Your search keyword '"Jun S. Wei"' showing total 208 results

1. A patient-derived cell model for malignant transformation in IDH-mutant glioma

Author

Olga Kim, Zach Sergi, Guangyang Yu, Kazutoshi Yamamoto, Martha Quezado, Zied Abdullaev, Danel R. Crooks, Shun Kishimoto, Qi Li, Peng Lu, Burchelle Blackman, Thorkell Andresson, Xiaolin Wu, Bao Tran, Jun S. Wei, Wei Zhang, Meili Zhang, Hua Song, Javed Khan, Murali C. Krishna, Jeffrey R. Brender, and Jing Wu

Subjects

Malignant transformation (MT), IDH-mutant glioma, Low-grade glioma (LGG), High-grade glioma (HGG), Tumor mutational burden (TMB), Hypermutator phenotype (HMP), Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Malignant transformation (MT) is commonly seen in IDH-mutant gliomas. There has been a growing research interest in revealing its underlying mechanisms and intervening prior to MT at the early stages of the transforming process. Here we established a unique pair of matched 3D cell models: 403L, derived from a low-grade glioma (LGG), and 403H, derived from a high-grade glioma (HGG), by utilizing IDH-mutant astrocytoma samples from the same patient when the tumor was diagnosed as WHO grade 2 (tumor mutational burden (TMB) of 3.96/Mb) and later as grade 4 (TMB of 70.07/Mb), respectively. Both cell models were authenticated to a patient’s sample retaining endogenous expression of IDH1 R132H. DNA methylation profiles of the parental tumors referred to LGG and HGG IDH-mutant glioma clusters. The immunopositivity of SOX2, NESTIN, GFAP, OLIG2, and beta 3-Tubulin suggested the multilineage potential of both models. 403H was more prompt to cell invasion and developed infiltrative HGG in vivo. The differentially expressed genes (DEGs) from the RNA sequencing analysis revealed the tumor invasion and aggressiveness related genes exclusively upregulated in the 403H model. Pathway analysis showcased an enrichment of genes associated with epithelial-mesenchymal transition (EMT) and Notch signaling pathways in 403H and 403L, respectively. Mass spectrometry-based targeted metabolomics and hyperpolarized (HP) 1-13C pyruvate in-cell NMR analyses demonstrated significant alterations in the TCA cycle and fatty acid metabolism. Citrate, glutamine, and 2-HG levels were significantly higher in 403H. To our knowledge, this is the first report describing the development of a matched pair of 3D patient-derived cell models representative of MT and temozolomide (TMZ)-induced hypermutator phenotype (HMP) in IDH-mutant glioma, providing insights into genetic and metabolic changes during MT/HMP. This novel in vitro model allows further investigation of the mechanisms of MT at the cellular level. Graphic Abstract

Published

2024

2. CAR T-cells targeting FGFR4 and CD276 simultaneously show potent antitumor effect against childhood rhabdomyosarcoma

Author

Meijie Tian, Jun S. Wei, Adam Tai-Chi Cheuk, David Milewski, Zhongmei Zhang, Yong Yean Kim, Hsien-Chao Chou, Can Liu, Sherif Badr, Eleanor G. Pope, Abdelrahman Rahmy, Jerry T. Wu, Michael C. Kelly, Xinyu Wen, and Javed Khan

Subjects

Science

Abstract

Abstract Chimeric antigen receptor (CAR) T-cells targeting Fibroblast Growth Factor Receptor 4 (FGFR4), a highly expressed surface tyrosine receptor in rhabdomyosarcoma (RMS), are already in the clinical phase of development, but tumour heterogeneity and suboptimal activation might hamper their potency. Here we report an optimization strategy of the co-stimulatory and targeting properties of a FGFR4 CAR. We replace the CD8 hinge and transmembrane domain and the 4-1BB co-stimulatory domain with those of CD28. The resulting CARs display enhanced anti-tumor activity in several RMS xenograft models except for an aggressive tumour cell line, RMS559. By searching for a direct target of the RMS core-regulatory transcription factor MYOD1, we identify another surface protein, CD276, as a potential target. Bicistronic CARs (BiCisCAR) targeting both FGFR4 and CD276, containing two distinct co-stimulatory domains, have superior prolonged persistent and invigorated anti-tumor activities compared to the optimized FGFR4-specific CAR and the other BiCisCAR with the same 4-1BB co-stimulatory domain. Our study thus lays down the proof-of-principle for a CAR T-cell therapy targeting both FGFR4 and CD276 in RMS.

Published

2024

3. KDM3B inhibitors disrupt the oncogenic activity of PAX3-FOXO1 in fusion-positive rhabdomyosarcoma

Author

Yong Yean Kim, Berkley E. Gryder, Ranuka Sinniah, Megan L. Peach, Jack F. Shern, Abdalla Abdelmaksoud, Silvia Pomella, Girma M. Woldemichael, Benjamin Z. Stanton, David Milewski, Joseph J. Barchi, John S. Schneekloth, Raj Chari, Joshua T. Kowalczyk, Shilpa R. Shenoy, Jason R. Evans, Young K. Song, Chaoyu Wang, Xinyu Wen, Hsien-Chao Chou, Vineela Gangalapudi, Dominic Esposito, Jane Jones, Lauren Procter, Maura O’Neill, Lisa M. Jenkins, Nadya I. Tarasova, Jun S. Wei, James B. McMahon, Barry R. O’Keefe, Robert G. Hawley, and Javed Khan

Subjects

Science

Abstract

Abstract Fusion-positive rhabdomyosarcoma (FP-RMS) is an aggressive pediatric sarcoma driven primarily by the PAX3-FOXO1 fusion oncogene, for which therapies targeting PAX3-FOXO1 are lacking. Here, we screen 62,643 compounds using an engineered cell line that monitors PAX3-FOXO1 transcriptional activity identifying a hitherto uncharacterized compound, P3FI-63. RNA-seq, ATAC-seq, and docking analyses implicate histone lysine demethylases (KDMs) as its targets. Enzymatic assays confirm the inhibition of multiple KDMs with the highest selectivity for KDM3B. Structural similarity search of P3FI-63 identifies P3FI-90 with improved solubility and potency. Biophysical binding of P3FI-90 to KDM3B is demonstrated using NMR and SPR. P3FI-90 suppresses the growth of FP-RMS in vitro and in vivo through downregulating PAX3-FOXO1 activity, and combined knockdown of KDM3B and KDM1A phenocopies P3FI-90 effects. Thus, we report KDM inhibitors P3FI-63 and P3FI-90 with the highest specificity for KDM3B. Their potent suppression of PAX3-FOXO1 activity indicates a possible therapeutic approach for FP-RMS and other transcriptionally addicted cancers.

Published

2024

4. BAF complexes drive proliferation and block myogenic differentiation in fusion-positive rhabdomyosarcoma

Author

Dominik Laubscher, Berkley E. Gryder, Benjamin D. Sunkel, Thorkell Andresson, Marco Wachtel, Sudipto Das, Bernd Roschitzki, Witold Wolski, Xiaoli S. Wu, Hsien-Chao Chou, Young K. Song, Chaoyu Wang, Jun S. Wei, Meng Wang, Xinyu Wen, Quy Ai Ngo, Joana G. Marques, Christopher R. Vakoc, Beat W. Schäfer, Benjamin Z. Stanton, and Javed Khan

Subjects

Science

Abstract

Rhabdomyosarcoma (RMS) is a pediatric malignancy of skeletal muscle lineage with an aggressive subtype caused by translocations involving PAX3- /PAX7-FOXO1 chimeric transcription factors. Here the authors show that the BRG1-containing BAF complex is overexpressed and acts largely independently of the PAX3-FOXO1 chimera on chromatin to result in a myogenic differentiation blockade in this malignancy.

Published

2021

5. Notch signaling and efficacy of PD-1/PD-L1 blockade in relapsed small cell lung cancer

Author

Nitin Roper, Moises J. Velez, Alberto Chiappori, Yoo Sun Kim, Jun S. Wei, Sivasish Sindiri, Nobuyuki Takahashi, Deborah Mulford, Suresh Kumar, Kris Ylaya, Christopher Trindade, Irena Manukyan, Anna-Leigh Brown, Jane B. Trepel, Jung-Min Lee, Stephen Hewitt, Javed Khan, and Anish Thomas

Subjects

Science

Abstract

Immune checkpoint blockade (ICB) benefits only a small subset of patients with small cell lung cancer (SCLC) and the mechanisms driving benefit are poorly understood. Here, the authors show that elevated Notch signaling predicts clinical benefit in ICB in relapsed SCLC.

Published

2021

6. An optimized bicistronic chimeric antigen receptor against GPC2 or CD276 overcomes heterogeneous expression in neuroblastoma

Author

Meijie Tian, Adam T. Cheuk, Jun S. Wei, Abdalla Abdelmaksoud, Hsien-Chao Chou, David Milewski, Michael C. Kelly, Young K. Song, Christopher M. Dower, Nan Li, Haiying Qin, Yong Yean Kim, Jerry T. Wu, Xinyu Wen, Mehdi Benzaoui, Katherine E. Masih, Xiaolin Wu, Zhongmei Zhang, Sherif Badr, Naomi Taylor, Brad St. Croix, Mitchell Ho, and Javed Khan

Subjects

Immunology, Therapeutics, Medicine

Abstract

Chimeric antigen receptor (CAR) T cell therapies targeting single antigens have performed poorly in clinical trials for solid tumors due to heterogenous expression of tumor-associated antigens (TAAs), limited T cell persistence, and T cell exhaustion. Here, we aimed to identify optimal CARs against glypican 2 (GPC2) or CD276 (B7-H3), which were highly but heterogeneously expressed in neuroblastoma (NB), a lethal extracranial solid tumor of childhood. First, we examined CAR T cell expansion in the presence of targets by digital droplet PCR. Next, using pooled competitive optimization of CAR by cellular indexing of transcriptomes and epitopes by sequencing (CITE-Seq), termed P-COCC, we simultaneously analyzed protein and transcriptome expression of CAR T cells to identify high-activity CARs. Finally, we performed cytotoxicity assays to identify the most effective CAR against each target and combined the CARs into a bicistronic “OR” CAR (BiCisCAR). BiCisCAR T cells effectively eliminated tumor cells expressing GPC2 or CD276. Furthermore, the BiCisCAR T cells demonstrated prolonged persistence and resistance to exhaustion when compared with CARs targeting a single antigen. This study illustrated that targeting multiple TAAs with BiCisCAR may overcome heterogenous expression of target antigens in solid tumors and identified a potent, clinically relevant CAR against NB. Moreover, our multimodal approach integrating competitive expansion, P-COCC, and cytotoxicity assays is an effective strategy to identify potent CARs among a pool of candidates.

Published

2022

7. Aneurysmal Fibrous Histiocytoma: A Large Soft Tissue Tumor with Metastases Treated with Palliative Radiation Therapy and Targeted Therapy

Author

Michael Chamberlin, Sophia Khan, Cristal Hernandez, Markku Miettinen, Jun S. Wei, Javed Khan, John Glod, Lindsay Rowe, and Aradhana Kaushal

Subjects

aneurysmal fibrous histiocytoma, radiation, pazopanib, protein kinase c inhibitor, midostaurin, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Aneurysmal fibrous histiocytoma (AFH) is a rare variant of cutaneous fibrous histiocytoma, with low malignant potential and infrequent metastatic progression. We present the case of a 19-year-old female with a large AFH of the neck metastatic to soft tissue and treated with radiation therapy and molecularly targeted therapy. To our knowledge, this is the first report describing either radiation therapy and palliation or the use of targeted therapy in this uncommon malignancy and can provide insight into future therapeutic strategies.

Published

2021

8. CASZ1 induces skeletal muscle and rhabdomyosarcoma differentiation through a feed-forward loop with MYOD and MYOG

Author

Zhihui Liu, Xiyuan Zhang, Haiyan Lei, Norris Lam, Sakereh Carter, Oliver Yockey, Max Xu, Arnulfo Mendoza, Edjay R. Hernandez, Jun S. Wei, Javed Khan, Marielle E. Yohe, Jack F. Shern, and Carol J. Thiele

Subjects

Science

Abstract

Embryonal rhabdomyosarcoma (ERMS) is a childhood cancer with impaired myogenic differentiation despite the presence of myogenic transcription factors. Here, the authors show that CASZ1 directly regulates these myogenic factors and the loss of CASZ1 is due to RAS-MEK signaling in ERMS.

Published

2020

9. Phase 2 Study of Olaparib in Malignant Mesothelioma and Correlation of Efficacy With Germline or Somatic Mutations in BAP1 Gene

Author

Azam Ghafoor, MD, Idrees Mian, MD, Cathy Wagner, BSN, Yvonne Mallory, BSN, Maria Garcia Agra, BSN, Betsy Morrow, BS, Jun S. Wei, PhD, Javed Khan, MD, Anish Thomas, M.B.B.S., MD, Manjistha Sengupta, PhD, Seth M. Steinberg, PhD, and Raffit Hassan, MD

Subjects

Mesothelioma, PARPI, Olaparib, BAP1, MRE11A, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Introduction: PARP inhibition may enhance antitumor responses in BAP1-associated mesothelioma by inducing synthetic lethality. Methods: A single-center, nonrandomized, phase 2 trial was conducted, in which patients with refractory mesothelioma were given olaparib 300 mg twice daily in a 21-day cycle until disease progression or intolerable toxicity. The primary objective was to determine the objective response rate on the basis of somatic or germline mutation status of DNA repair genes. The secondary objectives were to assess safety and tolerability and to determine progression-free survival (PFS) and overall survival (OS). Whole-exome sequencing was performed on blood and tumor. Results: A total of 23 previously treated patients with pleural and peritoneal mesothelioma were enrolled and treated (germline BAP1, n = 4; germline MRE11A, n = 1; somatic BAP1, n = 8 mutations). There was one (4%) partial response, 18 (78%) with stable disease at 6 weeks, and four (17%) with progressive disease. The median overall PFS and OS were 3.6 months (95% confidence interval [CI]: 2.7–4.2 mo) and 8.7 months (95% CI: 4.7 mo–not estimable), respectively. The median PFS of germline BAP1 mutants (n = 4) was 2.3 months (95% CI: 1.3–3.6 mo) versus 4.1 months (95% CI: 2.7–5.5 mo) for wild-type (n = 19; p = 0.019). The median OS was 4.6 months (95% CI: 3.1–4.9 mo) for germline BAP1 mutation versus 9.6 months (95% CI: 5.5 mo–not estimable) in no germline mutation (p = 0.0040). Olaparib was safe with no new safety concerns. Conclusions: Olaparib has limited activity in previously treated mesothelioma including patients with BAP1 mutations. Germline BAP1 mutations were associated with decreased PFS and OS.

Published

2021

10. Case Report: Single-Cell Transcriptomic Analysis of an Anaplastic Oligodendroglioma Post Immunotherapy

Author

Guangyang Yu, Madison K. Butler, Abdalla Abdelmaksoud, Ying Pang, Yu-Ting Su, Zachary Rae, Kimia Dadkhah, Michael C. Kelly, Young K. Song, Jun S. Wei, Masaki Terabe, Ramya Atony, Kelly Mentges, Brett J. Theeler, Marta Penas-Prado, John Butman, Kevin Camphausen, Kareem A. Zaghloul, Edjah Nduom, Martha Quezado, Kenneth Aldape, Terri S. Armstrong, Mark R. Gilbert, James L. Gulley, Javed Khan, and Jing Wu

Subjects

glioma, immunotherapy, tumor microenvironment, pseudo-progression, single-cell RNA sequencing, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Glioma is the most common primary malignant brain tumor with a poor prognosis. Immune checkpoint inhibitors have been of great interest in investigation of glioma treatments. Here, we report single-cell transcriptomic analyses of two tumor areas from an oligodendroglioma taken from a patient who had multiple tumor recurrences, following several chemotherapies and radiation treatments. The patient subsequently received nivolumab and was considered have disease progression based on conventional diagnostic imaging after two cycles of treatment. He underwent a debulking surgical resection and pathological diagnosis was recurrent disease. During the surgery, tumor tissues were also collected from the enhancing and non-enhancing areas for a scRNAseq analysis to investigate the tumor microenvironment of these radiographically divergent areas. The scRNAseq analysis reveals a plethora of immune cells, suggesting that the increased mass observed on MRI may be partially a result of immune cell infiltration. The patient continued to receive immunotherapy after a short course of palliative radiation and remained free of disease progression for at least 12 months after the last surgery, suggesting a sustained response to immunotherapy. The scRNAseq analysis indicated that the radiological progression was in large part due to immune cell infiltrate and continued immunotherapy led to a positive clinical outcome in a patient who would have otherwise been admitted to hospice care with halting of immunotherapy. Our study demonstrates the potential of scRNAseq analyses in understanding the tumor microenvironment, which may assist the clinical decision-making process for challenging glioma cases following immunotherapy.

Published

2021

11. Miswired Enhancer Logic Drives a Cancer of the Muscle Lineage

Author

Berkley E. Gryder, Marco Wachtel, Kenneth Chang, Osama El Demerdash, Nicholas G. Aboreden, Wardah Mohammed, Winston Ewert, Silvia Pomella, Rossella Rota, Jun S. Wei, Young Song, Benjamin Z. Stanton, Beat Schäfer, Christopher R. Vakoc, and Javed Khan

Subjects

Biological Sciences, Chromosome Organization, Molecular Mechanism of Gene Regulation, Cancer, Science

Abstract

Summary: Core regulatory transcription factors (CR TFs) establish enhancers with logical ordering during embryogenesis and development. Here we report that in fusion-positive rhabdomyosarcoma, a cancer of the muscle lineage, the chief oncogene PAX3-FOXO1 is driven by a translocated FOXO1 super enhancer (SE) restricted to a late stage of myogenesis. Using chromatin conformation capture techniques, we demonstrate that the extensive FOXO1 cis-regulatory domain interacts with PAX3. Furthermore, RNA sequencing and chromatin immunoprecipitation sequencing data in tumors bearing rare PAX translocations implicate enhancer miswiring across all fusion-positive tumors. HiChIP of H3K27ac showed connectivity between the FOXO1 SE, additional intra-domain enhancers, and the PAX3 promoter. We show that PAX3-FOXO1 transcription is diminished when this network of enhancers is ablated by CRISPR. Our data reveal a hijacked enhancer network that disrupts the stepwise CR TF logic of normal skeletal muscle development (PAX3 to MYOD to MYOG), replacing it with an “infinite loop” enhancer logic that locks rhabdomyosarcoma in an undifferentiated stage.

Published

2020

12. Clonal Evolution and Heterogeneity of Osimertinib Acquired Resistance Mechanisms in EGFR Mutant Lung Cancer

Author

Nitin Roper, Anna-Leigh Brown, Jun S. Wei, Svetlana Pack, Christopher Trindade, Chul Kim, Olivia Restifo, Shaojian Gao, Sivasish Sindiri, Farid Mehrabadi, Rajaa El Meskini, Zoe Weaver Ohler, Tapan K. Maity, Abhilash Venugopalan, Constance M. Cultraro, Elizabeth Akoth, Emerson Padiernos, Haobin Chen, Aparna Kesarwala, DeeDee K. Smart, Naris Nilubol, Arun Rajan, Zofia Piotrowska, Liqiang Xi, Mark Raffeld, Anna R. Panchenko, Cenk Sahinalp, Stephen Hewitt, Chuong D. Hoang, Javed Khan, and Udayan Guha

Subjects

EGFR mutant lung cancer, non-small cell lung cancer, osimertinib, MET amplification, copy number ampplifications, neuroendocrine differentiation, Medicine (General), R5-920

Abstract

Summary: Clonal evolution of osimertinib-resistance mechanisms in EGFR mutant lung adenocarcinoma is poorly understood. Using multi-region whole-exome and RNA sequencing of prospectively collected pre- and post-osimertinib-resistant tumors, including at rapid autopsies, we identify a likely mechanism driving osimertinib resistance in all patients analyzed. The majority of patients acquire two or more resistance mechanisms either concurrently or in temporal sequence. Focal copy-number amplifications occur subclonally and are spatially and temporally separated from common resistance mutations such as EGFR C797S. MET amplification occurs in 66% (n = 6/9) of first-line osimertinib-treated patients, albeit spatially heterogeneous, often co-occurs with additional acquired focal copy-number amplifications and is associated with early progression. Noteworthy osimertinib-resistance mechanisms discovered include neuroendocrine differentiation without histologic transformation, PD-L1, KRAS amplification, and ESR1-AKAP12, MKRN1-BRAF fusions. The subclonal co-occurrence of acquired genomic alterations upon osimertinib resistance will likely require targeting multiple resistance mechanisms by combination therapies.

Published

2020

13. Paired Expression Analysis of Tumor Cell Surface Antigens

Author

Rimas J. Orentas, Sivasish Sindiri, Christine Duris, Xinyu Wen, Jianbin He, Jun S. Wei, Jason Jarzembowski, and Javed Khan

Subjects

neuroblastoma, gene expression profiling, chimeric antigen receptor-T cells, immunotherapy, GFRA3, GFRA2, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Adoptive immunotherapy with antibody-based therapy or with T cells transduced to express chimeric antigen receptors (CARs) is useful to the extent that the cell surface membrane protein being targeted is not expressed on normal tissues. The most successful CAR-based (anti-CD19) or antibody-based therapy (anti-CD20) in hematologic malignancies has the side effect of eliminating the normal B cell compartment. Targeting solid tumors may not provide a similar expendable marker. Beyond antibody to Her2/NEU and EGFR, very few antibody-based and no CAR-based therapies have seen broad clinical application for solid tumors. To expand the way in which the surfaceome of solid tumors can be analyzed, we created an algorithm that defines the pairwise relative overexpression of surface antigens. This enables the development of specific immunotherapies that require the expression of two discrete antigens on the surface of the tumor target. This dyad analysis was facilitated by employing the Hotelling’s T-squared test (Hotelling–Lawley multivariate analysis of variance) for two independent variables in comparison to a third constant entity (i.e., gene expression levels in normal tissues). We also present a unique consensus scoring mechanism for identifying transcripts that encode cell surface proteins. The unique application of our bioinformatics processing pipeline and statistical tools allowed us to compare the expression of two membrane protein targets as a pair, and to propose a new strategy based on implementing immunotherapies that require both antigens to be expressed on the tumor cell surface to trigger therapeutic effector mechanisms. Specifically, we found that, for MYCN amplified neuroblastoma, pairwise expression of ACVR2B or anaplastic lymphoma kinase (ALK) with GFRA3, GFRA2, Cadherin 24, or with one another provided the strongest hits. For MYCN, non-amplified stage 4 neuroblastoma, neurotrophic tyrosine kinase 1, or ALK paired with GFRA2, GFRA3, SSK1, GPR173, or with one another provided the most promising paired-hits. We propose that targeting these markers together would increase the specificity and thereby the safety of CAR-based therapy for neuroblastoma.

Published

2017

14. Expression Quantitative Trait Loci and Receptor Pharmacology Implicate Arg1 and the GABA-A Receptor as Therapeutic Targets in Neuroblastoma

Author

Christopher S. Hackett, David A. Quigley, Robyn A. Wong, Justin Chen, Christine Cheng, Young K. Song, Jun S. Wei, Ludmila Pawlikowska, Yun Bao, David D. Goldenberg, Kim Nguyen, W. Clay Gustafson, Sundari K. Rallapalli, Yoon-Jae Cho, James M. Cook, Serguei Kozlov, Jian-Hua Mao, Terry Van Dyke, Pui-Yan Kwok, Javed Khan, Allan Balmain, QiWen Fan, and William A. Weiss

Subjects

Biology (General), QH301-705.5

Abstract

The development of targeted therapeutics for neuroblastoma, the third most common tumor in children, has been limited by a poor understanding of growth signaling mechanisms unique to the peripheral nerve precursors from which tumors arise. In this study, we combined genetics with gene-expression analysis in the peripheral sympathetic nervous system to implicate arginase 1 and GABA signaling in tumor formation in vivo. In human neuroblastoma cells, either blockade of ARG1 or benzodiazepine-mediated activation of GABA-A receptors induced apoptosis and inhibited mitogenic signaling through AKT and MAPK. These results suggest that ARG1 and GABA influence both neural development and neuroblastoma and that benzodiazepines in clinical use may have potential applications for neuroblastoma therapy.

Published

2014

15. The Ezrin Metastatic Phenotype Is Associated with the Initiation of Protein Translation

Author

Joseph W. Briggs, Ling Ren, Rachel Nguyen, Kristi Chakrabarti, Jessica Cassavaugh, Said Rahim, Gulay Bulut, Ming Zhou, Timothy D. Veenstra, Qingrong Chen, Jun S. Wei, Javed Khan, Aykut Uren, and Chand Khanna

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

We previously associated the cytoskeleton linker protein, Ezrin, with the metastatic phenotype of pediatric sarcomas, including osteosarcoma and rhabdomyosarcoma. These studies have suggested that Ezrin contributes to the survival of cancer cells after their arrival at secondary metastatic locations. To better understand this role in metastasis, we undertook two noncandidate analyses of Ezrin function including a microarray subtraction of high-and low-Ezrin-expressing cells and a proteomic approach to identify proteins that bound the N-terminus of Ezrin in tumor lysates. Functional analyses of these data led to a novel and unifying hypothesis that Ezrin contributes to the efficiency of metastasis through regulation of protein translation. In support of this hypothesis, we found Ezrin to be part of the ribonucleoprotein complex to facilitate the expression of complex messenger RNA in cells and to bind with poly A binding protein 1 (PABP1; PABPC1). The relevance of these findings was supported by our identification of Ezrin and components of the translational machinery in pseudopodia of highly metastatic cells during the process of cell invasion. Finally, two small molecule inhibitors recently shown to inhibit the Ezrin metastatic phenotype disrupted the Ezrin/PABP1 association. Taken together, these results provide a novel mechanistic basis by which Ezrin may contribute to metastasis.

Published

2012

16. Identification of cell surface proteins as potential immunotherapy targets in twelve pediatric cancers

Author

Rimas J Orentas, James J Yang, Xinyu eWen, Jun S. Wei, Crystal L Mackall, and Javed eKhan

Subjects

Gene Expression Profiling, Glioblastoma, Hepatoblastoma, Neuroblastoma, Osteosarcoma, Rhabdomyosarcoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Technological advances now allow us to rapidly produce CARs and other antibody-derived therapeutics targeting cell surface receptors. To maximize the potential of these new technologies, relevant extracellular targets must be identified. The Pediatric Oncology Branch of the NCI curates a freely accessible database of gene expression data for both pediatric cancers and normal tissues, through which we have defined discrete sets of over-expressed transcripts in twelve pediatric cancer subtypes as compared to normal tissues. We coupled gene expression profiles to current annotation databases (i.e., Affymetrix, Gene Ontology, Entrez Gene), in order to categorize transcripts by their subcellular location. In this manner we generated a list of potential immune targets expressed on the cell surface, ranked by their difference from normal tissue. Global differences from normal between each of the pediatric tumor types studied varied, indicating that some malignancies expressed transcript sets that were more highly diverged from normal tissues than others. The validity of our approach is seen by our findings for pre-B cell ALL, where targets currently in clinical trials were top-ranked hits (CD19, CD22). For some cancers, reagents already in development could potentially be applied to a new disease class, as exemplified by CD30 expression on sarcomas. Moreover, several potential new targets shared among several pediatric solid tumors are herein identified, such as MCAM (MUC18), MTDH (metadherin), and GPC2 (glypican-2). These targets have been identified at the mRNA level and are yet to be validated at the protein level. The safety of targeting these antigens has yet to be demonstrated and therefore the identified transcripts should be considered preliminary candidates for new CAR and therapeutic antibody targets. Prospective candidate targets will be evaluated by proteomic analysis including Westerns and immunohistochemistry of normal and tumor tissues.

Published

2012

17. Supplementary Figure S7 from Comprehensive Genomic Analysis of Rhabdomyosarcoma Reveals a Landscape of Alterations Affecting a Common Genetic Axis in Fusion-Positive and Fusion-Negative Tumors

Author

Javed Khan, Douglas S. Hawkins, Matthew Meyerson, Frederic G. Barr, Stephen X. Skapek, James R. Anderson, Jaume Mora, Gad Getz, Thomas Badgett, Daniel Catchpoole, Sivasish Sindiri, Andrew S. Brohl, Dominik Bogen, Shile Zhang, Hongling Liao, Laura Hurd, Catherine Tolman, Young K. Song, Jianjun Wang, Daniel Auclair, Lauren Ambrogio, Mara Rosenberg, Rajesh Patidar, Jun S. Wei, Juliann Chmielecki, Li Chen, and Jack F. Shern

Abstract

PDF file 186K, Loss of heterozygosity on Chromosome 11p15.5

Published

2023

18. Supplementary Legends from Comprehensive Genomic Analysis of Rhabdomyosarcoma Reveals a Landscape of Alterations Affecting a Common Genetic Axis in Fusion-Positive and Fusion-Negative Tumors

Author

Javed Khan, Douglas S. Hawkins, Matthew Meyerson, Frederic G. Barr, Stephen X. Skapek, James R. Anderson, Jaume Mora, Gad Getz, Thomas Badgett, Daniel Catchpoole, Sivasish Sindiri, Andrew S. Brohl, Dominik Bogen, Shile Zhang, Hongling Liao, Laura Hurd, Catherine Tolman, Young K. Song, Jianjun Wang, Daniel Auclair, Lauren Ambrogio, Mara Rosenberg, Rajesh Patidar, Jun S. Wei, Juliann Chmielecki, Li Chen, and Jack F. Shern

Abstract

PDF file 92K, Supplementary Legends

Published

2023

19. Table S3 from Cross-Cohort Analysis Identifies a TEAD4–MYCN Positive Feedback Loop as the Core Regulatory Element of High-Risk Neuroblastoma

Author

Andrea Califano, John M. Maris, Jose M. Silva, Anna Lasorella, Antonio Iavarone, Richard A. Young, A. Thomas Look, Rogier Versteeg, Pieter Mestdagh, Jo Vandesompele, Javed Khan, Jun S. Wei, Robert C. Seeger, Shahab Asgharzadeh, Jan Koster, Katleen De Preter, Derek Oldridge, Jo Lynne Harenza, Archana Iyer, Mariano J. Alvarez, Brian J. Abraham, Nina Weichert-Leahey, Mark Yarmarkovich, Daniel Martinez, Ruth Rodriguez-Barrueco, Jiyang Yu, Beatrice Salvatori, Claudia Capdevila, Gonzalo Lopez, and Presha Rajbhandari

Abstract

ARACNe-AP transcriptional network from gene expression profiles

Published

2023

20. Data from Cross-Cohort Analysis Identifies a TEAD4–MYCN Positive Feedback Loop as the Core Regulatory Element of High-Risk Neuroblastoma

Author

Andrea Califano, John M. Maris, Jose M. Silva, Anna Lasorella, Antonio Iavarone, Richard A. Young, A. Thomas Look, Rogier Versteeg, Pieter Mestdagh, Jo Vandesompele, Javed Khan, Jun S. Wei, Robert C. Seeger, Shahab Asgharzadeh, Jan Koster, Katleen De Preter, Derek Oldridge, Jo Lynne Harenza, Archana Iyer, Mariano J. Alvarez, Brian J. Abraham, Nina Weichert-Leahey, Mark Yarmarkovich, Daniel Martinez, Ruth Rodriguez-Barrueco, Jiyang Yu, Beatrice Salvatori, Claudia Capdevila, Gonzalo Lopez, and Presha Rajbhandari

Abstract

High-risk neuroblastomas show a paucity of recurrent somatic mutations at diagnosis. As a result, the molecular basis for this aggressive phenotype remains elusive. Recent progress in regulatory network analysis helped us elucidate disease-driving mechanisms downstream of genomic alterations, including recurrent chromosomal alterations. Our analysis identified three molecular subtypes of high-risk neuroblastomas, consistent with chromosomal alterations, and identified subtype-specific master regulator proteins that were conserved across independent cohorts. A 10-protein transcriptional module—centered around a TEAD4–MYCN positive feedback loop—emerged as the regulatory driver of the high-risk subtype associated with MYCN amplification. Silencing of either gene collapsed MYCN-amplified (MYCNAmp) neuroblastoma transcriptional hallmarks and abrogated viability in vitro and in vivo. Consistently, TEAD4 emerged as a robust prognostic marker of poor survival, with activity independent of the canonical Hippo pathway transcriptional coactivators YAP and TAZ. These results suggest novel therapeutic strategies for the large subset of MYCN-deregulated neuroblastomas.Significance: Despite progress in understanding of neuroblastoma genetics, little progress has been made toward personalized treatment. Here, we present a framework to determine the downstream effectors of the genetic alterations sustaining neuroblastoma subtypes, which can be easily extended to other tumor types. We show the critical effect of disrupting a 10-protein module centered around a YAP/TAZ-independent TEAD4–MYCN positive feedback loop in MYCNAmp neuroblastomas, nominating TEAD4 as a novel candidate for therapeutic intervention. Cancer Discov; 8(5); 582–99. ©2018 AACR.This article is highlighted in the In This Issue feature, p. 517

Published

2023

21. Supplemental Methods and Legends from PAX3–FOXO1 Establishes Myogenic Super Enhancers and Confers BET Bromodomain Vulnerability

Author

Javed Khan, Craig J. Thomas, Keji Zhao, Jack F. Shern, Marc Ferrer, Madhu Lal-Nag, Rajarshi Guha, Thorkell Andresson, Sudipto Das, Frederic G. Barr, Jun S. Wei, Sivasish Sindiri, Xinyu Wen, Abigail Cleveland, Rossella Rota, Silvia Pomella, Alberto Gualtieri, Young Song, Nirmalya Sen, Beat Schaefer, Marco Wachtel, Joana Marques, Xiaohu Zhang, Hsien-Chao Chou, Marielle E. Yohe, and Berkley E. Gryder

Abstract

Supplemental Methods and Legends

Published

2023

22. Supplementary Tables S1-S10 from Comprehensive Genomic Analysis of Rhabdomyosarcoma Reveals a Landscape of Alterations Affecting a Common Genetic Axis in Fusion-Positive and Fusion-Negative Tumors

Author

Javed Khan, Douglas S. Hawkins, Matthew Meyerson, Frederic G. Barr, Stephen X. Skapek, James R. Anderson, Jaume Mora, Gad Getz, Thomas Badgett, Daniel Catchpoole, Sivasish Sindiri, Andrew S. Brohl, Dominik Bogen, Shile Zhang, Hongling Liao, Laura Hurd, Catherine Tolman, Young K. Song, Jianjun Wang, Daniel Auclair, Lauren Ambrogio, Mara Rosenberg, Rajesh Patidar, Jun S. Wei, Juliann Chmielecki, Li Chen, and Jack F. Shern

Abstract

XLSX file 2844K, Supplementary Tables S1-S10

Published

2023

23. Supplementary Data from Cross-Cohort Analysis Identifies a TEAD4–MYCN Positive Feedback Loop as the Core Regulatory Element of High-Risk Neuroblastoma

Author

Andrea Califano, John M. Maris, Jose M. Silva, Anna Lasorella, Antonio Iavarone, Richard A. Young, A. Thomas Look, Rogier Versteeg, Pieter Mestdagh, Jo Vandesompele, Javed Khan, Jun S. Wei, Robert C. Seeger, Shahab Asgharzadeh, Jan Koster, Katleen De Preter, Derek Oldridge, Jo Lynne Harenza, Archana Iyer, Mariano J. Alvarez, Brian J. Abraham, Nina Weichert-Leahey, Mark Yarmarkovich, Daniel Martinez, Ruth Rodriguez-Barrueco, Jiyang Yu, Beatrice Salvatori, Claudia Capdevila, Gonzalo Lopez, and Presha Rajbhandari

Abstract

Supplementary Experimental Procedures; Supplementary Figures S1-S10; Supplementary Table Legends S1-S9; Supplementary Tables S8-S9; Additional References

Published

2023

24. Supplemental Tables from PAX3–FOXO1 Establishes Myogenic Super Enhancers and Confers BET Bromodomain Vulnerability

Author

Javed Khan, Craig J. Thomas, Keji Zhao, Jack F. Shern, Marc Ferrer, Madhu Lal-Nag, Rajarshi Guha, Thorkell Andresson, Sudipto Das, Frederic G. Barr, Jun S. Wei, Sivasish Sindiri, Xinyu Wen, Abigail Cleveland, Rossella Rota, Silvia Pomella, Alberto Gualtieri, Young Song, Nirmalya Sen, Beat Schaefer, Marco Wachtel, Joana Marques, Xiaohu Zhang, Hsien-Chao Chou, Marielle E. Yohe, and Berkley E. Gryder

Abstract

Supplemental Tables

Published

2023

25. Supplemental Figures 1 through 10 from PAX3–FOXO1 Establishes Myogenic Super Enhancers and Confers BET Bromodomain Vulnerability

Author

Javed Khan, Craig J. Thomas, Keji Zhao, Jack F. Shern, Marc Ferrer, Madhu Lal-Nag, Rajarshi Guha, Thorkell Andresson, Sudipto Das, Frederic G. Barr, Jun S. Wei, Sivasish Sindiri, Xinyu Wen, Abigail Cleveland, Rossella Rota, Silvia Pomella, Alberto Gualtieri, Young Song, Nirmalya Sen, Beat Schaefer, Marco Wachtel, Joana Marques, Xiaohu Zhang, Hsien-Chao Chou, Marielle E. Yohe, and Berkley E. Gryder

Abstract

Supplemental Figure 1. PAX3 Fusion in enhancer chromatin states. Supplemental Figure 2. Integration of Topological Domain Boundaries and RNA Expression Datasets Enable Discovery of Novel PAX3-FOXO1 Target Genes. Supplemental Figure 3. MYC and MYCN Expression, Enhancers and Super Enhancers in RMS Cell Lines and Primary Tumors, compared to Normal Skeletal Muscle and Myogenic Samples. Supplemental Figure 4. Genome-wide binding of PAX3-FOXO1, MYOD, MYOG and MYCN and their Functional Interdependence. Supplemental Figure 5. BRD4 at PAX3-FOXO1 Enhancers Predicts Presence of Looping Machinery and Increased Gene Expression. Supplemental Figure 6. Molecular Sensitivity Landscape of PAX3-FOXO1 RMS cells. Supplemental Figure 7. JQ1 potency across RMS cell lines and xenograft cultures. Supplemental Figure 8. Depletion of BET bromodomains in FP-RMS. Supplemental Figure 9. Impact of JQ1 on PAX3-FOXO1 target genes and PAX3-FOXO1 stability. Supplemental Figure 10. Validation of PAX3-FOXO1 Driven ALK SE Luciferase Contruct and In Vivo Efficacy of JQ1.

Published

2023

26. Data from Predicting Molecular Subtype and Survival of Rhabdomyosarcoma Patients Using Deep Learning of H&E Images: A Report from the Children's Oncology Group

Author

Javed Khan, Jack Collins, Jack F. Shern, Douglas S. Hawkins, Igor B. Kuznetsov, George Zaki, Seth M. Steinberg, Peter K. Bode, Rajkumar Venkatramani, Stephen X. Skapek, Hsien-Chao Chou, Jun S. Wei, Corinne M. Linardic, David Hall, Tammy Lo, Donald A. Barkauskas, Hyoyoung Choo-Wosoba, Erin R. Rudzinski, Marc Ladanyi, Curtis Lisle, Ben Somerville, Yanling Liu, G. Thomas Brown, Hyun Jung, and David Milewski

Abstract

Purpose:Rhabdomyosarcoma (RMS) is an aggressive soft-tissue sarcoma, which primarily occurs in children and young adults. We previously reported specific genomic alterations in RMS, which strongly correlated with survival; however, predicting these mutations or high-risk disease at diagnosis remains a significant challenge. In this study, we utilized convolutional neural networks (CNN) to learn histologic features associated with driver mutations and outcome using hematoxylin and eosin (H&E) images of RMS.Experimental Design:Digital whole slide H&E images were collected from clinically annotated diagnostic tumor samples from 321 patients with RMS enrolled in Children's Oncology Group (COG) trials (1998–2017). Patches were extracted and fed into deep learning CNNs to learn features associated with mutations and relative event-free survival risk. The performance of the trained models was evaluated against independent test sample data (n = 136) or holdout test data.Results:The trained CNN could accurately classify alveolar RMS, a high-risk subtype associated with PAX3/7-FOXO1 fusion genes, with an ROC of 0.85 on an independent test dataset. CNN models trained on mutationally-annotated samples identified tumors with RAS pathway with a ROC of 0.67, and high-risk mutations in MYOD1 or TP53 with a ROC of 0.97 and 0.63, respectively. Remarkably, CNN models were superior in predicting event-free and overall survival compared with current molecular-clinical risk stratification.Conclusions:This study demonstrates that high-risk features, including those associated with certain mutations, can be readily identified at diagnosis using deep learning. CNNs are a powerful tool for diagnostic and prognostic prediction of rhabdomyosarcoma, which will be tested in prospective COG clinical trials.

Published

2023

27. Figure S2 from Predicting Molecular Subtype and Survival of Rhabdomyosarcoma Patients Using Deep Learning of H&E Images: A Report from the Children's Oncology Group

Author

Javed Khan, Jack Collins, Jack F. Shern, Douglas S. Hawkins, Igor B. Kuznetsov, George Zaki, Seth M. Steinberg, Peter K. Bode, Rajkumar Venkatramani, Stephen X. Skapek, Hsien-Chao Chou, Jun S. Wei, Corinne M. Linardic, David Hall, Tammy Lo, Donald A. Barkauskas, Hyoyoung Choo-Wosoba, Erin R. Rudzinski, Marc Ladanyi, Curtis Lisle, Ben Somerville, Yanling Liu, G. Thomas Brown, Hyun Jung, and David Milewski

Abstract

Supplemental Figure S2. Sample partitioning for training and testing a TP53 mutation predictive model using K-fold cross-validation.

Published

2023

28. supplementary table legend1 from Predicting Molecular Subtype and Survival of Rhabdomyosarcoma Patients Using Deep Learning of H&E Images: A Report from the Children's Oncology Group

Author

Javed Khan, Jack Collins, Jack F. Shern, Douglas S. Hawkins, Igor B. Kuznetsov, George Zaki, Seth M. Steinberg, Peter K. Bode, Rajkumar Venkatramani, Stephen X. Skapek, Hsien-Chao Chou, Jun S. Wei, Corinne M. Linardic, David Hall, Tammy Lo, Donald A. Barkauskas, Hyoyoung Choo-Wosoba, Erin R. Rudzinski, Marc Ladanyi, Curtis Lisle, Ben Somerville, Yanling Liu, G. Thomas Brown, Hyun Jung, and David Milewski

Abstract

supplementary table legend

Published

2023

29. Supplementary_Methods1 from Predicting Molecular Subtype and Survival of Rhabdomyosarcoma Patients Using Deep Learning of H&E Images: A Report from the Children's Oncology Group

Author

Javed Khan, Jack Collins, Jack F. Shern, Douglas S. Hawkins, Igor B. Kuznetsov, George Zaki, Seth M. Steinberg, Peter K. Bode, Rajkumar Venkatramani, Stephen X. Skapek, Hsien-Chao Chou, Jun S. Wei, Corinne M. Linardic, David Hall, Tammy Lo, Donald A. Barkauskas, Hyoyoung Choo-Wosoba, Erin R. Rudzinski, Marc Ladanyi, Curtis Lisle, Ben Somerville, Yanling Liu, G. Thomas Brown, Hyun Jung, and David Milewski

Abstract

Supplemental Description of the Rhabdomyosarcoma Web-based Application

Published

2023

30. Supplementary Table S1-S3 from Predicting Molecular Subtype and Survival of Rhabdomyosarcoma Patients Using Deep Learning of H&E Images: A Report from the Children's Oncology Group

Author

Javed Khan, Jack Collins, Jack F. Shern, Douglas S. Hawkins, Igor B. Kuznetsov, George Zaki, Seth M. Steinberg, Peter K. Bode, Rajkumar Venkatramani, Stephen X. Skapek, Hsien-Chao Chou, Jun S. Wei, Corinne M. Linardic, David Hall, Tammy Lo, Donald A. Barkauskas, Hyoyoung Choo-Wosoba, Erin R. Rudzinski, Marc Ladanyi, Curtis Lisle, Ben Somerville, Yanling Liu, G. Thomas Brown, Hyun Jung, and David Milewski

Abstract

Supplemental Table S1. Whole slide image tissue segmentation statistics by an expert pathologist and probability prediction using a trained convolutional neural network. Supplemental Table S2. Clinical and molecular characteristics of FN-RMS samples used for training models for mutation prediction. Yellow boxes indicate genes included in defining the RAS pathway. Supplemental Table S3. Clinical information with COG risk stratification of FN-RMS samples used for training a prognostication predictive CNN.

Published

2023

31. Supplementary Figure 3 from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Using transcriptome data for expression profiling of tumors. Heatmap of transcriptome data allowing for expression profiling and clustering of diagnoses based on the 2000 most highly differentially expressed genes in comparison to the other cohort samples to validate tumor diagnosis. The diagnostic abbreviations are the same as in Figure 1 with the addition of EWLS for Ewing-like sarcoma.

Published

2023

32. Supplemental Figure SF-11 from Outcome-Related Signatures Identified by Whole Transcriptome Sequencing of Resectable Stage III/IV Melanoma Evaluated after Starting Hu14.18-IL2

Author

Paul M. Sondel, Javed Khan, Mark R. Albertini, KyungMann Kim, Renae Quale, Zachary S. Morris, Amy K. Erbe, Cindy Zuleger, Jacquelyn A. Hank, Viharkumar Patel, Young K. Song, Vineela Gangalapudi, Berkley E. Gryder, Sivasish Sindiri, Jun S. Wei, Erik A. Ranheim, Igor B. Kuznetsov, and Richard K. Yang

Abstract

Expression of Many Interleukins (IL) Prognosticates Favorable Survival in Group A and Group B

Published

2023

33. Supplementary Method from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Supplementary Method

Published

2023

34. Supplementary Figure 4 from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Imaging from two clinical vignettes highlighting the importance of sequencing at diagnosis and relapse. A. An epithelioid inflammatory myofibroblastic sarcoma (Patient NCI0244) positive for a RANBP2-ALK fusion leading to activation of ALK was treated with targeted monotherapy. PET scans are shown in the top row. At initial diagnosis, abdominal tumors were located in the left upper quadrant with extensive FDG-avid peritoneal lesions. Clinical response after 8 months of targeted therapy with crizotinib was noted. First relapse with development of a recurrent nodule noted in between the right kidney and duodenum with pulmonary and hepatic metastases was observed after 14 months of crizotinib therapy. A secondary clinical response after treatment with ceritinib was obtained after 1 month of therapy, but was not maintained. The primary tumor sample derived cell line, labeled Tumor.1, did not contain an ALK I1171T mutation. Sanger validation confirmed the presence of an ALK p.I1171T mutation after targeted therapy with crizotinib and ceritinib. The patient's tumor samples all contained a RANBP2-ALK fusion, which was not present in the germline. B. A GNAQ Q209L mutation-positive melanoma (Patient NCI0155), treated with trametinib. The melanoma originated from the left frontotemporal scalp and left orbit, and was metastatic to regional lymph nodes, dura mater, liver, bone and lung as shown on CT (first column, first row) with PET avidity in metastases (first column, second row). WES and WTS of her tumor revealed a GNAQ Q209L mutation. The patient was treated with trametinib and had an initial mixed response, with loss of PET avidity of several liver metastases (second column, second row). However, progressive disease of the primary tumor was noted 5 months after initiating therapy, and PET/CT scans showed increased size of the primary tumor in the scalp (third column, first row)

Published

2023

35. Supplemental Figure SF-05 from Outcome-Related Signatures Identified by Whole Transcriptome Sequencing of Resectable Stage III/IV Melanoma Evaluated after Starting Hu14.18-IL2

Author

Paul M. Sondel, Javed Khan, Mark R. Albertini, KyungMann Kim, Renae Quale, Zachary S. Morris, Amy K. Erbe, Cindy Zuleger, Jacquelyn A. Hank, Viharkumar Patel, Young K. Song, Vineela Gangalapudi, Berkley E. Gryder, Sivasish Sindiri, Jun S. Wei, Erik A. Ranheim, Igor B. Kuznetsov, and Richard K. Yang

Abstract

The Majority of Immunologic Gene Signatures Significantly Predict RFS and OS in Group A, but not in Group B.

Published

2023

36. Figure S6 from Genomic and Transcriptomic Analysis of Relapsed and Refractory Childhood Solid Tumors Reveals a Diverse Molecular Landscape and Mechanisms of Immune Evasion

Author

Jeffrey M. Trent, Giselle L. Saulnier Sholler, Javed Khan, Rebecca F. Halperin, Jonathan J. Keats, Szabolcs Szelinger, Bryce Turner, Austin Christofferson, Faith Cisneros, Apurva M. Hegde, Daniel Enriquez, Tyler Izatt, Sara Nasser, Alison Roos, Hue V. Reardon, Xinyu Wen, Jun S. Wei, Hsien-Chao Chou, Jeffrey Bond, Karl Dykema, Elizabeth VanSickle, Genevieve Bergendahl, Virginia L. Harrod, Peter E. Zage, Kathleen Neville, Jawhar Rawwas, Randal K. Wada, Javier E. Oesterheld, Michael S. Isakoff, William Roberts, Albert Cornelius, Deanna Mitchell, Don E. Eslin, Valerie I. Brown, William S. Ferguson, Jacqueline M. Kraveka, Abhinav B. Nagulapally, William P.D. Hendricks, and Sara A. Byron

Abstract

Additional Longitudinal Analysis of Relapsed and Refractory Childhood Solid Tumors.

Published

2023

37. Supplemental Tables S1-S12 from Genomic and Transcriptomic Analysis of Relapsed and Refractory Childhood Solid Tumors Reveals a Diverse Molecular Landscape and Mechanisms of Immune Evasion

Author

Jeffrey M. Trent, Giselle L. Saulnier Sholler, Javed Khan, Rebecca F. Halperin, Jonathan J. Keats, Szabolcs Szelinger, Bryce Turner, Austin Christofferson, Faith Cisneros, Apurva M. Hegde, Daniel Enriquez, Tyler Izatt, Sara Nasser, Alison Roos, Hue V. Reardon, Xinyu Wen, Jun S. Wei, Hsien-Chao Chou, Jeffrey Bond, Karl Dykema, Elizabeth VanSickle, Genevieve Bergendahl, Virginia L. Harrod, Peter E. Zage, Kathleen Neville, Jawhar Rawwas, Randal K. Wada, Javier E. Oesterheld, Michael S. Isakoff, William Roberts, Albert Cornelius, Deanna Mitchell, Don E. Eslin, Valerie I. Brown, William S. Ferguson, Jacqueline M. Kraveka, Abhinav B. Nagulapally, William P.D. Hendricks, and Sara A. Byron

Abstract

Table S1. Extended Cohort Annotations. Table S2. Mutational Signatures. Table S3. GISTIC Copy Number Analysis. Table S4. Somatic Variants in Relapsed/Refractory Childhood Solid Tumors (n=184 Patients with T/N WES). Table S5. Clinvar Pathogenic and Likely Pathogenic Germline Variants in Relapsed/Refractory Childhood Solid Tumors(n=184 Patients with T/N WES). Table S6. Gene Lists. Table S7. Log2(TPM+1) Values for the 2,199 Most Variable Genes Expressed Across the Cohort of Relapsed/Refractory Childhood Solid Tumors with RNA-seq (n=245). Table S8. Differential Expression Analysis of 2,199 Most Variable Genes Among Clusters. Table S9. Genes Filtered for COSMIC, Transcription Factors and Potential Drug Targets from Table S8 with log2FC greater than or equal to 2. Table S10. Differential Expression Analysis Among C3a, C3b, and C3c Subclusters. Table S11. Samples Falling in Clusters C3a-C3c and Genes that are Uniformly Highly Expressed in the Clusters. Table S12. Longitudinal Samples.

Published

2023

38. Data from High Skp2 Expression Characterizes High-Risk Neuroblastomas Independent of MYCN Status

Author

Manfred Schwab, Javed Khan, Axel Benner, Ivo Leuschner, Karen Ernestus, Benedikt Brors, Volker Ehemann, Ruprecht Wiedemeyer, Rainer König, Matthias Fischer, Werner Lutz, Jun S. Wei, Kai-Oliver Henrich, and Frank Westermann

Abstract

Purpose: Amplified MYCN oncogene defines a subgroup of neuroblastomas with poor outcome. However, a substantial number of MYCN single-copy neuroblastomas exhibits an aggressive phenotype similar to that of MYCN-amplified neuroblastomas even in the absence of high MYCN mRNA and/or protein levels.Experimental Design: To identify shared molecular mechanisms that mediate the aggressive phenotype in MYCN-amplified and single-copy high-risk neuroblastomas, we defined genetic programs evoked by ectopically expressed MYCN in vitro and analyzed them in high-risk versus low-risk neuroblastoma tumors (n = 49) using cDNA microarrays. Candidate gene expression was validated in a separate cohort of 117 patients using quantitative PCR, and protein expression was analyzed in neuroblastoma tumors by immunoblotting and immunohistochemistry.Results: We identified a genetic signature characterized by a subset of MYCN/MYC and E2F targets, including Skp2, encoding the F-box protein of the SCFSkp2 E3-ligase, to be highly expressed in high-risk neuroblastomas independent of amplified MYCN. We validated the findings for Skp2 and analyzed its expression in relation to MYCN and E2F-1 expression in a separate cohort (n = 117) using quantitative PCR. High Skp2 expression proved to be a highly significant marker of dire prognosis independent of both MYCN status and disease stage, on the basis of multivariate analysis of event-free survival (hazard ratio, 3.54; 95% confidence interval, 1.56-8.00; P = 0.002). Skp2 protein expression was inversely correlated with expression of p27, the primary target of the SCFSkp2 E3-ligase, in neuroblastoma tumors.Conclusion: Skp2 may have a key role in the progression of neuroblastomas and should make an attractive target for therapeutic approaches.

Published

2023

39. All Supplemental Tables from Outcome-Related Signatures Identified by Whole Transcriptome Sequencing of Resectable Stage III/IV Melanoma Evaluated after Starting Hu14.18-IL2

Author

Paul M. Sondel, Javed Khan, Mark R. Albertini, KyungMann Kim, Renae Quale, Zachary S. Morris, Amy K. Erbe, Cindy Zuleger, Jacquelyn A. Hank, Viharkumar Patel, Young K. Song, Vineela Gangalapudi, Berkley E. Gryder, Sivasish Sindiri, Jun S. Wei, Erik A. Ranheim, Igor B. Kuznetsov, and Richard K. Yang

Abstract

Supplemental Tables ST1 to ST14

Published

2023

40. Supplementary Table S4 from Clinically Relevant Cytotoxic Immune Cell Signatures and Clonal Expansion of T-Cell Receptors in High-Risk MYCN-Not-Amplified Human Neuroblastoma

Author

Javed Khan, John M. Maris, Robert Seeger, Paul M. Sondel, Stephen M. Hewitt, Daniel Catchpoole, Aysen Yuksel, Daniela S. Gerhard, Jaime M. Guidry Auvil, Ashley Walton, Sushma Najaraj, Rajesh Patidar, Xinyu Wen, Sivasish Sindiri, Shahab Asgharzadeh, Young K. Song, Shile Zhang, Igor B. Kuznetsov, and Jun S. Wei

Abstract

Supplementary Table S4

Published

2023

41. Supplementary Figure 1 from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Flowcharts of filtering criteria. A. Flowchart of filtering criteria for germline variants, B. Flowchart of filtering criteria for somatic variants

Published

2023

42. Data from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Purpose: We undertook a multidimensional clinical genomics study of children and adolescent young adults with relapsed and refractory cancers to determine the feasibility of genome-guided precision therapy.Experimental Design: Patients with non-central nervous system solid tumors underwent a combination of whole exome sequencing (WES), whole transcriptome sequencing (WTS), and high-density single-nucleotide polymorphism array analysis of the tumor, with WES of matched germline DNA. Clinically actionable alterations were identified as a reportable germline mutation, a diagnosis change, or a somatic event (including a single nucleotide variant, an indel, an amplification, a deletion, or a fusion gene), which could be targeted with drugs in existing clinical trials or with FDA-approved drugs.Results: Fifty-nine patients in 20 diagnostic categories were enrolled from 2010 to 2014. Ages ranged from 7 months to 25 years old. Seventy-three percent of the patients had prior chemotherapy, and the tumors from these patients with relapsed or refractory cancers had a higher mutational burden than that reported in the literature. Thirty patients (51% of total) had clinically actionable mutations, of which 24 (41%) had a mutation that was currently targetable in a clinical trial setting, 4 patients (7%) had a change in diagnosis, and 7 patients (12%) had a reportable germline mutation.Conclusions: We found a remarkably high number of clinically actionable mutations in 51% of the patients, and 12% with significant germline mutations. We demonstrated the clinical feasibility of next-generation sequencing in a diverse population of relapsed and refractory pediatric solid tumors. Clin Cancer Res; 22(15); 3810–20. ©2016 AACR.

Published

2023

43. Supplemental Methods and Figure Legends from Outcome-Related Signatures Identified by Whole Transcriptome Sequencing of Resectable Stage III/IV Melanoma Evaluated after Starting Hu14.18-IL2

Author

Paul M. Sondel, Javed Khan, Mark R. Albertini, KyungMann Kim, Renae Quale, Zachary S. Morris, Amy K. Erbe, Cindy Zuleger, Jacquelyn A. Hank, Viharkumar Patel, Young K. Song, Vineela Gangalapudi, Berkley E. Gryder, Sivasish Sindiri, Jun S. Wei, Erik A. Ranheim, Igor B. Kuznetsov, and Richard K. Yang

Abstract

Supplemental Methods and Figure Legends

Published

2023

44. Supplementary Data from High Skp2 Expression Characterizes High-Risk Neuroblastomas Independent of MYCN Status

Author

Manfred Schwab, Javed Khan, Axel Benner, Ivo Leuschner, Karen Ernestus, Benedikt Brors, Volker Ehemann, Ruprecht Wiedemeyer, Rainer König, Matthias Fischer, Werner Lutz, Jun S. Wei, Kai-Oliver Henrich, and Frank Westermann

Abstract

Supplementary Figures S1-S2; Supplementary Materials and Methods; Supplementary Tables S1-S2.

Published

2023

45. Supplementary Table 2 from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Tab 1: Patient Demographics at Enrollment. Tab 2: Details of Multiple Samples from Individual Patients , Tab 3: Sample Data of Patients and Sequencing Data of Each Patient Sample, Tab 4: Sample Depth and Coverage, Tab 5: Somatic SNVs in Tumor Samples, Tab 6: Somatic Indels in Tumor Samples, Tab 7: Germline SNVs and Indels in Normal Samples, and Tab 8: Fusion Genes in Defuse, and Tab 9: Fusion Genes in TopHat

Published

2023

46. Supplementary Figure 5 from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

Schema for planned genomics guided CLIA sequencing program (ClinOmics) for the Center for Cancer Research of the intramural National Cancer Institute.

Published

2023

47. Supplementary Table 1 from MultiDimensional ClinOmics for Precision Therapy of Children and Adolescent Young Adults with Relapsed and Refractory Cancer: A Report from the Center for Cancer Research

Author

Javed Khan, Jimmy C. Lin, Rosandra N. Kaplan, Melinda S. Merchant, Brigitte C. Widemann, Toby N. Trahair, James C. League-Pascual, Kip R. Hartman, Markku Miettinen, Thomas C. Badgett, Xinyu Wen, Nityashree Shivaprasad, Kathleen A. Calzone, Shile Zhang, Berkley Gryder, Marielle E. Yohe, Young K. Song, Jun S. Wei, Jack F. Shern, Sivasish Sindiri, Rajesh Patidar, Andrew S. Brohl, and Wendy Chang

Abstract

American College of Medical Genetics (ACMG) Reportable Criteria and Tab2: NCI-Adult MATCH Criteria for Matching Mutation to Drug

Published

2023

48. Data from Clinically Relevant Cytotoxic Immune Cell Signatures and Clonal Expansion of T-Cell Receptors in High-Risk MYCN-Not-Amplified Human Neuroblastoma

Author

Javed Khan, John M. Maris, Robert Seeger, Paul M. Sondel, Stephen M. Hewitt, Daniel Catchpoole, Aysen Yuksel, Daniela S. Gerhard, Jaime M. Guidry Auvil, Ashley Walton, Sushma Najaraj, Rajesh Patidar, Xinyu Wen, Sivasish Sindiri, Shahab Asgharzadeh, Young K. Song, Shile Zhang, Igor B. Kuznetsov, and Jun S. Wei

Abstract

Purpose: High-risk neuroblastoma is an aggressive disease. DNA sequencing studies have revealed a paucity of actionable genomic alterations and a low mutation burden, posing challenges to develop effective novel therapies. We used RNA sequencing (RNA-seq) to investigate the biology of this disease, including a focus on tumor-infiltrating lymphocytes (TIL).Experimental Design: We performed deep RNA-seq on pretreatment diagnostic tumors from 129 high-risk and 21 low- or intermediate-risk patients with neuroblastomas. We used single-sample gene set enrichment analysis to detect gene expression signatures of TILs in tumors and examined their association with clinical and molecular parameters, including patient outcome. The expression profiles of 190 additional pretreatment diagnostic neuroblastomas, a neuroblastoma tissue microarray, and T-cell receptor (TCR) sequencing were used to validate our findings.Results: We found that MYCN-not-amplified (MYCN-NA) tumors had significantly higher cytotoxic TIL signatures compared with MYCN-amplified (MYCN-A) tumors. A reported MYCN activation signature was significantly associated with poor outcome for high-risk patients with MYCN-NA tumors; however, a subgroup of these patients who had elevated activated natural killer (NK) cells, CD8+ T cells, and cytolytic signatures showed improved outcome and expansion of infiltrating TCR clones. Furthermore, we observed upregulation of immune exhaustion marker genes, indicating an immune-suppressive microenvironment in these neuroblastomas.Conclusions: This study provides evidence that RNA signatures of cytotoxic TIL are associated with the presence of activated NK/T cells and improved outcomes in high-risk neuroblastoma patients harboring MYCN-NA tumors. Our findings suggest that these high-risk patients with MYCN-NA neuroblastoma may benefit from additional immunotherapies incorporated into the current therapeutic strategies. Clin Cancer Res; 24(22); 5673–84. ©2018 AACR.

Published

2023

49. Data from microRNA Profiling Identifies Cancer-Specific and Prognostic Signatures in Pediatric Malignancies

Author

Javed Khan, Christopher Morton, Peter Houghton, Malcolm A. Smith, Adam T.C. Cheuk, Xinyu Wen, Steffen Durinck, Young K. Song, Qing-Rong Chen, Peter Johansson, and Jun S. Wei

Abstract

Purpose: microRNAs have been shown to be involved in different human cancers. We therefore have performed expression profiles on a panel of pediatric tumors to identify cancer-specific microRNAs. We also investigated if microRNAs are coregulated with their host gene.Experimental Design: We performed parallel microRNAs and mRNA expression profiling on 57 tumor xenografts and cell lines representing 10 different pediatric solid tumors using microarrays. For those microRNAs that map to their host mRNA, we calculated correlations between them.Results: We found that the majority of cancer types clustered together based on their global microRNA expression profiles by unsupervised hierarchical clustering. Fourteen microRNAs were significantly differentially expressed between rhabdomyosarcoma and neuroblastoma, and 8 of them were validated in independent patient tumor samples. Exploration of the expression of microRNAs in relationship with their host genes showed that the expression for 43 of 68 (63%) microRNAs located inside known coding genes was significantly correlated with that of their host genes. Among these 43 microRNAs, 5 of 7 microRNAs in the OncomiR-1 cluster correlated significantly with their host gene MIRHG1 (P < 0.01). In addition, high expression of MIRHG1 was significantly associated with high stage and MYCN amplification in neuroblastoma tumors, and the expression level of MIRHG1 could predict the outcome of neuroblastoma patients independently from the current neuroblastoma risk-stratification in two independent patient cohorts.Conclusion: Pediatric cancers express cancer-specific microRNAs. The high expression of the OncomiR-1 host gene MIRHG1 correlates with poor outcome for patients with neuroblastoma, indicating important oncogenic functions of this microRNA cluster in neuroblastoma biology. (Clin Cancer Res 2009;15(17):5560–8)

Published

2023

50. Data from Outcome-Related Signatures Identified by Whole Transcriptome Sequencing of Resectable Stage III/IV Melanoma Evaluated after Starting Hu14.18-IL2

Author

Paul M. Sondel, Javed Khan, Mark R. Albertini, KyungMann Kim, Renae Quale, Zachary S. Morris, Amy K. Erbe, Cindy Zuleger, Jacquelyn A. Hank, Viharkumar Patel, Young K. Song, Vineela Gangalapudi, Berkley E. Gryder, Sivasish Sindiri, Jun S. Wei, Erik A. Ranheim, Igor B. Kuznetsov, and Richard K. Yang

Abstract

Purpose:We analyzed whole transcriptome sequencing in tumors from 23 patients with stage III or IV melanoma from a pilot trial of the anti-GD2 immunocytokine, hu14.18-IL2, to identify predictive immune and/or tumor biomarkers in patients with melanoma at high risk for recurrence.Experimental Design:Patients were randomly assigned to receive the first of three monthly courses of hu14.18-IL2 immunotherapy either before (Group A) or after (Group B) complete surgical resection of all known diseases. Tumors were evaluated by histology and whole transcriptome sequencing.Results:Tumor-infiltrating lymphocyte (TIL) levels directly associated with relapse-free survival (RFS) and overall survival (OS) in resected tumors from Group A, where early responses to the immunotherapy agent could be assessed. TIL levels directly associated with a previously reported immune signature, which associated with RFS and OS, particularly in Group A tumors. In Group A tumors, there were decreased cell-cycling gene RNA transcripts, but increased RNA transcripts for repair and growth genes. We found that outcome (RFS and OS) was directly associated with several immune signatures and immune-related RNA transcripts and inversely associated with several tumor growth–associated transcripts, particularly in Group A tumors. Most of these associations were not seen in Group B tumors.Conclusions:We interpret these data to signify that both immunologic and tumoral cell processes, as measured by RNA-sequencing analyses detected shortly after initiation of hu14.18-IL2 therapy, are associated with long-term survival and could potentially be used as prognostic biomarkers in tumor resection specimens obtained after initiating neoadjuvant immunotherapy.

Published

2023