsen, JE, Pollock, RE, Jones, KB, Martignetti, JA, Tong, P, and Network, CGAR

Subjects

0301 basic medicine, Leiomyosarcoma, Adult, Epigenomics, DNA Copy Number Variations, Genomics, Biology, General Biochemistry, Genetics and Molecular Biology, Undifferentiated Pleomorphic Sarcoma, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, medicine, Cluster Analysis, Humans, ATRX, Aged, Comparative genomics, Aged, 80 and over, Genome, Human, Sarcoma, Middle Aged, medicine.disease, Synovial sarcoma, 030104 developmental biology, 030220 oncology & carcinogenesis, Immunology, DNA methylation, Mutation, Cancer research, Genome-Wide Association Study

Abstract

Summary Sarcomas are a broad family of mesenchymal malignancies exhibiting remarkable histologic diversity. We describe the multi-platform molecular landscape of 206 adult soft tissue sarcomas representing 6 major types. Along with novel insights into the biology of individual sarcoma types, we report three overarching findings: (1) unlike most epithelial malignancies, these sarcomas (excepting synovial sarcoma) are characterized predominantly by copy-number changes, with low mutational loads and only a few genes ( TP53 , ATRX , RB1 ) highly recurrently mutated across sarcoma types; (2) within sarcoma types, genomic and regulomic diversity of driver pathways defines molecular subtypes associated with patient outcome; and (3) the immune microenvironment, inferred from DNA methylation and mRNA profiles, associates with outcome and may inform clinical trials of immune checkpoint inhibitors. Overall, this large-scale analysis reveals previously unappreciated sarcoma-type-specific changes in copy number, methylation, RNA, and protein, providing insights into refining sarcoma therapy and relationships to other cancer types.

Published

2017

5. Molecular profiling reveals biologically discrete subsets and pathways of progression in diffuse glioma

Author

Michele Ceccarelli, Floris P. Barthel, Tathiane M. Malta, Thais S. Sabedot, Sofie R. Salama, Bradley A. Murray, Olena Morozova, Yulia Newton, Amie Radenbaugh, Stefano M. Pagnotta, Samreen Anjum, Jiguang Wang, Ganiraju Manyam, Pietro Zoppoli, Shiyun Ling, Arjun A. Rao, Mia Grifford, Andrew D. Cherniack, Hailei Zhang, Laila Poisson, Carlos Gilberto Carlotti, Daniela Pretti da Cunha Tirapelli, Arvind Rao, Tom Mikkelsen, Ching C. Lau, W.K. Alfred Yung, Raul Rabadan, Jason Huse, Daniel J. Brat, Norman L. Lehman, Jill S. Barnholtz-Sloan, Siyuan Zheng, Kenneth Hess, Ganesh Rao, Matthew Meyerson, Rameen Beroukhim, Lee Cooper, Rehan Akbani, Margaret Wrensch, David Haussler, Kenneth D. Aldape, Peter W. Laird, David H. Gutmann, Houtan Noushmehr, Antonio Iavarone, Roel G.W. Verhaak, Harindra Arachchi, J. Todd Auman, Miruna Balasundaram, Saianand Balu, Gene Barnett, Stephen Baylin, Sue Bell, Christopher Benz, Natalie Bir, Keith L. Black, Tom Bodenheimer, Lori Boice, Moiz S. Bootwalla, Jay Bowen, Christopher A. Bristow, Yaron S.N. Butterfield, Qing-Rong Chen, Lynda Chin, Juok Cho, Eric Chuah, Sudha Chudamani, Simon G. Coetzee, Mark L. Cohen, Howard Colman, Marta Couce, Fulvio D’Angelo, Tanja Davidsen, Amy Davis, John A. Demchok, Karen Devine, Li Ding, Rebecca Duell, J. Bradley Elder, Jennifer M. Eschbacher, Ashley Fehrenbach, Martin Ferguson, Scott Frazer, Gregory Fuller, Jordonna Fulop, Stacey B. Gabriel, Luciano Garofano, Julie M. Gastier-Foster, Nils Gehlenborg, Mark Gerken, Gad Getz, Caterina Giannini, William J. Gibson, Angela Hadjipanayis, D. Neil Hayes, David I. Heiman, Beth Hermes, Joe Hilty, Katherine A. Hoadley, Alan P. Hoyle, Mei Huang, Stuart R. Jefferys, Corbin D. Jones, Steven J.M. Jones, Zhenlin Ju, Alison Kastl, Ady Kendler, Jaegil Kim, Raju Kucherlapati, Phillip H. Lai, Michael S. Lawrence, Semin Lee, Kristen M. Leraas, Tara M. Lichtenberg, Pei Lin, Yuexin Liu, Jia Liu, Julia Y. Ljubimova, Yiling Lu, Yussanne Ma, Dennis T. Maglinte, Harshad S. Mahadeshwar, Marco A. Marra, Mary McGraw, Christopher McPherson, Shaowu Meng, Piotr A. Mieczkowski, C. Ryan Miller, Gordon B. Mills, Richard A. Moore, Lisle E. Mose, Andrew J. Mungall, Rashi Naresh, Theresa Naska, Luciano Neder, Michael S. Noble, Ardene Noss, Brian Patrick O’Neill, Quinn T. Ostrom, Cheryl Palmer, Angeliki Pantazi, Michael Parfenov, Peter J. Park, Joel S. Parker, Charles M. Perou, Christopher R. Pierson, Todd Pihl, Alexei Protopopov, Nilsa C. Ramirez, W. Kimryn Rathmell, Xiaojia Ren, Jeffrey Roach, A. Gordon Robertson, Gordon Saksena, Jacqueline E. Schein, Steven E. Schumacher, Jonathan Seidman, Kelly Senecal, Sahil Seth, Hui Shen, Yan Shi, Juliann Shih, Kristen Shimmel, Hugues Sicotte, Suzanne Sifri, Tiago Silva, Janae V. Simons, Rosy Singh, Tara Skelly, Andrew E. Sloan, Heidi J. Sofia, Matthew G. Soloway, Xingzhi Song, Carrie Sougnez, Camila Souza, Susan M. Staugaitis, Huandong Sun, Charlie Sun, Donghui Tan, Jiabin Tang, Yufang Tang, Leigh Thorne, Felipe Amstalden Trevisan, Timothy Triche, David J. Van Den Berg, Umadevi Veluvolu, Doug Voet, Yunhu Wan, Zhining Wang, Ronald Warnick, John N. Weinstein, Daniel J. Weisenberger, Matthew D. Wilkerson, Felicia Williams, Lisa Wise, Yingli Wolinsky, Junyuan Wu, Andrew W. Xu, Lixing Yang, Liming Yang, Travis I. Zack, Jean C. Zenklusen, Jianhua Zhang, Wei Zhang, Jiashan Zhang, Erik Zmuda, Ceccarelli, M, Barthel, Fp, Malta, Tm, Sabedot, T, Salama, Sr, Murray, Ba, Morozova, O, Newton, Y, Radenbaugh, A, Pagnotta, Sm, Anjum, S, Wang, Jg, Manyam, G, Zoppoli, P, Ling, S, Rao, Aa, Grifford, M, Cherniack, Ad, Zhang, Hl, Poisson, L, Carlotti, Cg, Tirapelli, Dpd, Rao, A, Mikkelsen, T, Lau, Cc, Yung, Wka, Rabadan, R, Huse, J, Brat, Dj, Lehman, Nl, Barnholtz-Sloan, J, Zheng, S, Hess, K, Rao, G, Meyerson, M, Beroukhim, R, Cooper, L, Akbani, R, Wrensch, M, Haussler, D, Aldape, Kd, Laird, Pw, Gutmann, Dh, Noushmehr, H, Iavarone, A, Verhaak, Rgw, and Neurosurgery

Subjects

0301 basic medicine, Adult, X-linked Nuclear Protein, Biology, General Biochemistry, Genetics and Molecular Biology, Article, Epigenesis, Genetic, Transcriptome, 03 medical and health sciences, Diffuse Glioma, Glioma, medicine, Cluster Analysis, Humans, Promoter Regions, Genetic, Gene, Telomerase, ATRX, Cell Proliferation, Pilocytic astrocytoma, Biochemistry, Genetics and Molecular Biology(all), Brain Neoplasms, MUTAÇÃO GENÉTICA, DNA Helicases, Nuclear Proteins, DNA Methylation, Middle Aged, Telomere, medicine.disease, Isocitrate Dehydrogenase, 3. Good health, 030104 developmental biology, DNA demethylation, DNA methylation, Mutation, Cancer research, Signal Transduction

Abstract

Therapy development for adult diffuse glioma is hindered by incomplete knowledge of somatic glioma driving alterations and suboptimal disease classification. We defined the complete set of genes associated with 1,122 diffuse grade II-III-IV gliomas from The Cancer Genome Atlas and used molecular profiles to improve disease classification, identify molecular correlations, and provide insights into the progression from low- to high-grade disease. Whole-genome sequencing data analysis determined that ATRX but not TERT promoter mutations are associated with increased telomere length. Recent advances in glioma classification based on IDH mutation and 1p/19q co-deletion status were recapitulated through analysis of DNA methylation profiles, which identified clinically relevant molecular subsets. A subtype of IDH mutant glioma was associated with DNA demethylation and poor outcome; a group of IDH-wild-type diffuse glioma showed molecular similarity to pilocytic astrocytoma and relatively favorable survival. Understanding of cohesive disease groups may aid improved clinical outcomes.

Published

2016

6. Anaplerotic nutrient stress drives synergy of angiogenesis inhibitors with therapeutics targeting tumor metabolism.

Author

Khadka S, Lin YH, Ackroyd J, Chen YA, Sheng Y, Qian W, Guo S, Chen Y, Behr E, Barekatain Y, Uddin N, Arthur K, Yan V, Hsu WH, Chang Q, Poral A, Tran T, Chaurasia S, Georgiou DK, Asara JM, Barthel FP, Millward SW, DePinho RA, and Muller FL

Abstract

Tumor angiogenesis is a cancer hallmark, and its therapeutic inhibition has provided meaningful, albeit limited, clinical benefit. While anti-angiogenesis inhibitors deprive the tumor of oxygen and essential nutrients, cancer cells activate metabolic adaptations to diminish therapeutic response. Despite these adaptations, angiogenesis inhibition incurs extensive metabolic stress, prompting us to consider such metabolic stress as an induced vulnerability to therapies targeting cancer metabolism. Metabolomic profiling of angiogenesis-inhibited intracranial xenografts showed universal decrease in tricarboxylic acid cycle intermediates, corroborating a state of anaplerotic nutrient deficit or stress. Accordingly, we show strong synergy between angiogenesis inhibitors (Avastin, Tivozanib) and inhibitors of glycolysis or oxidative phosphorylation through exacerbation of anaplerotic nutrient stress in intracranial orthotopic xenografted gliomas. Our findings were recapitulated in GBM xenografts that do not have genetically predisposed metabolic vulnerabilities at baseline. Thus, our findings cement the central importance of the tricarboxylic acid cycle as the nexus of metabolic vulnerabilities and suggest clinical path hypothesis combining angiogenesis inhibitors with pharmacological cancer interventions targeting tumor metabolism for GBM tumors., Competing Interests: Competing Interests We declare no competing financial interests. F.L.M. is inventor on a patent covering the concept of targeting ENO1-deleted tumors with inhibitors of ENO2 (US patent 9,452,182 B2) and inventor on a patent application describing the synthesis and utility of novel pro-drug inhibitors of enolase US 62/797,315 (Filed Jan 27, 2019). F.L.M. and Y-H.L. are inventors on a patent application for the use of enolase inhibitors for the treatment of ENO1-deleted tumors (US patent 10,363,261 B2).

Published

2023

7. PDPN marks a subset of aggressive and radiation-resistant glioblastoma cells.

Author

Modrek AS, Eskilsson E, Ezhilarasan R, Wang Q, Goodman LD, Ding Y, Zhang ZY, Bhat KPL, Le TT, Barthel FP, Tang M, Yang J, Long L, Gumin J, Lang FF, Verhaak RGW, Aldape KD, and Sulman EP

Abstract

Treatment-resistant glioma stem cells are thought to propagate and drive growth of malignant gliomas, but their markers and our ability to target them specifically are not well understood. We demonstrate that podoplanin (PDPN) expression is an independent prognostic marker in gliomas across multiple independent patient cohorts comprising both high- and low-grade gliomas. Knockdown of PDPN radiosensitized glioma cell lines and glioma-stem-like cells (GSCs). Clonogenic assays and xenograft experiments revealed that PDPN expression was associated with radiotherapy resistance and tumor aggressiveness. We further demonstrate that knockdown of PDPN in GSCs in vivo is sufficient to improve overall survival in an intracranial xenograft mouse model. PDPN therefore identifies a subset of aggressive, treatment-resistant glioma cells responsible for radiation resistance and may serve as a novel therapeutic target., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Modrek, Eskilsson, Ezhilarasan, Wang, Goodman, Ding, Zhang, Bhat, Le, Barthel, Tang, Yang, Long, Gumin, Lang, Verhaak, Aldape and Sulman.)

Published

2022

8. Glioma progression is shaped by genetic evolution and microenvironment interactions.

Author

Varn FS, Johnson KC, Martinek J, Huse JT, Nasrallah MP, Wesseling P, Cooper LAD, Malta TM, Wade TE, Sabedot TS, Brat D, Gould PV, Wöehrer A, Aldape K, Ismail A, Sivajothi SK, Barthel FP, Kim H, Kocakavuk E, Ahmed N, White K, Datta I, Moon HE, Pollock S, Goldfarb C, Lee GH, Garofano L, Anderson KJ, Nehar-Belaid D, Barnholtz-Sloan JS, Bakas S, Byrne AT, D'Angelo F, Gan HK, Khasraw M, Migliozzi S, Ormond DR, Paek SH, Van Meir EG, Walenkamp AME, Watts C, Weiss T, Weller M, Palucka K, Stead LF, Poisson LM, Noushmehr H, Iavarone A, and Verhaak RGW

Subjects

Adult, Evolution, Molecular, Genes, p16, Humans, Isocitrate Dehydrogenase genetics, Mutation, Neoplasm Recurrence, Local, Brain Neoplasms genetics, Brain Neoplasms pathology, Glioma genetics, Glioma pathology, Tumor Microenvironment

Abstract

The factors driving therapy resistance in diffuse glioma remain poorly understood. To identify treatment-associated cellular and genetic changes, we analyzed RNA and/or DNA sequencing data from the temporally separated tumor pairs of 304 adult patients with isocitrate dehydrogenase (IDH)-wild-type and IDH-mutant glioma. Tumors recurred in distinct manners that were dependent on IDH mutation status and attributable to changes in histological feature composition, somatic alterations, and microenvironment interactions. Hypermutation and acquired CDKN2A deletions were associated with an increase in proliferating neoplastic cells at recurrence in both glioma subtypes, reflecting active tumor growth. IDH-wild-type tumors were more invasive at recurrence, and their neoplastic cells exhibited increased expression of neuronal signaling programs that reflected a possible role for neuronal interactions in promoting glioma progression. Mesenchymal transition was associated with the presence of a myeloid cell state defined by specific ligand-receptor interactions with neoplastic cells. Collectively, these recurrence-associated phenotypes represent potential targets to alter disease progression., Competing Interests: Declaration of interests R.G.W.V. is a co-founder of Boundless Bio and a consultant for Stellanova Therapeutics. M.K. has received research funding from AbbVie and Bristol Myers Squibb, and he is on the advisory board for Janssen; he has received honoraria from the Jackson Laboratory. D.R.O. has received funding from Integra and Agios. F.P.B. has performed consulting for Bristol Myers Squibb. M.W. has received research grants from AbbVie, Adastra, Apogenix, Merck, Sharp & Dohme, Novocure, and Quercis and honoraria for lectures or advisory board participation or consulting from AbbVie, Adastra, Basilea, Bristol Meyer Squibb, Celgene, Medac, Merck, Sharp & Dohme, Merck, Nerviano Medical Sciences, Novartis, Orbus, Philogen, Roche, Tocagen, and yMabs. A.M.E.W. reported receiving institutional financial support for an advisory role from Polyphor, IPSEN, Karyopharm, and Novartis; unrestricted research grants from IPSEN and Novartis; and study budgets from AbbVie, BMS, Genzyme, Karyopharm Therapeutics, and Roche, all outside the submitted work. H.K.G. has performed consulting for AbbVie, and he is a member of the speaker bureau for AbbVie and Igynta. K.P. is a scientific advisory board member and owns stock in Cue BioPharma., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

9. Spatial concordance of DNA methylation classification in diffuse glioma.

Author

Verburg N, Barthel FP, Anderson KJ, Johnson KC, Koopman T, Yaqub MM, Hoekstra OS, Lammertsma AA, Barkhof F, Pouwels PJW, Reijneveld JC, Rozemuller AJM, Beliën JAM, Boellaard R, Taylor MD, Das S, Costello JF, Vandertop WP, Wesseling P, de Witt Hamer PC, and Verhaak RGW

Subjects

Adult, DNA Methylation, Humans, Isocitrate Dehydrogenase genetics, Mutation, Brain Neoplasms diagnostic imaging, Brain Neoplasms genetics, Glioma diagnostic imaging, Glioma genetics, Oligodendroglioma

Abstract

Background: Intratumoral heterogeneity is a hallmark of diffuse gliomas. DNA methylation profiling is an emerging approach in the clinical classification of brain tumors. The goal of this study is to investigate the effects of intratumoral heterogeneity on classification confidence., Methods: We used neuronavigation to acquire 133 image-guided and spatially separated stereotactic biopsy samples from 16 adult patients with a diffuse glioma (7 IDH-wildtype and 2 IDH-mutant glioblastoma, 6 diffuse astrocytoma, IDH-mutant and 1 oligodendroglioma, IDH-mutant and 1p19q codeleted), which we characterized using DNA methylation arrays. Samples were obtained from regions with and without abnormalities on contrast-enhanced T1-weighted and fluid-attenuated inversion recovery MRI. Methylation profiles were analyzed to devise a 3-dimensional reconstruction of (epi)genetic heterogeneity. Tumor purity was assessed from clonal methylation sites., Results: Molecular aberrations indicated that tumor was found outside imaging abnormalities, underlining the infiltrative nature of this tumor and the limitations of current routine imaging modalities. We demonstrate that tumor purity is highly variable between samples and explains a substantial part of apparent epigenetic spatial heterogeneity. We observed that DNA methylation subtypes are often, but not always, conserved in space taking tumor purity and prediction accuracy into account., Conclusion: Our results underscore the infiltrative nature of diffuse gliomas and suggest that DNA methylation subtypes are relatively concordant in this tumor type, although some heterogeneity exists., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Neuro-Oncology.)

Published

2021

10. Single-cell multimodal glioma analyses identify epigenetic regulators of cellular plasticity and environmental stress response.

Author

Johnson KC, Anderson KJ, Courtois ET, Gujar AD, Barthel FP, Varn FS, Luo D, Seignon M, Yi E, Kim H, Estecio MRH, Zhao D, Tang M, Navin NE, Maurya R, Ngan CY, Verburg N, de Witt Hamer PC, Bulsara K, Samuels ML, Das S, Robson P, and Verhaak RGW

Subjects

Clonal Evolution, DNA Copy Number Variations genetics, DNA Methylation genetics, Gene Expression Regulation, Neoplastic, Genetic Heterogeneity, Genome, Human, Humans, Mutation genetics, Phylogeny, Promoter Regions, Genetic genetics, Tumor Microenvironment genetics, Brain Neoplasms genetics, Cell Plasticity genetics, Epigenesis, Genetic, Glioma genetics, Single-Cell Analysis, Stress, Physiological genetics

Abstract

Glioma intratumoral heterogeneity enables adaptation to challenging microenvironments and contributes to therapeutic resistance. We integrated 914 single-cell DNA methylomes, 55,284 single-cell transcriptomes and bulk multi-omic profiles across 11 adult IDH mutant or IDH wild-type gliomas to delineate sources of intratumoral heterogeneity. We showed that local DNA methylation disorder is associated with cell-cell DNA methylation differences, is elevated in more aggressive tumors, links with transcriptional disruption and is altered during the environmental stress response. Glioma cells under in vitro hypoxic and irradiation stress increased local DNA methylation disorder and shifted cell states. We identified a positive association between genetic and epigenetic instability that was supported in bulk longitudinally collected DNA methylation data. Increased DNA methylation disorder associated with accelerated disease progression and recurrently selected DNA methylation changes were enriched for environmental stress response pathways. Our work identified an epigenetically facilitated adaptive stress response process and highlights the importance of epigenetic heterogeneity in shaping therapeutic outcomes., (© 2021. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2021

11. Radiotherapy is associated with a deletion signature that contributes to poor outcomes in patients with cancer.

Author

Kocakavuk E, Anderson KJ, Varn FS, Johnson KC, Amin SB, Sulman EP, Lolkema MP, Barthel FP, and Verhaak RGW

Subjects

DNA Damage radiation effects, Humans, Mutagenesis radiation effects, Neoplasm Recurrence, Local, Neoplasms epidemiology, Neoplasms radiotherapy, Prognosis, Radiation, Ionizing, Neoplasms genetics, Neoplasms mortality, Radiotherapy adverse effects, Sequence Deletion radiation effects

Abstract

Ionizing radiation causes DNA damage and is a mainstay for cancer treatment, but understanding of its genomic impact is limited. We analyzed mutational spectra following radiotherapy in 190 paired primary and recurrent gliomas from the Glioma Longitudinal Analysis Consortium and 3,693 post-treatment metastatic tumors from the Hartwig Medical Foundation. We identified radiotherapy-associated significant increases in the burden of small deletions (5-15 bp) and large deletions (20+ bp to chromosome-arm length). Small deletions were characterized by a larger span size, lacking breakpoint microhomology and were genomically more dispersed when compared to pre-existing deletions and deletions in non-irradiated tumors. Mutational signature analysis implicated classical non-homologous end-joining-mediated DNA damage repair and APOBEC mutagenesis following radiotherapy. A high radiation-associated deletion burden was associated with worse clinical outcomes, suggesting that effective repair of radiation-induced DNA damage is detrimental to patient survival. These results may be leveraged to predict sensitivity to radiation therapy in recurrent cancer., (© 2021. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2021

12. Glioblastoma in adults: a Society for Neuro-Oncology (SNO) and European Society of Neuro-Oncology (EANO) consensus review on current management and future directions.

Author

Wen PY, Weller M, Lee EQ, Alexander BM, Barnholtz-Sloan JS, Barthel FP, Batchelor TT, Bindra RS, Chang SM, Chiocca EA, Cloughesy TF, DeGroot JF, Galanis E, Gilbert MR, Hegi ME, Horbinski C, Huang RY, Lassman AB, Le Rhun E, Lim M, Mehta MP, Mellinghoff IK, Minniti G, Nathanson D, Platten M, Preusser M, Roth P, Sanson M, Schiff D, Short SC, Taphoorn MJB, Tonn JC, Tsang J, Verhaak RGW, von Deimling A, Wick W, Zadeh G, Reardon DA, Aldape KD, and van den Bent MJ

Subjects

Chemoradiotherapy, Clinical Trials, Phase III as Topic, Consensus, Humans, Isocitrate Dehydrogenase genetics, Isocitrate Dehydrogenase metabolism, Randomized Controlled Trials as Topic, Brain Neoplasms enzymology, Brain Neoplasms genetics, Brain Neoplasms therapy, Glioblastoma enzymology, Glioblastoma genetics, Glioblastoma therapy

Abstract

Glioblastomas are the most common form of malignant primary brain tumor and an important cause of morbidity and mortality. In recent years there have been important advances in understanding the molecular pathogenesis and biology of these tumors, but this has not translated into significantly improved outcomes for patients. In this consensus review from the Society for Neuro-Oncology (SNO) and the European Association of Neuro-Oncology (EANO), the current management of isocitrate dehydrogenase wildtype (IDHwt) glioblastomas will be discussed. In addition, novel therapies such as targeted molecular therapies, agents targeting DNA damage response and metabolism, immunotherapies, and viral therapies will be reviewed, as well as the current challenges and future directions for research., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

13. Comparative Molecular Life History of Spontaneous Canine and Human Gliomas.

Author

Amin SB, Anderson KJ, Boudreau CE, Martinez-Ledesma E, Kocakavuk E, Johnson KC, Barthel FP, Varn FS, Kassab C, Ling X, Kim H, Barter M, Lau CC, Ngan CY, Chapman M, Koehler JW, Long JP, Miller AD, Miller CR, Porter BF, Rissi DR, Mazcko C, LeBlanc AK, Dickinson PJ, Packer RA, Taylor AR, Rossmeisl JH Jr, Woolard KD, Heimberger AB, Levine JM, and Verhaak RGW

Subjects

Animals, Dogs, Exome genetics, Humans, Isocitrate Dehydrogenase genetics, Tumor Suppressor Protein p53 genetics, Brain Neoplasms genetics, DNA Methylation genetics, Glioma genetics, Mutation genetics

Abstract

Sporadic gliomas in companion dogs provide a window on the interaction between tumorigenic mechanisms and host environment. We compared the molecular profiles of canine gliomas with those of human pediatric and adult gliomas to characterize evolutionarily conserved mammalian mutational processes in gliomagenesis. Employing whole-genome, exome, transcriptome, and methylation sequencing of 83 canine gliomas, we found alterations shared between canine and human gliomas such as the receptor tyrosine kinases, TP53 and cell-cycle pathways, and IDH1 R132. Canine gliomas showed high similarity with human pediatric gliomas per robust aneuploidy, mutational rates, relative timing of mutations, and DNA-methylation patterns. Our cross-species comparative genomic analysis provides unique insights into glioma etiology and the chronology of glioma-causing somatic alterations., Competing Interests: Declaration of Interests R.G.W.V. declares equity in Boundless Bio, Inc. A.B.H. receives royalties and milestone payments for licensed intellectual property from Celldex Therapeutics, research grant support from Merck, and is a scientific board member for Caris Life Sciences. The other authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

14. Molecular and clonal evolution in recurrent metastatic gliosarcoma.

Author

Anderson KJ, Tan AC, Parkinson J, Back M, Kastelan M, Newey A, Brewer J, Wheeler H, Hudson AL, Amin SB, Johnson KC, Barthel FP, Verhaak RGW, and Khasraw M

Subjects

Adult, Alleles, Biomarkers, Tumor, Biopsy, Combined Modality Therapy, DNA Copy Number Variations, Female, Gliosarcoma therapy, Humans, Immunohistochemistry, Multimodal Imaging methods, Mutation, Neoplasm Metastasis, Neoplasm Staging, Recurrence, Cell Transformation, Neoplastic genetics, Clonal Evolution genetics, Gliosarcoma etiology, Gliosarcoma pathology

Abstract

We discuss the molecular evolution of gliosarcoma, a mesenchymal type of glioblastoma (GBM), using the case of a 37-yr-old woman who developed two recurrences and an extracranial metastasis. She was initially diagnosed with isocitrate dehydrogenase (IDH) wild-type gliosarcoma in the frontal lobe and treated with surgery followed by concurrent radiotherapy with temozolomide. Five months later the tumor recurred in the left frontal lobe, outside the initially resected area, and was treated with further surgery and radiotherapy. Six months later the patient developed a second left frontal recurrence and was again treated with surgery and radiotherapy. Six weeks later, further recurrence was observed in the brain and bone, and biopsy confirmed metastases in the pelvic bones. To understand the clonal relationships between the four tumor instances and the origin of metastasis, we performed whole-genome sequencing of the intracranial tumors and the tumor located in the right iliac bone. We compared their mutational and copy-number profiles and inferred the clonal phylogeny. The tumors harbored shared alterations in GBM driver genes, including mutations in TP53 , NF1 , and RB1 , and CDKN2A deletion. Whole-genome doubling was identified in the first recurrence and the extracranial metastasis. Comparisons of the metastatic to intracranial tumors highlighted a high similarity in molecular profile but contrasting evidence regarding the origin of the metastasis. Subclonal reconstruction suggested a parallel evolution of the recurrent tumors, and that the metastatic tumor was largely derived from the first recurrence. We conclude that metastasis in glioma can be a late event in tumorigenesis., (© 2020 Anderson et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2020

15. Longitudinal molecular trajectories of diffuse glioma in adults.

Author

Barthel FP, Johnson KC, Varn FS, Moskalik AD, Tanner G, Kocakavuk E, Anderson KJ, Abiola O, Aldape K, Alfaro KD, Alpar D, Amin SB, Ashley DM, Bandopadhayay P, Barnholtz-Sloan JS, Beroukhim R, Bock C, Brastianos PK, Brat DJ, Brodbelt AR, Bruns AF, Bulsara KR, Chakrabarty A, Chakravarti A, Chuang JH, Claus EB, Cochran EJ, Connelly J, Costello JF, Finocchiaro G, Fletcher MN, French PJ, Gan HK, Gilbert MR, Gould PV, Grimmer MR, Iavarone A, Ismail A, Jenkinson MD, Khasraw M, Kim H, Kouwenhoven MCM, LaViolette PS, Li M, Lichter P, Ligon KL, Lowman AK, Malta TM, Mazor T, McDonald KL, Molinaro AM, Nam DH, Nayyar N, Ng HK, Ngan CY, Niclou SP, Niers JM, Noushmehr H, Noorbakhsh J, Ormond DR, Park CK, Poisson LM, Rabadan R, Radlwimmer B, Rao G, Reifenberger G, Sa JK, Schuster M, Shaw BL, Short SC, Smitt PAS, Sloan AE, Smits M, Suzuki H, Tabatabai G, Van Meir EG, Watts C, Weller M, Wesseling P, Westerman BA, Widhalm G, Woehrer A, Yung WKA, Zadeh G, Huse JT, De Groot JF, Stead LF, and Verhaak RGW

Subjects

Adult, Chromosomes, Human, Pair 1, Chromosomes, Human, Pair 19, Disease Progression, Glioma pathology, Humans, Isocitrate Dehydrogenase genetics, Mutation, Polymorphism, Single Nucleotide, Recurrence, Glioma genetics

Abstract

The evolutionary processes that drive universal therapeutic resistance in adult patients with diffuse glioma remain unclear 1,2 . Here we analysed temporally separated DNA-sequencing data and matched clinical annotation from 222 adult patients with glioma. By analysing mutations and copy numbers across the three major subtypes of diffuse glioma, we found that driver genes detected at the initial stage of disease were retained at recurrence, whereas there was little evidence of recurrence-specific gene alterations. Treatment with alkylating agents resulted in a hypermutator phenotype at different rates across the glioma subtypes, and hypermutation was not associated with differences in overall survival. Acquired aneuploidy was frequently detected in recurrent gliomas and was characterized by IDH mutation but without co-deletion of chromosome arms 1p/19q, and further converged with acquired alterations in the cell cycle and poor outcomes. The clonal architecture of each tumour remained similar over time, but the presence of subclonal selection was associated with decreased survival. Finally, there were no differences in the levels of immunoediting between initial and recurrent gliomas. Collectively, our results suggest that the strongest selective pressures occur during early glioma development and that current therapies shape this evolution in a largely stochastic manner.

Published

2019

16. The Tandem Duplicator Phenotype Is a Prevalent Genome-Wide Cancer Configuration Driven by Distinct Gene Mutations.

Author

Menghi F, Barthel FP, Yadav V, Tang M, Ji B, Tang Z, Carter GW, Ruan Y, Scully R, Verhaak RGW, Jonkers J, and Liu ET

Subjects

Animals, Cyclin E genetics, Female, Genes, BRCA1, Genes, p53, Humans, Mice, Oncogene Proteins genetics, Phenotype, Triple Negative Breast Neoplasms genetics, Whole Genome Sequencing, Gene Duplication, Genomic Instability, Mutation, Neoplasms genetics, Tandem Repeat Sequences

Abstract

The tandem duplicator phenotype (TDP) is a genome-wide instability configuration primarily observed in breast, ovarian, and endometrial carcinomas. Here, we stratify TDP tumors by classifying their tandem duplications (TDs) into three span intervals, with modal values of 11 kb, 231 kb, and 1.7 Mb, respectively. TDPs with ∼11 kb TDs feature loss of TP53 and BRCA1. TDPs with ∼231 kb and ∼1.7 Mb TDs associate with CCNE1 pathway activation and CDK12 disruptions, respectively. We demonstrate that p53 and BRCA1 conjoint abrogation drives TDP induction by generating short-span TDP mammary tumors in genetically modified mice lacking them. Lastly, we show how TDs in TDP tumors disrupt heterogeneous combinations of tumor suppressors and chromatin topologically associating domains while duplicating oncogenes and super-enhancers., (Copyright © 2018 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2018

17. Evolving Insights into the Molecular Neuropathology of Diffuse Gliomas in Adults.

Author

Barthel FP, Johnson KC, Wesseling P, and Verhaak RGW

Subjects

Humans, Neuropathology, Brain Neoplasms classification, Brain Neoplasms genetics, Brain Neoplasms pathology

Abstract

Recent advances in molecular analysis and genome sequencing have prompted a paradigm shift in neuropathology. This article discusses the discovery and clinical relevance of molecular biomarkers in diffuse gliomas in adults and how these biomarkers led to revision of the World Health Organization classification of these tumors. We relate progress in clinical classification to an overview of studies using molecular profiling to study gene expression and DNA methylation to categorize diffuse gliomas in adults and issues dealing with intratumoral heterogeneity. These efforts will refine the taxonomy of diffuse gliomas, facilitate selection of appropriate treatment regimens, and ultimately improve patient's lives., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

18. Reconstructing the molecular life history of gliomas.

Author

Barthel FP, Wesseling P, and Verhaak RGW

Subjects

Animals, Disease Progression, Humans, Central Nervous System Neoplasms metabolism, Glioma metabolism

Abstract

At the time of their clinical manifestation, the heterogeneous group of adult and pediatric gliomas carries a wide range of diverse somatic genomic alterations, ranging from somatic single-nucleotide variants to structural chromosomal rearrangements. Somatic abnormalities may have functional consequences, such as a decrease, increase or change in mRNA transcripts, and cells pay a penalty for maintaining them. These abnormalities, therefore, must provide cells with a competitive advantage to become engrained into the glioma genome. Here, we propose a model of gliomagenesis consisting of the following five consecutive phases that glioma cells have traversed prior to clinical manifestation: (I) initial growth; (II) oncogene-induced senescence; (III) stressed growth; (IV) replicative senescence/crisis; (V) immortal growth. We have integrated the findings from a large number of studies in biology and (neuro)oncology and relate somatic alterations and other results discussed in these papers to each of these five phases. Understanding the story that each glioma tells at presentation may ultimately facilitate the design of novel, more effective therapeutic approaches.

Published

2018

19. Systematic analysis of telomere length and somatic alterations in 31 cancer types.

Author

Barthel FP, Wei W, Tang M, Martinez-Ledesma E, Hu X, Amin SB, Akdemir KC, Seth S, Song X, Wang Q, Lichtenberg T, Hu J, Zhang J, Zheng S, and Verhaak RG

Subjects

DNA Methylation genetics, Glioma genetics, Humans, Promoter Regions, Genetic genetics, Retinoblastoma Binding Proteins genetics, Sarcoma genetics, Telomerase genetics, Tumor Suppressor Protein p53 genetics, Ubiquitin-Protein Ligases genetics, Neoplasms genetics, Point Mutation genetics, Telomere genetics

Abstract

Cancer cells survive cellular crisis through telomere maintenance mechanisms. We report telomere lengths in 18,430 samples, including tumors and non-neoplastic samples, across 31 cancer types. Telomeres were shorter in tumors than in normal tissues and longer in sarcomas and gliomas than in other cancers. Among 6,835 cancers, 73% expressed telomerase reverse transcriptase (TERT), which was associated with TERT point mutations, rearrangements, DNA amplifications and transcript fusions and predictive of telomerase activity. TERT promoter methylation provided an additional deregulatory TERT expression mechanism. Five percent of cases, characterized by undetectable TERT expression and alterations in ATRX or DAXX, demonstrated elongated telomeres and increased telomeric repeat-containing RNA (TERRA). The remaining 22% of tumors neither expressed TERT nor harbored alterations in ATRX or DAXX. In this group, telomere length positively correlated with TP53 and RB1 mutations. Our analysis integrates TERT abnormalities, telomerase activity and genomic alterations with telomere length in cancer.

Published

2017

20. Molecular Profiling Reveals Biologically Discrete Subsets and Pathways of Progression in Diffuse Glioma.

Author

Ceccarelli M, Barthel FP, Malta TM, Sabedot TS, Salama SR, Murray BA, Morozova O, Newton Y, Radenbaugh A, Pagnotta SM, Anjum S, Wang J, Manyam G, Zoppoli P, Ling S, Rao AA, Grifford M, Cherniack AD, Zhang H, Poisson L, Carlotti CG Jr, Tirapelli DP, Rao A, Mikkelsen T, Lau CC, Yung WK, Rabadan R, Huse J, Brat DJ, Lehman NL, Barnholtz-Sloan JS, Zheng S, Hess K, Rao G, Meyerson M, Beroukhim R, Cooper L, Akbani R, Wrensch M, Haussler D, Aldape KD, Laird PW, Gutmann DH, Noushmehr H, Iavarone A, and Verhaak RG

Subjects

Adult, Brain Neoplasms metabolism, Cell Proliferation, Cluster Analysis, DNA Helicases genetics, DNA Methylation, Epigenesis, Genetic, Glioma metabolism, Humans, Isocitrate Dehydrogenase genetics, Middle Aged, Mutation, Nuclear Proteins genetics, Promoter Regions, Genetic, Signal Transduction, Telomerase genetics, Telomere, X-linked Nuclear Protein, Brain Neoplasms genetics, Brain Neoplasms pathology, Glioma genetics, Glioma pathology, Transcriptome

Abstract

Therapy development for adult diffuse glioma is hindered by incomplete knowledge of somatic glioma driving alterations and suboptimal disease classification. We defined the complete set of genes associated with 1,122 diffuse grade II-III-IV gliomas from The Cancer Genome Atlas and used molecular profiles to improve disease classification, identify molecular correlations, and provide insights into the progression from low- to high-grade disease. Whole-genome sequencing data analysis determined that ATRX but not TERT promoter mutations are associated with increased telomere length. Recent advances in glioma classification based on IDH mutation and 1p/19q co-deletion status were recapitulated through analysis of DNA methylation profiles, which identified clinically relevant molecular subsets. A subtype of IDH mutant glioma was associated with DNA demethylation and poor outcome; a group of IDH-wild-type diffuse glioma showed molecular similarity to pilocytic astrocytoma and relatively favorable survival. Understanding of cohesive disease groups may aid improved clinical outcomes., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016