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1. Radiation Therapy and Myeloid-Derived Suppressor Cells: Breaking Down Their Cancerous Partnership.

Author

Bergerud, Kyra, Berkseth, Matthew, Pardoll, Drew, Ganguly, Sudipto, Kleinberg, Lawrence, Lawrence, Jessica, Odde, David, Largaespada, David, Terezakis, Stephanie, and Sloan, Lindsey

Subjects
Humans, Myeloid-Derived Suppressor Cells, Vascular Endothelial Growth Factor A, Neoplasms, Tumor Microenvironment, Immunosuppressive Agents, Hypoxia
Abstract

Radiation therapy (RT) has been a primary treatment modality in cancer for decades. Increasing evidence suggests that RT can induce an immunosuppressive shift via upregulation of cells such as tumor-associated macrophages (TAMs) and myeloid-derived suppressor cells (MDSCs). MDSCs inhibit antitumor immunity through potent immunosuppressive mechanisms and have the potential to be crucial tools for cancer prognosis and treatment. MDSCs interact with many different pathways, desensitizing tumor tissue and interacting with tumor cells to promote therapeutic resistance. Vascular damage induced by RT triggers an inflammatory signaling cascade and potentiates hypoxia in the tumor microenvironment (TME). RT can also drastically modify cytokine and chemokine signaling in the TME to promote the accumulation of MDSCs. RT activation of the cGAS-STING cytosolic DNA sensing pathway recruits MDSCs through a CCR2-mediated mechanism, inhibiting the production of type 1 interferons and hampering antitumor activity and immune surveillance in the TME. The upregulation of hypoxia-inducible factor-1 and vascular endothelial growth factor mobilizes MDSCs to the TME. After recruitment, MDSCs promote immunosuppression by releasing reactive oxygen species and upregulating nitric oxide production through inducible nitric oxide synthase expression to inhibit cytotoxic activity. Overexpression of arginase-1 on subsets of MDSCs degrades L-arginine and downregulates CD3ζ, inhibiting T-cell receptor reactivity. This review explains how radiation promotes tumor resistance through activation of immunosuppressive MDSCs in the TME and discusses current research targeting MDSCs, which could serve as a promising clinical treatment strategy in the future.

Published
2024

2. A Call for Discovery and Therapeutic Development for Cutaneous Neurofibromas

Author

Blakeley, Jaishri O, Le, Lu Q, Lee, Sang Y, Ly, Ina, Rhodes, Steven D, Romo, Carlos G, Sarin, Kavita Y, Staedtke, Verena, Steensma, Matthew R, Wolkenstein, Pierre, Participants, 2022 NTAP Cutaneous Neurofibroma Symposium, Largaespada, David, Serra, Eduard, Haniffa, Muzlifah, Bakker, Annette, McCormick, Frank, Cagan, Ross L, Ju, William, Stemmer-Rachamimov, Anat, Grimes, Kevin, Topilko, Piotr, Kornacki, Deanna, Kelly, Kristen M, Gottesman, Sally, York, Zachary, and Epps, Roselyn

Subjects
Humans, Neurofibroma, Neurofibromatosis 1, Skin Neoplasms, Connective Tissue Diseases, NTAP Cutaneous Neurofibroma Symposium Participants, Clinical Sciences, Oncology and Carcinogenesis, Dermatology & Venereal Diseases
Published
2023

4. Developing Bottom-Up Induced Pluripotent Stem Cell Derived Solid Tumor Models Using Precision Genome Editing Technologies

Author

Becklin, Kelsie L, Draper, Garrett M, Madden, Rebecca A, Kluesner, Mitchell G, Koga, Tomoyuki, Huang, Miller, Weiss, William A, Spector, Logan G, Largaespada, David A, Moriarity, Branden S, and Webber, Beau R

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Bioengineering, Regenerative Medicine, Biotechnology, Human Genome, Stem Cell Research, Rare Diseases, Stem Cell Research - Induced Pluripotent Stem Cell - Human, Genetics, Stem Cell Research - Induced Pluripotent Stem Cell, Cancer, CRISPR-Cas Systems, Gene Editing, Humans, Induced Pluripotent Stem Cells, Neoplasms
Abstract

Advances in genome and tissue engineering have spurred significant progress and opportunity for innovation in cancer modeling. Human induced pluripotent stem cells (iPSCs) are an established and powerful tool to study cellular processes in the context of disease-specific genetic backgrounds; however, their application to cancer has been limited by the resistance of many transformed cells to undergo successful reprogramming. Here, we review the status of human iPSC modeling of solid tumors in the context of genetic engineering, including how base and prime editing can be incorporated into "bottom-up" cancer modeling, a term we coined for iPSC-based cancer models using genetic engineering to induce transformation. This approach circumvents the need to reprogram cancer cells while allowing for dissection of the genetic mechanisms underlying transformation, progression, and metastasis with a high degree of precision and control. We also discuss the strengths and limitations of respective engineering approaches and outline experimental considerations for establishing future models.

Published
2022

8. Multiplatform molecular profiling uncovers two subgroups of malignant peripheral nerve sheath tumors with distinct therapeutic vulnerabilities

Author

Suppiah, Suganth, Mansouri, Sheila, Mamatjan, Yasin, Liu, Jeffrey C., Bhunia, Minu M., Patil, Vikas, Rath, Prisni, Mehani, Bharati, Heir, Pardeep, Bunda, Severa, Velez-Reyes, German L., Singh, Olivia, Ijad, Nazanin, Pirouzmand, Neda, Dalcourt, Tatyana, Meng, Ying, Karimi, Shirin, Wei, Qingxia, Nassiri, Farshad, Pugh, Trevor J., Bader, Gary D., Aldape, Kenneth D., Largaespada, David A., and Zadeh, Gelareh

Published
2023
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13. Engineering Genetic Predisposition in Human Neuroepithelial Stem Cells Recapitulates Medulloblastoma Tumorigenesis

Author

Huang, Miller, Tailor, Jignesh, Zhen, Qiqi, Gillmor, Aaron H, Miller, Matthew L, Weishaupt, Holger, Chen, Justin, Zheng, Tina, Nash, Emily K, McHenry, Lauren K, An, Zhenyi, Ye, Fubaiyang, Takashima, Yasuhiro, Clarke, James, Ayetey, Harold, Cavalli, Florence MG, Luu, Betty, Moriarity, Branden S, Ilkhanizadeh, Shirin, Chavez, Lukas, Yu, Chunying, Kurian, Kathreena M, Magnaldo, Thierry, Sevenet, Nicolas, Koch, Philipp, Pollard, Steven M, Dirks, Peter, Snyder, Michael P, Largaespada, David A, Cho, Yoon Jae, Phillips, Joanna J, Swartling, Fredrik J, Morrissy, A Sorana, Kool, Marcel, Pfister, Stefan M, Taylor, Michael D, Smith, Austin, and Weiss, William A

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Genetics, Human Genome, Brain Disorders, Regenerative Medicine, Pediatric, Pediatric Cancer, Stem Cell Research, Transplantation, Biotechnology, Rare Diseases, Stem Cell Research - Nonembryonic - Human, Cancer, Neurosciences, Stem Cell Research - Nonembryonic - Non-Human, Brain Cancer, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Animals, Basal Cell Nevus Syndrome, Brain Neoplasms, Carcinogenesis, DEAD-box RNA Helicases, Disease Models, Animal, Genetic Engineering, Genetic Predisposition to Disease, Humans, Medulloblastoma, Mice, Mice, SCID, N-Myc Proto-Oncogene Protein, Neoplasm Proteins, Neural Stem Cells, Neuroepithelial Cells, Patched-1 Receptor, Pluripotent Stem Cells, Stem Cell Transplantation, Transplantation, Heterologous, SHH, human pluripotent stem cells, medulloblastoma, neuroepithelial stem cells, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Human neural stem cell cultures provide progenitor cells that are potential cells of origin for brain cancers. However, the extent to which genetic predisposition to tumor formation can be faithfully captured in stem cell lines is uncertain. Here, we evaluated neuroepithelial stem (NES) cells, representative of cerebellar progenitors. We transduced NES cells with MYCN, observing medulloblastoma upon orthotopic implantation in mice. Significantly, transcriptomes and patterns of DNA methylation from xenograft tumors were globally more representative of human medulloblastoma compared to a MYCN-driven genetically engineered mouse model. Orthotopic transplantation of NES cells generated from Gorlin syndrome patients, who are predisposed to medulloblastoma due to germline-mutated PTCH1, also generated medulloblastoma. We engineered candidate cooperating mutations in Gorlin NES cells, with mutation of DDX3X or loss of GSE1 both accelerating tumorigenesis. These findings demonstrate that human NES cells provide a potent experimental resource for dissecting genetic causation in medulloblastoma.

Published
2019

14. Genetically engineered minipigs model the major clinical features of human neurofibromatosis type 1

Author

Isakson, Sara H, Rizzardi, Anthony E, Coutts, Alexander W, Carlson, Daniel F, Kirstein, Mark N, Fisher, James, Vitte, Jeremie, Williams, Kyle B, Pluhar, G Elizabeth, Dahiya, Sonika, Widemann, Brigitte C, Dombi, Eva, Rizvi, Tilat, Ratner, Nancy, Messiaen, Ludwine, Stemmer-Rachamimov, Anat O, Fahrenkrug, Scott C, Gutmann, David H, Giovannini, Marco, Moertel, Christopher L, Largaespada, David A, and Watson, Adrienne L

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Neurofibromatosis, Neurosciences, Brain Disorders, Rare Diseases, Brain Cancer, Biological sciences, Biomedical and clinical sciences
Abstract

Neurofibromatosis Type 1 (NF1) is a genetic disease caused by mutations in Neurofibromin 1 (NF1). NF1 patients present with a variety of clinical manifestations and are predisposed to cancer development. Many NF1 animal models have been developed, yet none display the spectrum of disease seen in patients and the translational impact of these models has been limited. We describe a minipig model that exhibits clinical hallmarks of NF1, including café au lait macules, neurofibromas, and optic pathway glioma. Spontaneous loss of heterozygosity is observed in this model, a phenomenon also described in NF1 patients. Oral administration of a mitogen-activated protein kinase/extracellular signal-regulated kinase inhibitor suppresses Ras signaling. To our knowledge, this model provides an unprecedented opportunity to study the complex biology and natural history of NF1 and could prove indispensable for development of imaging methods, biomarkers, and evaluation of safety and efficacy of NF1-targeted therapies.

Published
2018

17. Stat5 is critical for the development and maintenance of myeloproliferative neoplasm initiated by Nf1 deficiency

Author

Sachs, Zohar, Been, Raha A, DeCoursin, Krista J, Nguyen, Hanh T, Mohd Hassan, Nurul A, Noble-Orcutt, Klara E, Eckfeldt, Craig E, Pomeroy, Emily J, Diaz-Flores, Ernesto, Geurts, Jennifer L, Diers, Miechaleen D, Hasz, Diane E, Morgan, Kelly J, MacMillan, Margaret L, Shannon, Kevin M, Largaespada, David A, and Wiesner, Stephen M

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Childhood Leukemia, Genetics, Cancer, Pediatric Cancer, Pediatric, Rare Diseases, Hematology, Neurofibromatosis, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Animals, Disease Models, Animal, Humans, Janus Kinase 2, Leukemia, Myeloid, Leukemia, Myelomonocytic, Juvenile, Mice, Myeloproliferative Disorders, Neurofibromin 1, Proto-Oncogene Proteins p21(ras), STAT5 Transcription Factor, Signal Transduction, Cardiorespiratory Medicine and Haematology, Immunology, Cardiovascular medicine and haematology
Abstract

Juvenile myelomonocytic leukemia is a rare myeloproliferative neoplasm characterized by hyperactive RAS signaling. Neurofibromin1 (encoded by the NF1 gene) is a negative regulator of RAS activation. Patients with neurofibromatosis type 1 harbor loss-of-function mutations in NF1 and have a 200- to 500-fold increased risk of juvenile myelomonocytic leukemia. Leukemia cells from patients with juvenile myelomonocytic leukemia display hypersensitivity to certain cytokines, such as granulocyte-macrophage colony-stimulating factor. The granulocyte-macrophage colony-stimulating factor receptor utilizes pre-associated JAK2 to initiate signals after ligand binding. JAK2 subsequently activates STAT5, among other downstream effectors. Although STAT5 is gaining recognition as an important mediator of growth factor signaling in myeloid leukemias, the contribution of STAT5 to the development of hyperactive RAS-initiated myeloproliferative disease has not been well described. In this study, we investigated the consequence of STAT5 attenuation via genetic and pharmacological approaches in Nf1-deficient murine models of juvenile myelomonocytic leukemia. We found that homozygous Stat5 deficiency extended the lifespan of Nf1-deficient mice and eliminated the development of myeloproliferative neoplasm associated with Nf1 gene loss. Likewise, we found that JAK inhibition with ruxolitinib attenuated myeloproliferative neoplasm in Nf1-deficient mice. Finally, we found that primary cells from a patient with KRAS-mutant juvenile myelomonocytic leukemia displayed reduced colony formation in response to JAK2 inhibition. Our findings establish a central role for STAT5 activation in the pathogenesis of juvenile myelomonocytic leukemia and suggest that targeting this pathway may be of clinical utility in these patients.

Published
2016

18. Phase I trials using Sleeping Beauty to generate CD19-specific CAR T cells.

Author

Kebriaei, Partow, Singh, Harjeet, Huls, M, Figliola, Matthew, Bassett, Roland, Olivares, Simon, Jena, Bipulendu, Dawson, Margaret, Kumaresan, Pappanaicken, Su, Shihuang, Maiti, Sourindra, Dai, Jianliang, Moriarity, Branden, Forget, Marie-Andrée, Senyukov, Vladimir, Orozco, Aaron, Liu, Tingting, McCarty, Jessica, Jackson, Rineka, Moyes, Judy, Rondon, Gabriela, Qazilbash, Muzaffar, Ciurea, Stefan, Alousi, Amin, Nieto, Yago, Rezvani, Katy, Marin, David, Popat, Uday, Hosing, Chitra, Shpall, Elizabeth, Kantarjian, Hagop, Keating, Michael, Wierda, William, Do, Kim, Largaespada, David, Lee, Dean, Hackett, Perry, Champlin, Richard, and Cooper, Laurence

Subjects
Adult, Antigen-Presenting Cells, Antigens, CD19, Cytokines, DNA Transposable Elements, Disease-Free Survival, Female, Follow-Up Studies, Genetic Therapy, Hematopoietic Stem Cell Transplantation, Humans, Immunotherapy, Adoptive, Lymphocyte Activation, Lymphoma, Non-Hodgkin, Male, Middle Aged, Patient Safety, Plasmids, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Receptors, Antigen, T-Cell, T-Lymphocytes, Transplantation, Homologous, Treatment Outcome, Young Adult
Abstract

BACKGROUND: T cells expressing antigen-specific chimeric antigen receptors (CARs) improve outcomes for CD19-expressing B cell malignancies. We evaluated a human application of T cells that were genetically modified using the Sleeping Beauty (SB) transposon/transposase system to express a CD19-specific CAR. METHODS: T cells were genetically modified using DNA plasmids from the SB platform to stably express a second-generation CD19-specific CAR and selectively propagated ex vivo with activating and propagating cells (AaPCs) and cytokines. Twenty-six patients with advanced non-Hodgkin lymphoma and acute lymphoblastic leukemia safely underwent hematopoietic stem cell transplantation (HSCT) and infusion of CAR T cells as adjuvant therapy in the autologous (n = 7) or allogeneic settings (n = 19). RESULTS: SB-mediated genetic transposition and stimulation resulted in 2,200- to 2,500-fold ex vivo expansion of genetically modified T cells, with 84% CAR expression, and without integration hotspots. Following autologous HSCT, the 30-month progression-free and overall survivals were 83% and 100%, respectively. After allogeneic HSCT, the respective 12-month rates were 53% and 63%. No acute or late toxicities and no exacerbation of graft-versus-host disease were observed. Despite a low antigen burden and unsupportive recipient cytokine environment, CAR T cells persisted for an average of 201 days for autologous recipients and 51 days for allogeneic recipients. CONCLUSIONS: CD19-specific CAR T cells generated with SB and AaPC platforms were safe, and may provide additional cancer control as planned infusions after HSCT. These results support further clinical development of this nonviral gene therapy approach. TRIAL REGISTRATION: Autologous, NCT00968760; allogeneic, NCT01497184; long-term follow-up, NCT01492036. FUNDING: National Cancer Institute, private foundations, and institutional funds. Please see Acknowledgments for details.

Published
2016

19. Insertional Mutagenesis Identifies a STAT3/Arid1b/β-catenin Pathway Driving Neurofibroma Initiation.

Author

Wu, Jianqiang, Keng, Vincent, Patmore, Deanna, Kendall, Jed, Patel, Ami, Jousma, Edwin, Jessen, Walter, Choi, Kwangmin, Tschida, Barbara, Silverstein, Kevin, Fan, Danhua, Schwartz, Eric, Fuchs, James, Zou, Yuanshu, Kim, Mi-Ok, Dombi, Eva, Levy, David, Huang, Gang, Cancelas, Jose, Stemmer-Rachamimov, Anat, Spinner, Robert, Largaespada, David, and Ratner, Nancy

Subjects
Animals, Carcinogenesis, DNA Helicases, DNA-Binding Proteins, Disease Models, Animal, Female, Gene Expression Regulation, Neoplastic, Glycogen Synthase Kinase 3 beta, Histones, Humans, Mice, Mice, Nude, Mutagenesis, Insertional, N-Terminal Acetyltransferase A, Neoplasm Transplantation, Neural Stem Cells, Neurofibromatosis 1, Neurofibromin 1, Nuclear Proteins, Peripheral Nervous System Neoplasms, Phosphorylation, RNA, Small Interfering, STAT3 Transcription Factor, Schwann Cells, Signal Transduction, Transcription Factors, beta Catenin
Abstract

To identify genes and signaling pathways that initiate Neurofibromatosis type 1 (NF1) neurofibromas, we used unbiased insertional mutagenesis screening, mouse models, and molecular analyses. We mapped an Nf1-Stat3-Arid1b/β-catenin pathway that becomes active in the context of Nf1 loss. Genetic deletion of Stat3 in Schwann cell progenitors (SCPs) and Schwann cells (SCs) prevents neurofibroma formation, decreasing SCP self-renewal and β-catenin activity. β-catenin expression rescues effects of Stat3 loss in SCPs. Importantly, P-STAT3 and β-catenin expression correlate in human neurofibromas. Mechanistically, P-Stat3 represses Gsk3β and the SWI/SNF gene Arid1b to increase β-catenin. Knockdown of Arid1b or Gsk3β in Stat3(fl/fl);Nf1(fl/fl);DhhCre SCPs rescues neurofibroma formation after in vivo transplantation. Stat3 represses Arid1b through histone modification in a Brg1-dependent manner, indicating that epigenetic modification plays a role in early tumorigenesis. Our data map a neural tumorigenesis pathway and support testing JAK/STAT and Wnt/β-catenin pathway inhibitors in neurofibroma therapeutic trials.

Published
2016

22. CDK4/6 inhibition enhances SHP2 inhibitor efficacy and is dependent upon RB function in malignant peripheral nerve sheath tumors

Author

Wang, Jiawan, primary, Calizo, Ana, additional, Zhang, Lindy, additional, Pino, James C., additional, Lyu, Yang, additional, Pollard, Kai, additional, Zhang, Xiaochun, additional, Larsson, Alex T., additional, Conniff, Eric, additional, Llosa, Nicolas J., additional, Wood, David K., additional, Largaespada, David A., additional, Moody, Susan E., additional, Gosline, Sara J., additional, Hirbe, Angela C., additional, and Pratilas, Christine A., additional

Published
2023
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23. PML-RARα co-operates with Sox4 in acute myeloid leukemia development in mice

Author

Omidvar, Nader, Maunakea, Mei Lin, Jones, Letetia, Sevcikova, Sabina, Yin, Bin, Himmel, Karen L, Tennant, Thelma R, Le Beau, Michelle M, Largaespada, David A, and Kogan, Scott C

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Orphan Drug, Childhood Leukemia, Hematology, Genetics, Pediatric, Biotechnology, Cancer, Rare Diseases, Pediatric Cancer, Animals, Bone Marrow, Cell Transformation, Neoplastic, Disease Models, Animal, Gene Expression, Leukemia, Myeloid, Acute, Liver, Lymph Nodes, Mice, Mice, Transgenic, Oncogene Proteins, Fusion, Protein Binding, SOXC Transcription Factors, Spleen, Cardiorespiratory Medicine and Haematology, Immunology, Cardiovascular medicine and haematology
Abstract

Acute promyelocytic leukemia is characterized by a chromosomal translocation involving the retinoic acid receptor alpha gene. To identify co-operating pathways to leukemogenesis, we crossed MRP8-PML/RARA transgenic mice with BXH-2 mice which harbor an endogenous murine leukemia virus that causes acute myeloid leukemia. Approximately half of the leukemias that arose in this cross showed features of acute promyelocytic leukemia. We identified 22 proviral insertion sites in acute promyelocytic-like leukemias and focused our analysis on insertion at Sox4, a HMG box transcription factor. Using a transplant model, co-operation between PML-RARα and Sox4 was confirmed with increased penetrance and reduced latency of disease. Interestingly, karyotypic analysis revealed cytogenetic changes suggesting that the factors combined to initiate but not complete leukemic transformation. The cooperation between these transcription factors is consistent with the paradigm of multiple routes to the disease and reinforces the concept that transcription factor networks are important therapeutic targets in myeloid leukemias.

Published
2013

24. Clonal selection drives genetic divergence of metastatic medulloblastoma.

Author

Wu, Xiaochong, Northcott, Paul A, Dubuc, Adrian, Dupuy, Adam J, Shih, David JH, Witt, Hendrik, Croul, Sidney, Bouffet, Eric, Fults, Daniel W, Eberhart, Charles G, Garzia, Livia, Van Meter, Timothy, Zagzag, David, Jabado, Nada, Schwartzentruber, Jeremy, Majewski, Jacek, Scheetz, Todd E, Pfister, Stefan M, Korshunov, Andrey, Li, Xiao-Nan, Scherer, Stephen W, Cho, Yoon-Jae, Akagi, Keiko, MacDonald, Tobey J, Koster, Jan, McCabe, Martin G, Sarver, Aaron L, Collins, V Peter, Weiss, William A, Largaespada, David A, Collier, Lara S, and Taylor, Michael D

Subjects
Animals, Humans, Mice, Medulloblastoma, Neoplasm Metastasis, Li-Fraumeni Syndrome, Disease Models, Animal, DNA Transposable Elements, Survival Rate, Mutagenesis, Insertional, DNA Methylation, CpG Islands, Germ-Line Mutation, Genes, p53, Clonal Evolution, Disease Models, Animal, Genes, p53, Mutagenesis, Insertional, General Science & Technology
Abstract

Medulloblastoma, the most common malignant paediatric brain tumour, arises in the cerebellum and disseminates through the cerebrospinal fluid in the leptomeningeal space to coat the brain and spinal cord. Dissemination, a marker of poor prognosis, is found in up to 40% of children at diagnosis and in most children at the time of recurrence. Affected children therefore are treated with radiation to the entire developing brain and spinal cord, followed by high-dose chemotherapy, with the ensuing deleterious effects on the developing nervous system. The mechanisms of dissemination through the cerebrospinal fluid are poorly studied, and medulloblastoma metastases have been assumed to be biologically similar to the primary tumour. Here we show that in both mouse and human medulloblastoma, the metastases from an individual are extremely similar to each other but are divergent from the matched primary tumour. Clonal genetic events in the metastases can be demonstrated in a restricted subclone of the primary tumour, suggesting that only rare cells within the primary tumour have the ability to metastasize. Failure to account for the bicompartmental nature of metastatic medulloblastoma could be a major barrier to the development of effective targeted therapies.

Published
2012

26. Indirect CRISPR screening with photoconversion revealed key factors of drug resistance with cell–cell interactions

Author

Sugita, Keisuke, primary, Onishi, Iichiroh, additional, Nakayama, Ran, additional, Ishibashi, Sachiko, additional, Ikeda, Masumi, additional, Inoue, Miori, additional, Narita, Rina, additional, Oshima, Shiori, additional, Shimizu, Kaho, additional, Saito, Shinichiro, additional, Sato, Shingo, additional, Moriarity, Branden S., additional, Yamamoto, Kouhei, additional, Largaespada, David A., additional, Kitagawa, Masanobu, additional, and Kurata, Morito, additional

Published
2023
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27. Mammalian Germ-Line Transgenesis by Transposition

Author

Dupuy, Adam J., Clark, Karl, Carlson, Corey M., Fritz, Sabine, Davidson, Ann E., Markley, Karra M., Finley, Ken, Fletcher, Colin F., Ekker, Stephen C., Hackett, Perry B., Horn, Sandra, and Largaespada, David A.

Published
2002

30. Ex vivo to in vivo model of malignant peripheral nerve sheath tumors for precision oncology

Author

Larsson, Alex T, primary, Bhatia, Himanshi, additional, Calizo, Ana, additional, Pollard, Kai, additional, Zhang, Xiaochun, additional, Conniff, Eric, additional, Tibbitts, Justin F, additional, Rono, Elizabeth, additional, Cummins, Katherine, additional, Osum, Sara H, additional, Williams, Kyle B, additional, Crampton, Alexandra L, additional, Jubenville, Tyler, additional, Schefer, Daniel, additional, Yang, Kuangying, additional, Lyu, Yang, additional, Pino, James C, additional, Bade, Jessica, additional, Gross, John M, additional, Lisok, Alla, additional, Dehner, Carina A, additional, Chrisinger, John S A, additional, He, Kevin, additional, Gosline, Sara J C, additional, Pratilas, Christine A, additional, Largaespada, David A, additional, Wood, David K, additional, and Hirbe, Angela C, additional

Published
2023
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31. DNA Deamination Is Required for Human APOBEC3A-Driven Hepatocellular Carcinoma In Vivo

Author

Naumann, Jordan A., primary, Argyris, Prokopios P., additional, Carpenter, Michael A., additional, Gupta, Harshita B., additional, Chen, Yanjun, additional, Temiz, Nuri A., additional, Zhou, Yufan, additional, Durfee, Cameron, additional, Proehl, Joshua, additional, Koniar, Brenda L., additional, Conticello, Silvestro G., additional, Largaespada, David A., additional, Brown, William L., additional, Aihara, Hideki, additional, Vogel, Rachel I., additional, and Harris, Reuben S., additional

Published
2023
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35. Abstract P3-08-04: Discovery of cancer genes and pathways operative in PI3K-activated mammary cancer reveals clinically relevant genotype-phenotype correlations

Author

Kurata, Morito, primary, Pope, Emiily, additional, Shu, Jingmin, additional, Yuan, Wenlin, additional, Hudson, Wendy, additional, Sokolowski, Mark, additional, Bagherzadeh, Setareh, additional, Modrusan, Zora, additional, Stawiski, Eric, additional, Durinck, Steffen, additional, Seshigiri, Sekar, additional, Sarver, Aaron, additional, Temiz, Nuri, additional, and Largaespada, David, additional

Published
2023
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37. Identification of NRAS Downstream Genes with CRISPR Activation Screening

Author

Tatsumi, Akiya, primary, Hirakochi, Haruka, additional, Inoue, Satomi, additional, Tanaka, Yosuke, additional, Furuno, Hidehiro, additional, Ikeda, Masumi, additional, Ishibashi, Sachiko, additional, Taguchi, Towako, additional, Yamamoto, Kouhei, additional, Onishi, Iichiroh, additional, Sachs, Zohar, additional, Largaespada, David A., additional, Kitagawa, Masanobu, additional, and Kurata, Morito, additional

Published
2022
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40. Proliferation and Self-Renewal Are Differentially Sensitive to NRASG12V Oncogene Levels in an Acute Myeloid Leukemia Cell Line

Author

Kurata, Morito, primary, Antony, Marie Lue, additional, Noble-Orcutt, Klara E., additional, Rathe, Susan K., additional, Lee, Yoonkyu, additional, Furuno, Hidehiro, additional, Ishibashi, Sachiko, additional, Ikeda, Masumi, additional, Yamamoto, Kouhei, additional, Kitagawa, Masanobu, additional, Largaespada, David A., additional, and Sachs, Zohar, additional

Published
2022
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46. An insertional mutagenesis screen identifies genes that cooperate with Mll-AF9 in a murine leukemogenesis model

Author

Bergerson, Rachel J., Collier, Lara S., Sarver, Aaron L., Been, Raha A., Lugthart, Sanne, Diers, Miechaleen D., Zuber, Johannes, Rappaport, Amy R., Nixon, Molly J., Silverstein, Kevin A.T., Fan, Danhua, Lamblin, Anne-Francoise J., Wolff, Linda, Kersey, John H., Delwel, Ruud, Lowe, Scott W., O'Sullivan, M. Gerard, Kogan, Scott C., Adams, David J., and Largaespada, David A.

Published
2012
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48. A Transposon-Based Genetic Screen in Mice Identifies Genes Altered in Colorectal Cancer

Author

Starr, Timothy K., Allaei, Raha, Silverstein, Kevin A. T., Staggs, Rodney A., Sarver, Aaron L., Bergemann, Tracy L., Gupta, Mihir, O'Sullivan, M. Gerard, Matise, Ilze, Dupuy, Adam J., Collier, Lara S., Powers, Scott, Oberg, Ann L., Asmann, Yan W., Thibodeau, Stephen N., Tessarollo, Lino, Copeland, Neal G., Jenkins, Nancy A., Cormier, Robert T., and Largaespada, David A.

Published
2009
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49. PVT1 dependence in cancer with MYC copy-number increase

Author

Tseng, Yuen-Yi, Moriarity, Branden S., Gong, Wuming, Akiyama, Ryutaro, Tiwari, Ashutosh, Kawakami, Hiroko, Ronning, Peter, Reuland, Brian, Guenther, Kacey, Beadnell, Thomas C., Essig, Jaclyn, Otto, George M., O'Sullivan, M. Gerard, Largaespada, David A., Schwertfeger, Kathryn L., Marahrens, York, Kawakami, Yasuhiko, and Bagchi, Anindya

Subjects
Breast tumors -- Genetic aspects, Cancer cells -- Genetic aspects, Oncogenes -- Properties, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

'Gain' of supernumerary copies of the 8q24.21 chromosomal region has been shown to be common in many human cancers (1-13) and is associated with poor prognosis (7,10,14). The well-characterized myelocytomatosis [...]

Published
2014

50. Divergent clonal selection dominates medulloblastoma at recurrence

Author

Morrissy, Sorana A., Garzia, Livia, Shih, David J. H., Zuyderduyn, Scott, Huang, Xi, Skowron, Patryk, Remke, Marc, Cavalli, Florence M. G., Ramaswamy, Vijay, Lindsay, Patricia E., Jelveh, Salomeh, Donovan, Laura K., Wang, Xin, Luu, Betty, Zayne, Kory, Li, Yisu, Mayoh, Chelsea, Thiessen, Nina, Mercier, Eloi, Mungall, Karen L., Ma, Yusanne, Tse, Kane, Zeng, Thomas, Shumansky, Karey, Roth, Andrew J. L., Shah, Sohrab, Farooq, Hamza, Kijima, Noriyuki, Holgado, Borja L., Lee, John J. Y., Matan-Lithwick, Stuart, Liu, Jessica, Mack, Stephen C., Manno, Alex, Michealraj, K. A., Nor, Carolina, Peacock, John, Qin, Lei, Reimand, Juri, Rolider, Adi, Thompson, Yuan Y., Wu, Xiaochong, Pugh, Trevor, Ally, Adrian, Bilenky, Mikhail, Butterfield, Yaron S. N., Carlsen, Rebecca, Cheng, Young, Chuah, Eric, Corbett, Richard D., Dhalla, Noreen, He, An, Lee, Darlene, Li, Haiyan I., Long, William, Mayo, Michael, Plettner, Patrick, Qian, Jenny Q., Schein, Jacqueline E., Tam, Angela, Wong, Tina, Birol, Inanc, Zhao, Yongjun, Faria, Claudia C., Pimentel, José, Nunes, Sofia, Shalaby, Tarek, Grotzer, Michael, Pollack, Ian F., Hamilton, Ronald L., Li, Xiao-Nan, Bendel, Anne E., Fults, Daniel W., Walter, Andrew W., Kumabe, Toshihiro, Tominaga, Teiji, Collins, Peter V., Cho, Yoon-Jae, Hoffman, Caitlin, Lyden, David, Wisoff, Jeffrey H., Garvin, James H., Stearns, Duncan S., Massimi, Luca, Schüller, Ulrich, Sterba, Jaroslav, Zitterbart, Karel, Puget, Stephanie, Ayrault, Olivier, Dunn, Sandra E., Tirapelli, Daniela P. C., Carlotti, Carlos G., Wheeler, Helen, Hallahan, Andrew R., Ingram, Wendy, MacDonald, Tobey J., Olson, Jeffrey J., Van Meir, Erwin G., Lee, Ji-Yeoun, Wang, Kyu-Chang, Kim, Seung-Ki, Cho, Byung-Kyu, Pietsch, Torsten, Fleischhack, Gudrun, Tippelt, Stephan, Ra, Young Shin, Bailey, Simon, Lindsey, Janet C., Clifford, Steven C., Eberhart, Charles G., Cooper, Michael K., Packer, Roger J., Massimino, Maura, Garre, Maria Luisa, Bartels, Ute, Tabori, Uri, Hawkins, Cynthia E., Dirks, Peter, Bouffet, Eric, Rutka, James T., Wechsler-Reya, Robert J., Weiss, William A., Collier, Lara S., Dupuy, Adam J., Korshunov, Andrey, Jones, David T. W., Kool, Marcel, Northcott, Paul A., Pfister, Stefan M., Largaespada, David A., Mungall, Andrew J., Moore, Richard A., Jabado, Nada, Bader, Gary D., Jones, Steven J. M., Malkin, David, Marra, Marco A., and Taylor, Michael D.

Published
2016
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