Your search keyword '"Anbunathan H"' showing total 22 results

1. CARD14 alterations in Tunisian patients with psoriasis and further characterization in European cohorts

Author

Ammar, M., Jordan, C. T., Cao, L., Lim, E., Souissi, Bouchlaka C., Jrad, A., Omrane, I., Kouidhi, S., Zaraa, I., Anbunathan, H., Mokni, M., Doss, N., Guttman-Yassky, E., El Gaaied, A. B., Menter, A., and Bowcock, A. M.

Published

2016

2. Genome-wide linkage scan for psoriasis susceptibility loci in multiplex Tunisian families

Author

Ammar, M., Bouchlaka-Souissi, C., Helms, C. A., Zaraa, I., Jordan, C. T., Anbunathan, H., Bouhaha, R., Kouidhi, S., Doss, N., Dhaoui, R., Ben Osman, A., Ben Ammar El Gaied, A., Marrakchi, R., Mokni, M., and Bowcock, A. M.

Published

2013

3. P-138 A comparison of the transcriptomic profiles of matched tissue from primary colorectal cancer and corresponding secondary lung metastases

Author

Khakoo, S., primary, Moorcraft, S., additional, Pacis, A., additional, Munter, M., additional, Lathrop, M., additional, Lefebvre, F., additional, Riazalhosseini, Y., additional, Shaikh, R., additional, Jones, T., additional, Begum, R., additional, Wotherspoon, A., additional, Saffery, C., additional, Kalaitzaki, E., additional, Anbunathan, H., additional, Rao, S., additional, Watkins, D., additional, Starling, N., additional, Cunningham, D., additional, Chau, I., additional, and Bowcock, A., additional

Published

2020

4. MA23.10 Low Number of Mutations and Frequent Co-Deletions of CDKN2A and IFN Type I Characterize Malignant Pleural Mesothelioma

Author

Nastase, A., primary, Mandal, A., additional, Lu, S.K., additional, Gennatas, S., additional, Anbunathan, H., additional, Edwards, M., additional, Morris-Rosendahl, D., additional, Taylor, A. Newman, additional, Rintoul, R.C., additional, Lim, E., additional, Popat, S., additional, Nicholson, A., additional, Lathrop, M., additional, Bowcock, A., additional, Moffatt, M., additional, and Cookson, W., additional

Published

2019

5. MA23.11 Analysis of Immune Phenotype Composition in Malignant Pleural Mesothelioma (MPM) Using Bulk RNA Sequencing

Author

Mandal, A., primary, Nastase, A., additional, Lu, S.K., additional, Gennatas, S., additional, Anbunathan, H., additional, Edwards, M., additional, Morris-Rosendahl, D., additional, Taylor, A. Newman, additional, Rintoul, R.C., additional, Lim, E., additional, Popat, S., additional, Nicholson, A., additional, Bowcock, A., additional, Lathrop, M., additional, Moffatt, M., additional, and Cookson, W., additional

Published

2019

6. Targeted next-generation sequencing of malignant pleural mesothelioma identifies recurrent NRAS oncogene mutations

Author

Nastase, A., primary, Gennatas, S., additional, Mandal, A., additional, Liu, K., additional, Edwards, M., additional, Morris-Rosendahl, D., additional, Rintoul, R., additional, Lim, E., additional, Anbunathan, H., additional, Popat, S., additional, Lathrop, M., additional, Nicholson, A., additional, Moffatt, M., additional, Bowcock, A.M., additional, and Cookson, W., additional

Published

2018

7. Copy number variations in malignant pleural mesothelioma reveal novel regions of genomic imbalances

Author

Mandal, A., primary, Gennatas, S., additional, Liu, K., additional, Nastase, A., additional, Edwards, M., additional, Morris-Rosendahl, D., additional, Rintoul, R., additional, Lim, E., additional, Anbunathan, H., additional, Popat, S., additional, Lathrop, M., additional, Nicholson, A.G., additional, Bowcock, A.M., additional, Moffatt, M., additional, and Cookson, W., additional

Published

2018

8. 55: Somatic BAP1 and NF2 mutations in pleural malignant mesothelioma and their correlation with clinical phenotype

Author

Gennatas, S., primary, Lu, S.K., additional, Anbunathan, H., additional, Popat, S., additional, O'Brien, M., additional, Lim, E., additional, Fernandez, A. Montero, additional, Benepal, T., additional, Nicholson, A.G., additional, Lathrop, M., additional, Moffatt, M., additional, Cookson, W., additional, and Bowcock, A.M., additional

Published

2017

9. 116: Somatic and germline mutations in thymic epithelial tumours and their correlation with histological and clinical phenotypes

Author

Gennatas, S., primary, Anbunathan, H., additional, Bowman, A., additional, Fernandez, A. Montero, additional, Nicholson, A.G., additional, Popat, S., additional, and Bowcock, A.M., additional

Published

2017

10. CARD14 alterations in Tunisian patients with psoriasis and further characterization in European cohorts

Author

Ammar, M., primary, Jordan, C.T., additional, Cao, L., additional, Lim, E., additional, Bouchlaka Souissi, C., additional, Jrad, A., additional, Omrane, I., additional, Kouidhi, S., additional, Zaraa, I., additional, Anbunathan, H., additional, Mokni, M., additional, Doss, N., additional, Guttman-Yassky, E., additional, El Gaaied, A. B., additional, Menter, A., additional, and Bowcock, A.M., additional

Published

2015

11. Immune determinants of CAR-T cell expansion in solid tumor patients receiving GD2 CAR-T cell therapy.

Author

Kaczanowska S, Murty T, Alimadadi A, Contreras CF, Duault C, Subrahmanyam PB, Reynolds W, Gutierrez NA, Baskar R, Wu CJ, Michor F, Altreuter J, Liu Y, Jhaveri A, Duong V, Anbunathan H, Ong C, Zhang H, Moravec R, Yu J, Biswas R, Van Nostrand S, Lindsay J, Pichavant M, Sotillo E, Bernstein D, Carbonell A, Derdak J, Klicka-Skeels J, Segal JE, Dombi E, Harmon SA, Turkbey B, Sahaf B, Bendall S, Maecker H, Highfill SL, Stroncek D, Glod J, Merchant M, Hedrick CC, Mackall CL, Ramakrishna S, and Kaplan RN

Subjects

Child, Young Adult, Humans, Receptors, Antigen, T-Cell genetics, Proteomics, Immunotherapy, Adoptive adverse effects, Immunotherapy, Adoptive methods, T-Lymphocytes, Cell- and Tissue-Based Therapy, Receptors, Chimeric Antigen genetics, Neuroblastoma pathology

Abstract

Chimeric antigen receptor T cells (CAR-Ts) have remarkable efficacy in liquid tumors, but limited responses in solid tumors. We conducted a Phase I trial (NCT02107963) of GD2 CAR-Ts (GD2-CAR.OX40.28.z.iC9), demonstrating feasibility and safety of administration in children and young adults with osteosarcoma and neuroblastoma. Since CAR-T efficacy requires adequate CAR-T expansion, patients were grouped into good or poor expanders across dose levels. Patient samples were evaluated by multi-dimensional proteomic, transcriptomic, and epigenetic analyses. T cell assessments identified naive T cells in pre-treatment apheresis associated with good expansion, and exhausted T cells in CAR-T products with poor expansion. Myeloid cell assessment identified CXCR3 + monocytes in pre-treatment apheresis associated with good expansion. Longitudinal analysis of post-treatment samples identified increased CXCR3 - classical monocytes in all groups as CAR-T numbers waned. Together, our data uncover mediators of CAR-T biology and correlates of expansion that could be utilized to advance immunotherapies for solid tumor patients., Competing Interests: Declaration of interests C.J.W. receives research funding from Pharmacyclics and hold equity in BioNTech, Inc. F.M. is a cofounder of and has equity in Harbinger Health, has equity in Zephyr AI, and serves as a consultant for Harbinger Health, Zephyr AI, and Red Cell Partners and Exscientia. F.M. declares that none of these relationships are directly or indirectly related to the content of this manuscript. E.S. consults for and holds equity in Lyell Immunopharma and consults for Lepton Pharmaceuticals and Galaria. M.S.M. is currently employed at Normunity and holds stock in AstraZeneca; her contributions to this work were made prior to these industry positions which are not relevant to the content of this manuscript. C.L.M. is an inventor on numerous patents and patents pending related to CAR-T cell therapies. C.L.M. holds equity in and receives research funding from Lyell Immunopharma and holds equity in and consults for CARGO Therapeutics and Link Cell Therapies. C.L.M. consults for Immatics, Mammoth, Ensoma, and Red Tree Venture Capital., (Published by Elsevier Inc.)

Published

2024

12. Author Correction: Integrated genomics point to immune vulnerabilities in pleural mesothelioma.

Author

Nastase A, Mandal A, Lu SK, Anbunathan H, Morris-Rosendahl D, Zhang YZ, Sun XM, Gennatas S, Rintoul RC, Edwards M, Bowman A, Chernova T, Benepal T, Lim E, Taylor AN, Nicholson AG, Popat S, Willis AE, MacFarlane M, Lathrop M, Bowcock AM, Moffatt MF, and Cookson WOCM

Published

2022

13. GPC2-CAR T cells tuned for low antigen density mediate potent activity against neuroblastoma without toxicity.

Author

Heitzeneder S, Bosse KR, Zhu Z, Zhelev D, Majzner RG, Radosevich MT, Dhingra S, Sotillo E, Buongervino S, Pascual-Pasto G, Garrigan E, Xu P, Huang J, Salzer B, Delaidelli A, Raman S, Cui H, Martinez B, Bornheimer SJ, Sahaf B, Alag A, Fetahu IS, Hasselblatt M, Parker KR, Anbunathan H, Hwang J, Huang M, Sakamoto K, Lacayo NJ, Klysz DD, Theruvath J, Vilches-Moure JG, Satpathy AT, Chang HY, Lehner M, Taschner-Mandl S, Julien JP, Sorensen PH, Dimitrov DS, Maris JM, and Mackall CL

Subjects

Animals, Cell Line, Tumor, Glypicans metabolism, Humans, Immunotherapy methods, Neuroblastoma pathology, Receptors, Antigen, T-Cell immunology, Receptors, Chimeric Antigen immunology, T-Lymphocytes drug effects, T-Lymphocytes immunology, Xenograft Model Antitumor Assays methods, Glypicans immunology, Immunotherapy, Adoptive, Neuroblastoma drug therapy, Receptors, Antigen, T-Cell metabolism

Abstract

Pediatric cancers often mimic fetal tissues and express proteins normally silenced postnatally that could serve as immune targets. We developed T cells expressing chimeric antigen receptors (CARs) targeting glypican-2 (GPC2), a fetal antigen expressed on neuroblastoma (NB) and several other solid tumors. CARs engineered using standard designs control NBs with transgenic GPC2 overexpression, but not those expressing clinically relevant GPC2 site density (∼5,000 molecules/cell, range 1-6 × 10 3 ). Iterative engineering of transmembrane (TM) and co-stimulatory domains plus overexpression of c-Jun lowered the GPC2-CAR antigen density threshold, enabling potent and durable eradication of NBs expressing clinically relevant GPC2 antigen density, without toxicity. These studies highlight the critical interplay between CAR design and antigen density threshold, demonstrate potent efficacy and safety of a lead GPC2-CAR candidate suitable for clinical testing, and credential oncofetal antigens as a promising class of targets for CAR T cell therapy of solid tumors., Competing Interests: Declaration of interest C.L.M., S.H., J.M.M., K.R.B., R.G.M., D.S.D., and Z.Z. are co-inventors on patents related to this work. C.L.M. (and others) have multiple patents pertinent to CAR T cells. C.L.M. is a co-founder of Lyell Immunopharma and Syncopation Life Sciences, which develop CAR-based therapies, and consults for Lyell, NeoImmune Tech, Apricity, Nektar, and Immatics. K.R.B. and J.M.M. receive research funding from Tmunity for research on GPC2-directed immunotherapies. D.Z., Z.Z., D.S.D., J.M.M., and K.R.B. receive royalties from Tmunity for licensing of GPC2-related IP. R.G.M. and E.S. are consultants for and hold equity in Lyell Immunopharma. R.G.M. consults for GammaDelta Therapeutics, Aptorum Group, Zai Lab, and Illumina Radiopharmaceuticals and J.T. for Dorian Therapeutics. S.J.B. is an employee of BD Biosciences. A.T.S. is a founder of Immunai and Cartography Biosciences and receives research funding from Arsenal Biosciences and 10× Genomics. K.R.P. is a co-founder and employee of Cartography Biosciences. H.Y.C. is a co-founder of Accent Therapeutics and Boundless Bio and is an advisor to 10× Genomics, Arsenal Bio, and Spring Discovery., (Copyright © 2021. Published by Elsevier Inc.)

Published

2022

14. Integrated genomics point to immune vulnerabilities in pleural mesothelioma.

Author

Nastase A, Mandal A, Lu SK, Anbunathan H, Morris-Rosendahl D, Zhang YZ, Sun XM, Gennatas S, Rintoul RC, Edwards M, Bowman A, Chernova T, Benepal T, Lim E, Taylor AN, Nicholson AG, Popat S, Willis AE, MacFarlane M, Lathrop M, Bowcock AM, Moffatt MF, and Cookson WOCM

Subjects

Aged, Aged, 80 and over, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Biomarkers, Tumor antagonists & inhibitors, Biopsy, DNA Copy Number Variations, Female, Gene Expression Profiling, Gene Expression Regulation, Neoplastic drug effects, Genomics, Hippo Signaling Pathway drug effects, Hippo Signaling Pathway immunology, Humans, Male, Mesothelioma, Malignant drug therapy, Mesothelioma, Malignant immunology, Mesothelioma, Malignant pathology, Middle Aged, Mutation, Pleura pathology, Pleural Neoplasms drug therapy, Pleural Neoplasms immunology, Pleural Neoplasms pathology, Primary Cell Culture, Whole Genome Sequencing, Biomarkers, Tumor genetics, Gene Expression Regulation, Neoplastic immunology, Hippo Signaling Pathway genetics, Mesothelioma, Malignant genetics, Pleural Neoplasms genetics

Abstract

Pleural mesothelioma is an aggressive malignancy with limited effective therapies. In order to identify therapeutic targets, we integrated SNP genotyping, sequencing and transcriptomics from tumours and low-passage patient-derived cells. Previously unrecognised deletions of SUFU locus (10q24.32), observed in 21% of 118 tumours, resulted in disordered expression of transcripts from Hedgehog pathways and the T-cell synapse including VISTA. Co-deletion of Interferon Type I genes and CDKN2A was present in half of tumours and was a predictor of poor survival. We also found previously unrecognised deletions in RB1 in 26% of cases and show sub-micromolar responses to downstream PLK1, CHEK1 and Aurora Kinase inhibitors in primary mesothelioma cells. Defects in Hippo pathways that included RASSF7 amplification and NF2 or LATS1/2 mutations were present in 50% of tumours and were accompanied by micromolar responses to the YAP1 inhibitor Verteporfin. Our results suggest new therapeutic avenues in mesothelioma and indicate targets and biomarkers for immunotherapy., (© 2021. The Author(s).)

Published

2021

15. Transient rest restores functionality in exhausted CAR-T cells through epigenetic remodeling.

Author

Weber EW, Parker KR, Sotillo E, Lynn RC, Anbunathan H, Lattin J, Good Z, Belk JA, Daniel B, Klysz D, Malipatlolla M, Xu P, Bashti M, Heitzeneder S, Labanieh L, Vandris P, Majzner RG, Qi Y, Sandor K, Chen LC, Prabhu S, Gentles AJ, Wandless TJ, Satpathy AT, Chang HY, and Mackall CL

Subjects

Animals, Cell Line, Tumor, Cytotoxicity, Immunologic, Down-Regulation, Enhancer of Zeste Homolog 2 Protein metabolism, Epigenome, Female, Hepatocyte Nuclear Factor 1-alpha metabolism, High Mobility Group Proteins metabolism, Humans, Immunologic Memory, Lymphocyte Activation, Lymphoid Enhancer-Binding Factor 1 metabolism, Male, Mice, Neoplasms, Experimental therapy, Protein Domains, Protein Stability, Receptors, Chimeric Antigen chemistry, Receptors, Chimeric Antigen immunology, Signal Transduction, T-Lymphocytes metabolism, Transcription, Genetic, Xenograft Model Antitumor Assays, Dasatinib pharmacology, Epigenesis, Genetic, Immunotherapy, Adoptive, Receptors, Chimeric Antigen metabolism, T-Lymphocytes immunology

Abstract

T cell exhaustion limits immune responses against cancer and is a major cause of resistance to chimeric antigen receptor (CAR)-T cell therapeutics. Using murine xenograft models and an in vitro model wherein tonic CAR signaling induces hallmark features of exhaustion, we tested the effect of transient cessation of receptor signaling, or rest, on the development and maintenance of exhaustion. Induction of rest through enforced down-regulation of the CAR protein using a drug-regulatable system or treatment with the multikinase inhibitor dasatinib resulted in the acquisition of a memory-like phenotype, global transcriptional and epigenetic reprogramming, and restored antitumor functionality in exhausted CAR-T cells. This work demonstrates that rest can enhance CAR-T cell efficacy by preventing or reversing exhaustion, and it challenges the notion that exhaustion is an epigenetically fixed state., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

16. c-Jun overexpression in CAR T cells induces exhaustion resistance.

Author

Lynn RC, Weber EW, Sotillo E, Gennert D, Xu P, Good Z, Anbunathan H, Lattin J, Jones R, Tieu V, Nagaraja S, Granja J, de Bourcy CFA, Majzner R, Satpathy AT, Quake SR, Monje M, Chang HY, and Mackall CL

Subjects

Animals, Cell Line, Tumor, Epigenesis, Genetic, Gene Expression Regulation, Humans, Mice, Neoplasms genetics, Neoplasms immunology, Neoplasms metabolism, Proto-Oncogene Proteins c-jun genetics, Receptors, Antigen, T-Cell genetics, Transcription Factor AP-1 genetics, Transcription Factor AP-1 immunology, Transcription, Genetic, Proto-Oncogene Proteins c-jun metabolism, Receptors, Antigen, T-Cell immunology

Abstract

Chimeric antigen receptor (CAR) T cells mediate anti-tumour effects in a small subset of patients with cancer 1-3 , but dysfunction due to T cell exhaustion is an important barrier to progress 4-6 . To investigate the biology of exhaustion in human T cells expressing CAR receptors, we used a model system with a tonically signaling CAR, which induces hallmark features of exhaustion 6 . Exhaustion was associated with a profound defect in the production of IL-2, along with increased chromatin accessibility of AP-1 transcription factor motifs and overexpression of the bZIP and IRF transcription factors that have been implicated in mediating dysfunction in exhausted T cells 7-10 . Here we show that CAR T cells engineered to overexpress the canonical AP-1 factor c-Jun have enhanced expansion potential, increased functional capacity, diminished terminal differentiation and improved anti-tumour potency in five different mouse tumour models in vivo. We conclude that a functional deficiency in c-Jun mediates dysfunction in exhausted human T cells, and that engineering CAR T cells to overexpress c-Jun renders them resistant to exhaustion, thereby addressing a major barrier to progress for this emerging class of therapeutic agents.

Published

2019

17. Integrative Copy Number Analysis of Uveal Melanoma Reveals Novel Candidate Genes Involved in Tumorigenesis Including a Tumor Suppressor Role for PHF10/BAF45a .

Author

Anbunathan H, Verstraten R, Singh AD, Harbour JW, and Bowcock AM

Subjects

DNA Methylation, Gene Expression Profiling, Gene Knockdown Techniques, Homozygote, Humans, Melanoma mortality, Melanoma pathology, Mutation, Polymorphism, Single Nucleotide, Prognosis, Transcriptome, Uveal Neoplasms mortality, Uveal Neoplasms pathology, Cell Transformation, Neoplastic genetics, DNA Copy Number Variations, Genes, Tumor Suppressor, Homeodomain Proteins genetics, Melanoma genetics, Neoplasm Proteins genetics, Transcription Factors genetics, Uveal Neoplasms genetics

Abstract

Purpose: Uveal melanoma is a primary malignancy of the eye with oncogenic mutations in GNAQ, GNA11, or CYSLTR2 , and additional mutations in BAP1 (usually associated with LOH of Chr 3), SF3B1 , or EIF1AX . There are other characteristic chromosomal alterations, but their significance is not clear., Experimental Design: To investigate genes driving chromosomal alterations, we integrated copy number, transcriptome, and mutation data from three cohorts and followed up key findings., Results: We observed significant enrichment of transcripts on chromosomes 1p, 3, 6, 8, and 16q and identified seven shared focal copy number alterations (FCNAs) on Chr 1p36, 2q37, 3, 6q25, 6q27, and 8q24. Integrated analyses revealed clusters of genes in focal copy number regions whose expression was associated with metastasis and worse overall survival. This included genes from Chr 1p36, 3p21, and 8q24.3. At Chr 6q27, we identified two tumors with homozygous deletion of PHF10/BAF45a and one with a frameshift mutation with concomitant loss of the wild-type allele. Downregulation of PHF10 in uveal melanoma cell lines and tumors altered a number of biological pathways including development and adhesion. These findings provide support for a role for PHF10 as a novel tumor suppressor at Chr 6q27., Conclusions: Integration of copy number, transcriptome, and mutation data revealed novel candidate genes playing a role in uveal melanoma pathogenesis and a potential tumor suppressor role for PHF10 ., (©2019 American Association for Cancer Research.)

Published

2019

18. Mutant MYO1F alters the mitochondrial network and induces tumor proliferation in thyroid cancer.

Author

Diquigiovanni C, Bergamini C, Evangelisti C, Isidori F, Vettori A, Tiso N, Argenton F, Costanzini A, Iommarini L, Anbunathan H, Pagotto U, Repaci A, Babbi G, Casadio R, Lenaz G, Rhoden KJ, Porcelli AM, Fato R, Bowcock A, Seri M, Romeo G, and Bonora E

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Animals, Apoptosis, Cells, Cultured, Child, Chromosomes, Human, Pair 19, Embryo, Nonmammalian metabolism, Female, Genetic Predisposition to Disease, Genotype, Humans, Male, Middle Aged, Mitochondria genetics, Mitochondria metabolism, Myosin Type I chemistry, Myosin Type I metabolism, Oxygen Consumption, Pedigree, Protein Conformation, Thyroid Cancer, Papillary genetics, Thyroid Cancer, Papillary metabolism, Thyroid Neoplasms genetics, Thyroid Neoplasms metabolism, Young Adult, Zebrafish, Cell Proliferation, Embryo, Nonmammalian pathology, Mitochondria pathology, Mutation, Myosin Type I genetics, Thyroid Cancer, Papillary pathology, Thyroid Neoplasms pathology

Abstract

Familial aggregation is a significant risk factor for the development of thyroid cancer and familial non-medullary thyroid cancer (FNMTC) accounts for 5-7% of all NMTC. Whole exome sequencing analysis in the family affected by FNMTC with oncocytic features where our group previously identified a predisposing locus on chromosome 19p13.2, revealed a novel heterozygous mutation (c.400G > A, NM_012335; p.Gly134Ser) in exon 5 of MYO1F, mapping to the linkage locus. In the thyroid FRTL-5 cell model stably expressing the mutant MYO1F p.Gly134Ser protein, we observed an altered mitochondrial network, with increased mitochondrial mass and a significant increase in both intracellular and extracellular reactive oxygen species, compared to cells expressing the wild-type (wt) protein or carrying the empty vector. The mutation conferred a significant advantage in colony formation, invasion and anchorage-independent growth. These data were corroborated by in vivo studies in zebrafish, since we demonstrated that the mutant MYO1F p.Gly134Ser, when overexpressed, can induce proliferation in whole vertebrate embryos, compared to the wt one. MYO1F screening in additional 192 FNMTC families identified another variant in exon 7, which leads to exon skipping, and is predicted to alter the ATP-binding domain in MYO1F. Our study identified for the first time a role for MYO1F in NMTC., (© 2018 UICC.)

Published

2018

19. Punctuated evolution of canonical genomic aberrations in uveal melanoma.

Author

Field MG, Durante MA, Anbunathan H, Cai LZ, Decatur CL, Bowcock AM, Kurtenbach S, and Harbour JW

Subjects

Cluster Analysis, DNA Copy Number Variations, DNA Methylation, Evolution, Molecular, Humans, Mutation, Exome Sequencing, Melanoma genetics, Tumor Suppressor Proteins genetics, Ubiquitin Thiolesterase genetics, Uveal Neoplasms genetics

Abstract

Cancer is thought to arise through the accumulation of genomic aberrations evolving under Darwinian selection. However, it remains unclear when the aberrations associated with metastasis emerge during tumor evolution. Uveal melanoma (UM) is the most common primary eye cancer and frequently leads to metastatic death, which is strongly linked to BAP1 mutations. Accordingly, UM is ideally suited for studying the clonal evolution of metastatic competence. Here we analyze sequencing data from 151 primary UM samples using a customized bioinformatic pipeline, to improve detection of BAP1 mutations and infer the clonal relationships among genomic aberrations. Strikingly, we find BAP1 mutations and other canonical genomic aberrations usually arise in an early punctuated burst, followed by neutral evolution extending to the time of clinical detection. This implies that the metastatic proclivity of UM is "set in stone" early in tumor evolution and may explain why advances in primary treatment have not improved survival.

Published

2018

20. The Molecular Revolution in Cutaneous Biology: The Era of Genome-Wide Association Studies and Statistical, Big Data, and Computational Topics.

Author

Anbunathan H and Bowcock AM

Subjects

Genetic Predisposition to Disease, Genetic Variation, High-Throughput Nucleotide Sequencing methods, Humans, Microarray Analysis methods, Molecular Biology methods, Phenotype, Polymorphism, Single Nucleotide, Skin Diseases pathology, Computational Biology methods, Genome-Wide Association Study methods, Skin Diseases genetics

Abstract

The investigation of biological systems involving all organs of the body including the skin is in era of big data. This requires heavy-duty computational tools, and novel statistical methods. Microarrays have allowed the interrogation of thousands of common genetic markers in thousands of individuals from the same population (termed genome wide association studies or GWAS) to reveal common variation associated with disease or phenotype. These markers are usually single nucleotide polymorphisms (SNPs) that are relatively common in the population. In the case of dermatological diseases such as alopecia areata, vitiligo, psoriasis and atopic dermatitis, common variants have been identified that are associated with disease, and these provide insights into biological pathways and reveal possible novel drug targets. Other skin phenotypes such as acne, color and skin cancers are also being investigated with GWAS. Analyses of such large GWAS datasets require a consideration of a number of statistical issues including the testing of multiple markers, population substructure, and ultimately a requirement for replication. There are also issues regarding the missing heritability of disease that cannot be entirely explained with current GWAS approaches. Next generation sequencing technologies such as exome and genome sequencing of similar patient cohorts will reveal additional variants contributing to disease susceptibility. However, the data generated with these approaches will be orders of magnitude greater than that those generated with arrays, with concomitant challenges in the identification of disease causing variants., (Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2017

21. Driver Mutations in Uveal Melanoma: Associations With Gene Expression Profile and Patient Outcomes.

Author

Decatur CL, Ong E, Garg N, Anbunathan H, Bowcock AM, Field MG, and Harbour JW

Subjects

DNA Mutational Analysis, Female, Gene Expression Profiling, Humans, Male, Melanoma diagnosis, Middle Aged, Polymerase Chain Reaction, Prognosis, Retrospective Studies, Uveal Neoplasms diagnosis, Eukaryotic Initiation Factor-1 genetics, Gene Expression Regulation, Neoplastic physiology, Melanoma genetics, Mutation, Neoplasm Proteins genetics, Phosphoproteins genetics, RNA Splicing Factors genetics, Tumor Suppressor Proteins genetics, Ubiquitin Thiolesterase genetics, Uveal Neoplasms genetics

Abstract

Importance: Frequent mutations have been described in the following 5 genes in uveal melanoma (UM): BAP1, EIF1AX, GNA11, GNAQ, and SF3B1. Understanding the prognostic significance of these mutations could facilitate their use in precision medicine., Objective: To determine the associations between driver mutations, gene expression profile (GEP) classification, clinicopathologic features, and patient outcomes in UM., Design, Setting, and Participants: Retrospective study of patients with UM treated by enucleation by a single ocular oncologist between November 1, 1998, and July 31, 2014., Main Outcomes and Measures: Clinicopathologic features, patient outcomes, GEP classification (class 1 or class 2), and mutation status were recorded., Results: The study cohort comprised 81 participants. Their mean age was 61.5 years, and 37% (30 of 81) were female. The GEP classification was class 1 in 35 of 81 (43%), class 2 in 42 of 81 (52%), and unknown in 4 of 81 (5%). BAP1 mutations were identified in 29 of 64 (45%), GNAQ mutations in 36 of 81 (44%), GNA11 mutations in 36 of 81 (44%), SF3B1 mutations in 19 of 81 (24%), and EIF1AX mutations in 14 of 81 (17%). Sixteen of the mutations in BAP1 and 6 of the mutations in EIF1AX were previously unreported in UM. GNAQ and GNA11 mutations were mutually exclusive. BAP1, SF3B1, and EIF1AX mutations were almost mutually exclusive with each other. Using multiple regression analysis, BAP1 mutations were associated with class 2 GEP and older patient. EIF1AX mutations were associated with class 1 GEP and the absence of ciliary body involvement. SF3B1 mutations were associated with younger patient age. GNAQ mutations were associated with the absence of ciliary body involvement and greater largest basal diameter. GNA11 mutations were not associated with any of the analyzed features. Using Cox proportional hazards modeling, class 2 GEP was the prognostic factor most strongly associated with metastasis (relative risk, 9.4; 95% CI, 3.1-28.5) and melanoma-specific mortality (relative risk, 15.7; 95% CI, 3.6-69.1) (P < .001 for both). After excluding GEP class, the presence of BAP1 mutations was the factor most strongly associated with metastasis (relative risk, 10.6; 95% CI, 3.4-33.5) and melanoma-specific mortality (relative risk, 9.0; 95% CI, 2.8-29.2) (P < .001 for both)., Conclusions and Relevance: BAP1, SF3B1, and EIF1AX mutations occur during UM tumor progression in an almost mutually exclusive manner and are associated with different levels of metastatic risk. These mutations may have value as prognostic markers in UM.

Published

2016

22. Recurrent mutations at codon 625 of the splicing factor SF3B1 in uveal melanoma.

Author

Harbour JW, Roberson ED, Anbunathan H, Onken MD, Worley LA, and Bowcock AM

Subjects

Codon genetics, Comparative Genomic Hybridization, DNA Copy Number Variations genetics, Humans, Kaplan-Meier Estimate, Microarray Analysis, Mutation genetics, Phosphoproteins metabolism, RNA Splicing Factors, Ribonucleoprotein, U2 Small Nuclear metabolism, Melanoma genetics, Phosphoproteins genetics, Ribonucleoprotein, U2 Small Nuclear genetics, Uveal Neoplasms genetics

Abstract

Uveal melanoma is the most common primary cancer of the eye and often results in fatal metastasis. Here, we describe mutations occurring exclusively at codon 625 of the SF3B1 gene, encoding splicing factor 3B subunit 1, in low-grade uveal melanomas with good prognosis. Thus, uveal melanoma is among a small group of cancers associated with SF3B1 mutations, and these mutations denote a distinct molecular subset of uveal melanomas.

Published

2013