Search

Your search keyword '"Hill, Victoria K."' showing total 10 results
Start Over Author "Hill, Victoria K." Database Complementary Index
10 results on '"Hill, Victoria K."'

3. Correction of PTEN mutations in glioblastoma cell lines via AAV-mediated gene editing.

Author

Hill, Victoria K., Kim, Jung-Sik, James, C. David, and Waldman, Todd

Subjects
GLIOBLASTOMA multiforme, TUMOR suppressor genes, GENOME editing, GENETIC mutation, CELL lines, GENETICS
Abstract

PTEN is among the most commonly mutated tumor suppressor genes in human cancer. However, studying the role of PTEN in the pathogenesis of cancer has been limited, in part, by the paucity of human cell-based isogenic systems that faithfully model PTEN loss. In an effort to remedy this problem, gene editing was used to correct an endogenous mutant allele of PTEN in two human glioblastoma multiforme (GBM) cell lines– 42MGBA and T98G. PTEN correction resulted in reduced cellular proliferation that was Akt-dependent in 42MGBA cells and Akt-independent in T98G cells. This is the first report of human cancer cell lines in which mutant PTEN has been corrected by gene editing. The isogenic sets of gene edited cell lines reported here will likely prove useful for further study of PTEN mutations in the pathogenesis of cancer, and for the discovery and validation of novel therapeutics targeting the PTEN pathway. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

4. Stability of the CpG island methylator phenotype during glioma progression and identification of methylated loci in secondary glioblastomas.

Author

Hill, Victoria K., Shinawi, Thoraia, Ricketts, Christopher J., Krex, Dietmar, Schackert, Gabriele, Bauer, Julien, Wenbin Wei, Cruickshank, Garth, Maher, Eamonn R., and Latif, Farida

Subjects
GLIOMAS, CANCER invasiveness, METHYLATION, GLIOBLASTOMA multiforme, PROTEIN precursors
Abstract

Background: Grade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differences in the methylation of individual genes. A hypermethylator phenotype in grade IV GBMs is now well documented however there has been little comparison between global methylation profiles of pGBM and sGBM samples or of methylation profiles between paired early and late sGBM samples. Methods: We performed genome-wide methylation profiling of 20 matched pairs of early and late gliomas using the Infinium HumanMethylation450 BeadChips to assess methylation at >485,000 cytosine positions within the human genome. Results: Clustering of our data demonstrated a frequent hypermethylator phenotype that associated with IDH1 mutation in sGBM tumors. In 80% of cases, the hypermethylator status was retained in both the early and late tumor of the same patient, indicating limited alterations to genome-wide methylation during progression and that the CIMP phenotype is an early event. Analysis of hypermethylated loci identified 218 genes frequently methylated across grade II, III and IV tumors indicating a possible role in sGBM tumorigenesis. Comparison of our sGBM data with TCGA pGBM data indicate that IDH1 mutated GBM samples have very similar hypermethylator phenotypes, however the methylation profiles of the majority of samples with WT IDH1 that do not demonstrate a hypermethylator phenotype cluster separately from sGBM samples, indicating underlying differences in methylation profiles. We also identified 180 genes that were methylated only in sGBM. Further analysis of these genes may lead to a better understanding of the pathology of sGBM vs pGBM. Conclusion: This is the first study to have documented genome-wide methylation changes within paired early/late astrocytic gliomas on such a large CpG probe set, revealing a number of genes that maybe relevant to secondary gliomagenesis. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

5. Stability of the CpG island methylator phenotype during glioma progression and identification of methylated loci in secondary glioblastomas

Author

Hill, Victoria K, Shinawi, Thoraia, Ricketts, Christopher J, Krex, Dietmar, Schackert, Gabriele, Bauer, Julien, Wei, Wenbin, Cruickshank, Garth, Maher, Eamonn R, and Latif, Farida

Abstract

Background: Grade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differences in the methylation of individual genes. A hypermethylator phenotype in grade IV GBMs is now well documented however there has been little comparison between global methylation profiles of pGBM and sGBM samples or of methylation profiles between paired early and late sGBM samples. Methods: We performed genome-wide methylation profiling of 20 matched pairs of early and late gliomas using the Infinium HumanMethylation450 BeadChips to assess methylation at >485,000 cytosine positions within the human genome. Results: Clustering of our data demonstrated a frequent hypermethylator phenotype that associated with IDH1 mutation in sGBM tumors. In 80% of cases, the hypermethylator status was retained in both the early and late tumor of the same patient, indicating limited alterations to genome-wide methylation during progression and that the CIMP phenotype is an early event. Analysis of hypermethylated loci identified 218 genes frequently methylated across grade II, III and IV tumors indicating a possible role in sGBM tumorigenesis. Comparison of our sGBM data with TCGA pGBM data indicate that IDH1 mutated GBM samples have very similar hypermethylator phenotypes, however the methylation profiles of the majority of samples with WT IDH1 that do not demonstrate a hypermethylator phenotype cluster separately from sGBM samples, indicating underlying differences in methylation profiles. We also identified 180 genes that were methylated only in sGBM. Further analysis of these genes may lead to a better understanding of the pathology of sGBM vs pGBM. Conclusion: This is the first study to have documented genome-wide methylation changes within paired early/late astrocytic gliomas on such a large CpG probe set, revealing a number of genes that maybe relevant to secondary gliomagenesis. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

6. Tumor-Specific Hypermethylation of Epigenetic Biomarkers, Including SFRP1, Predicts for Poorer Survival in Patients from the TCGA Kidney Renal Clear Cell Carcinoma (KIRC) Project.

Author

Ricketts, Christopher J., Hill, Victoria K., and Linehan, W. Marston

Subjects
RENAL cell carcinoma, TUMOR markers, EPIGENETICS, TUMOR proteins, DNA methylation, SCIENTIFIC observation, HEALTH outcome assessment, PATIENTS, GENETICS
Abstract

The recent publication of the TCGA Kidney Renal Clear Cell Carcinoma (KIRC) project has provided an immense wealth and breadth of data providing an invaluable tool for confirmation and expansion upon previous observations in a large data set containing multiple data types including DNA methylation, somatic mutation, and clinical information. In clear cell renal cell carcinoma (CCRCC) many genes have been demonstrated to be epigenetically inactivated by promoter hypermethylated and in a small number of cases to be associated with clinical outcome. This study created two cohorts based on the Illumina BeadChip array used to confirm the frequency of tumor-specific hypermethylation of these published hypermethylated genes, assess the impact of somatic mutation or chromosomal loss and provide the most comprehensive assessment to date of the association of this hypermethylation with patient survival. Hypermethylation of the Fibrillin 2 (FBN2) gene was the most consistent epigenetic biomarker for CCRCC across both cohorts in 40.2% or 52.5% of tumors respectively. Hypermethylation of the secreted frizzled-related protein 1 (SFRP1) gene and the basonuclin 1 (BNC1) gene were both statistically associated with poorer survival in both cohorts (SFRP1 - p = <0.0001 or 0.0010 and BNC1 - p = <0.0001 or 0.0380) and represented better independent markers of survival than tumor stage, grade or dimension in one cohort and tumor stage or dimension in the other cohort. Loss of the SFRP1 protein can potentially activate the WNT pathway and this analysis highlighted hypermethylation of several other WNT pathway regulating genes and demonstrated a poorer survival outcome for patients with somatic mutation of these genes. The success of demethylating drugs in hematological malignances and the current trials in solid tumors suggest that the identification of clinically relevant hypermethylated genes combined with therapeutic advances may improve the effectiveness and usefulness of such drugs in clear cell renal cell carcinoma. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

7. The Genetics of Melanoma: Recent Advances.

Author

Hill, Victoria K., Gartner, Jared J., Samuels, Yardena, and Goldstein, Alisa M.

Subjects
MELANOMA, GENETICS, GENES, GENETIC mutation, TUMORS, GENOMES, NUCLEOTIDES
Abstract

Cutaneous malignant melanoma results from the interplay of genetic, host, and environmental factors. Genetic factors implicated in melanoma etiology include inherited high-, intermediate-, and low-risk susceptibility genes as well as numerous somatic mutations in melanoma tumors. CDKN2A is the major high-risk melanoma susceptibility gene identified to date. Recent identification of low-risk loci has been accomplished predominantly through genome-wide association studies. Whole-exome and whole-genome studies have identified numerous genes somatically altered in melanoma tumors and highlighted a higher mutation load in melanoma tumors compared with those in other cancers. This higher load is believed to be attributable to the preponderance of cytosine-to-thymine nucleotide substitutions as a result of UV radiation exposure. Technological advances, particularly next-generation sequencing, have increased the opportunities for germline and somatic gene discovery in melanoma and are opening up new avenues for understanding melanoma pathogenesis as well as leading to new opportunities for treatment. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

9. Identification of 5 novel genes methylated inbreast and other epithelial cancers.

Author

Hill, Victoria K, Hesson, Luke B., Dansranjavin, Temuujin, Dallol, Ashraf, Bieche, Ivan, Vacher, Sophie, Tommasi, Stella, Dobbins, Timothy, Gentle, Dean, Euhus, David, Lewis, Cheryl, Dammann, Reinhard, Ward, Robyn L., Minna, John, Maher, Eammon R., Pfeifer, Gerd P., and Latif, Farida

Subjects
CANCER research, BREAST cancer, CARCINOMA, METHYLATION, CANCER cells, CELL lines, BIOTECHNOLOGY
Abstract

Background: There are several high throughput approaches to identify methylated genes in cancer. We utilized one such recently developed approach, MIRA (methylated-CpG island recovery assay) combined with CpG island arrays to identify novel genes that are epigenetically inactivated in breast cancer. Results: Using this approach we identified numerous CpG islands that demonstrated aberrant DNA methylation in breast cancer cell lines. Using a combination of COBRA and sequencing of bisulphite modified DNA, we confirmed 5 novel genes frequently methylated in breast tumours; EMILIN2, SALL1, DBC1, FBLN2 and CIDE-A. Methylation frequencies ranged from between 25% and 63% in primary breast tumours, whilst matched normal breast tissue DNA was either unmethylated or demonstrated a much lower frequency of methylation compared to malignant breast tissue DNA. Furthermore expression of the above 5 genes was shown to be restored following treatment with a demethylating agent in methylated breast cancer cell lines. We have expanded this analysis across three other common epithelial cancers (lung, colorectal, prostate). We demonstrate that the above genes show varying levels of methylation in these cancers. Lastly and most importantly methylation of EMILIN2 was associated with poorer clinical outcome in breast cancer and was strongly associated with estrogen receptor as well as progesterone receptor positive breast cancers. Conclusion: The combination of the MIRA assay with CpG island arrays is a very useful technique for identifying epigenetically inactivated genes in cancer genomes and can provide molecular markers for early cancer diagnosis, prognosis and epigenetic therapy. [ABSTRACT FROM AUTHOR]

Published
2010
Full Text
View/download PDF

10. Author Correction: RGS7 is recurrently mutated in melanoma and promotes migration and invasion of human cancer cells.

Author

Qutob, Nouar, Masuho, Ikuo, Alon, Michal, Emmanuel, Rafi, Cohen, Isadora, Di Pizio, Antonella, Madore, Jason, Elkahloun, Abdel, Ziv, Tamar, Levy, Ronen, Gartner, Jared J., Hill, Victoria K., Lin, Jimmy C., Hevroni, Yael, Greenberg, Polina, Brodezki, Alexandra, Rosenberg, Steven A., Kosloff, Mickey, Hayward, Nicholas K., and Admon, Arie

Abstract

A correction to this article has been published and is linked from the HTML and PDF versions of this paper. The error has not been fixed in the paper. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results