Your search keyword '"Morris, Luc G. T."' showing total 7 results

1. Genomic dissection of the epidermal growth factor receptor (EGFR)/PI3K pathway reveals frequent deletion of the EGFR phosphatase PTPRS in head and neck cancers

Author

Morris, Luc G. T., Taylor, Barry S., Bivona, Trever G., Gong, Yongxing, Eng, Stephanie, Brennan, Cameron W., Kaufman, Andrew, Kastenhuber, Edward R., Banuchi, Victoria E., Singh, Bhuvanesh, Heguy, Adriana, Viale, Agnes, Mellinghoff, Ingo K., Huse, Jason, Ganly, Ian, and Chan, Timothy A.

Published

2011

2. Anatomic sites at elevated risk of second primary cancer after an index head and neck cancer

Author

Morris, Luc G. T., Sikora, Andrew G., Hayes, Richard B., Patel, Snehal G., and Ganly, Ian

Published

2011

3. Tobacco Smoking-Associated Alterations in the Immune Microenvironment of Squamous Cell Carcinomas.

Author

Desrichard, Alexis, Kuo, Fengshen, Chowell, Diego, Lee, Ken-Wing, Riaz, Nadeem, Wong, Richard J, Chan, Timothy A, and Morris, Luc G T

Subjects

SQUAMOUS cell carcinoma, TOBACCO smoke, HEAD & neck cancer treatment, IMMUNOTHERAPY, GENETIC mutation

Abstract

Background: Tobacco smoking creates DNA damage, inducing mutations and potentially altering the tumor immune microenvironment. These types of genetic and immune microenvironment alterations are critical factors known to affect tumor response to immunotherapy. Here we analyze the association between the mutational signature of tobacco smoking, tumor mutational load, and metrics of immune activity in squamous cell carcinomas arising in the head and neck and lung.Methods: Using RNA and DNA sequencing data from The Cancer Genome Atlas head and neck (HNSC; n = 287) and lung (LUSC; n = 130) squamous cell carcinoma data sets and two independent gene expression data sets (HNSC, n = 136; LUSC, n = 75), we examined associations between the mutational smoking signature, mutation count, immune cell infiltration, cytolytic activity, and interferon-γ signaling.Results: An increasing mutational smoking signature was associated with statistically significantly increased overall mutational load in both HNSC (ρ = .33, P = 1.01 × 10-7) and LUSC (ρ = .49, P = 2.80 × 10-9). In HNSC, a higher mutational smoking signature was associated with lower levels of immune infiltration (ρ = -.37, P = 1.29 × 10-10), cytolytic activity (ρ = -.28, P = 4.07 × 10-6), and interferon-γ pathway signaling (ρ = .39, P = 3.20 × 10-11). In LUSC, these associations were reversed (ρ = .19, P = .03; ρ = .20, P = .02; and ρ = .18, P = .047, respectively). Differentially expressed genes between smoking-high and smoking-low tumors revealed broad tobacco-induced immunosuppression in HNSC, in contrast to a tumor-inflamed microenvironment in smokers with LUSC.Conclusions: In squamous cell carcinomas, the genetic smoking signature is associated with higher mutational load, but variable effects on tumor immunity can occur, depending on anatomic site. In HNSC, smoking is predominantly immunosuppressive; in LUSC, more pro-inflammatory. Both tumor mutation load and immune microenvironment affect clinical response to immunotherapy. Thus, the mutational smoking signature is likely to have relevance for immunotherapeutic investigation in smoking-associated cancers. [ABSTRACT FROM AUTHOR]

Published

2018

4. Therapeutic targeting of tumor suppressor genes.

Author

Morris, Luc G. T. and Chan, Timothy A.

Subjects

*CANCER, *TUMOR suppressor genes, *ONCOGENES, *MOLECULAR genetics, *DNA

Abstract

Carcinogenesis is a multistep process attributable to both gain-of-function mutations in oncogenes and loss-of-function mutations in tumor suppressor genes. Currently, most molecular targeted therapies are inhibitors of oncogenes, because inactivated tumor suppressor genes have proven harder to 'drug.' Nevertheless, in cancers, tumor suppressor genes undergo alteration more frequently than do oncogenes. In recent years, several promising strategies directed at tumor suppressor genes, or the pathways controlled by these genes, have emerged. Here, we describe advances in a number of different methodologies aimed at therapeutically targeting tumors driven by inactivated tumor suppressor genes. Cancer 2015;121:1357-1368. © 2014 American Cancer Society. [ABSTRACT FROM AUTHOR]

Published

2015

5. Pan-cancer genetic analysis identifies PARK2 as a master regulator of G1/S cyclins.

Author

Gong, Yongxing, Zack, Travis Ian, Morris, Luc G T, Lin, Kan, Hukkelhoven, Ellen, Raheja, Radhika, Tan, I-Li, Turcan, Sevin, Veeriah, Selvaraju, Meng, Shasha, Viale, Agnes, Schumacher, Steven E, Palmedo, Perry, Beroukhim, Rameen, and Chan, Timothy A

Subjects

CANCER genetics, TUMOR suppressor genes, TUMOR suppressor proteins, CANCER, GENOMICS, CYCLINS

Abstract

Coordinate control of different classes of cyclins is fundamentally important for cell cycle regulation and tumor suppression, yet the underlying mechanisms are incompletely understood. Here we show that the PARK2 tumor suppressor mediates this coordination. The PARK2 E3 ubiquitin ligase coordinately controls the stability of both cyclin D and cyclin E. Analysis of approximately 5,000 tumor genomes shows that PARK2 is a very frequently deleted gene in human cancer and uncovers a striking pattern of mutual exclusivity between PARK2 deletion and amplification of CCND1, CCNE1 or CDK4-implicating these genes in a common pathway. Inactivation of PARK2 results in the accumulation of cyclin D and acceleration of cell cycle progression. Furthermore, PARK2 is a component of a new class of cullin-RING-containing ubiquitin ligases targeting both cyclin D and cyclin E for degradation. Thus, PARK2 regulates cyclin-CDK complexes, as does the CDK inhibitor p16, but acts as a master regulator of the stability of G1/S cyclins. [ABSTRACT FROM AUTHOR]

Published

2014

6. Predictors of survival and recurrence after temporal bone resection for cancer.

Author

Morris, Luc G. T., Mehra, Saral, Shah, Jatin P., Bilsky, Mark H., Selesnick, Samuel H., and Kraus, Dennis H.

Subjects

TEMPORAL bone surgery, HEAD & neck cancer, SQUAMOUS cell carcinoma, PAROTID glands, PAROTIDECTOMY, CANCER

Abstract

Background The purpose of this study was to identify factors predictive of outcome in patients undergoing temporal bone resection (TBR) for head and neck cancer. Methods This was a retrospective study of 72 patients undergoing TBR. Factors associated with survival and recurrence were identified on multivariable regression. Results Most tumors were epithelial (81%), commonly (69%) involving critical structures. Cervical metastases were uncommon (6%). Squamous cell carcinoma (SCC) of the external auditory canal carried a high rate of parotid invasion (25%) and parotid nodal metastases (43%). The 5-year rate of overall survival (OS) was 62%; disease-specific survival (DSS), 70%; recurrence-free survival (RFS), 46%. Factors independently associated with outcome on multivariable analysis were margin status and extratemporal spread of disease to the parotid, mandible, or regional nodes. Recurrence was common (72%) in cT3-4 tumors. Conclusions Margin status and extratemporal disease spread are the strongest independent predictors of survival and recurrence. In SCC of the external auditory canal, high rates of parotid involvement support adjunctive parotidectomy. Risk of recurrence in T3-T4 tumors may support a role for adjuvant therapy. © 2011 Wiley Periodicals, Inc. Head Neck, 2012 [ABSTRACT FROM AUTHOR]

Published

2012

7. IDH1 mutation is sufficient to establish the glioma hypermethylator phenotype.

Author

Turcan, Sevin, Rohle, Daniel, Goenka, Anuj, Walsh, Logan A., Fang, Fang, Yilmaz, Emrullah, Campos, Carl, Fabius, Armida W. M., Lu, Chao, Ward, Patrick S., Thompson, Craig B., Kaufman, Andrew, Guryanova, Olga, Levine, Ross, Heguy, Adriana, Viale, Agnes, Morris, Luc G. T., Huse, Jason T., Mellinghoff, Ingo K., and Chan, Timothy A.

Subjects

EPIGENETICS, CANCER, TUMOR growth, DEHYDROGENASES, GLIOMAS

Abstract

Both genome-wide genetic and epigenetic alterations are fundamentally important for the development of cancers, but the interdependence of these aberrations is poorly understood. Glioblastomas and other cancers with the CpG island methylator phenotype (CIMP) constitute a subset of tumours with extensive epigenomic aberrations and a distinct biology. Glioma CIMP (G-CIMP) is a powerful determinant of tumour pathogenicity, but the molecular basis of G-CIMP remains unresolved. Here we show that mutation of a single gene, isocitrate dehydrogenase 1 (IDH1), establishes G-CIMP by remodelling the methylome. This remodelling results in reorganization of the methylome and transcriptome. Examination of the epigenome of a large set of intermediate-grade gliomas demonstrates a distinct G-CIMP phenotype that is highly dependent on the presence of IDH mutation. Introduction of mutant IDH1 into primary human astrocytes alters specific histone marks, induces extensive DNA hypermethylation, and reshapes the methylome in a fashion that mirrors the changes observed in G-CIMP-positive lower-grade gliomas. Furthermore, the epigenomic alterations resulting from mutant IDH1 activate key gene expression programs, characterize G-CIMP-positive proneural glioblastomas but not other glioblastomas, and are predictive of improved survival. Our findings demonstrate that IDH mutation is the molecular basis of CIMP in gliomas, provide a framework for understanding oncogenesis in these gliomas, and highlight the interplay between genomic and epigenomic changes in human cancers. [ABSTRACT FROM AUTHOR]

Published

2012