Your search keyword '"Jesse Chung Sean Pang"' showing total 3 results

1. Identification of novel regions of allelic loss in ependymomas by high-resolution allelotyping with 384 microsatellite markers

Author

Ping-pin Zheng, Jesse Chung Sean Pang, Ho Keung Ng, Carol Y.K. Tong, Wai Sang Poon, and Alexander R. Chang

Subjects

Genetics, Ependymoma, Adult, Male, Autosome, Adolescent, Brain Neoplasms, Brain, Chromosome Mapping, Loss of Heterozygosity, Biology, Middle Aged, medicine.disease, Allelotype Analysis, Loss of heterozygosity, medicine, Microsatellite, Humans, Identification (biology), Female, Child, Allelic loss, Comparative genomic hybridization, Microsatellite Repeats

Abstract

Object. Ependymomas are rare glial neoplasms; little is known about the molecular pathogenesis of this tumor entity. In a previous study the authors found multiple genomic imbalances in ependymomas resected in 20 adults and eight children, including loss of chromosomes 1p, 6, 16, 17, 19q, 20q, and 22q, as well as gain of chromosomes 4q, 5q, 7q, 9q, and 12q on comparative genomic hybridization. The aim of this study was to map in more detail the commonly affected regions in ependymomas. Methods. A comprehensive allelotype analysis of 16 ependymomas was conducted using 384 microsatellite markers that span the 22 autosomes. Based on this high-resolution loss of heterozygosity analysis, multiple overlapping deletion regions were identified as follows: 6q25.2–27, 16p12–13.1, 16q22.3–24.1, 17q22–24, 19q12–13.2, 20q13.2–13.3, and 22q13.1–13.3. Conclusions. These data confirmed previous reports that loss of chromosomes 17 and 22 were common in ependymomas. Moreover, the authors were able to identify loss of chromosomes 13, 16, 19, and 20 as novel findings in ependymomas. It is believed that potential tumor suppressor genes that reside in these commonly deleted regions may contribute to the molecular tumorigenesis of ependymomas.

Published

2001

2. Analysis of loss of heterozygosity on chromosomes 10q, 11, and 16 in medulloblastomas

Author

Edith Y.Y. Chong, Xiao-lu Yin, Yanhui Liu, Jesse Chung Sean Pang, Ho Keung Ng, Yue Cheng, and Wai Sang Poon

Subjects

Adult, Male, Adolescent, Loss of Heterozygosity, Locus (genetics), Biology, medicine.disease_cause, law.invention, Loss of heterozygosity, Chromosome 16, law, medicine, Chromosomes, Human, Humans, Allele, Child, Gene, Polymerase chain reaction, Aged, Genetics, Chromosomes, Human, Pair 10, Chromosomes, Human, Pair 11, Child, Preschool, Microsatellite, Female, Neoplasm Recurrence, Local, Carcinogenesis, Chromosomes, Human, Pair 16, Medulloblastoma, Microsatellite Repeats

Abstract

Object. The loss of genetic material from specific chromosome loci is a common feature in the oncogenesis of tumors and is often indicative of the presence of important tumor suppressor genes at these loci. Recent molecular genetic analyses have demonstrated frequent loss of chromosomes 10q, 11, and 16 in medulloblastomas. The aim of this study was to localize the targeted deletion regions on the three aforementioned chromosomes in medulloblastomas. Methods. Loss of heterozygosity (LOH) was examined on chromosomes 10q, 11, and 16 in a series of 22 primary and two recurrent medulloblastomas by using polymerase chain reaction—based microsatellite analysis. The DNA extracted from the tumors and corresponding normal blood samples were amplified independently in the presence of radioactively labeled microsatellite primers, resolved by denaturing gel electrophoresis and processed for autoradiography. The DNA obtained from control blood samples that displayed allelic heterozygosity at a given microsatellite locus were considered informative. Loss of heterozygosity was inferred when the allelic signal intensity of the tumor sample was reduced by at least 40%, relative to that of the constitutional control. The LOH analysis demonstrated that deletions of chromosomes 10q, 11p, and 16q are recurrent genetic events in the development of medulloblastomas. Three subchromosomal regions of loss have been identified and are localized to the deleted in malignant brain tumors 1 [DMBT1] gene site on chromosomes 10q25, 11p13–11p15.1, and 16q24.1–24.3. Conclusions. These results indicate that DMBT1 is closely associated with the oncogenesis of medulloblastomas and highlight regions of loss on chromosomes 11p and 16q for further fine mapping and cloning of candidate tumor suppressor genes that are important for the genesis of medulloblastoma.

Published

2001

3. Detection of chromosomal imbalances in central neurocytomas by using comparative genomic hybridization

Author

Ho Keung Ng, Angela Bik Yu Hui, Xiao Lu Yin, and Jesse Chung Sean Pang

Subjects

Adult, Male, Candidate gene, Adolescent, Biology, DNA sequencing, chemistry.chemical_compound, Central neurocytoma, medicine, Humans, Neurocytoma, Metaphase, Cloning, Genetics, Chromosome Aberrations, Chromosomes, Human, Pair 10, Chromosome, Chromosome Mapping, Nucleic Acid Hybridization, Middle Aged, medicine.disease, Cell Transformation, Neoplastic, chemistry, Proto-Oncogene Proteins c-bcl-2, Chromosomes, Human, Pair 2, Female, Chromosomes, Human, Pair 18, Cerebral Ventricle Neoplasms, DNA, Comparative genomic hybridization

Abstract

Object. Central neurocytomas are rare neuronal tumors commonly found in the intraventricular regions. Little is known about the tumorigenesis of these neoplasms. The aim of this study was to provide an overview of genetic imbalances in central neurocytomas.Methods. In this study, comparative genomic hybridization was used to identify DNA sequence copy number changes (losses and gains) in a series of 10 central neurocytomas. Tumor DNA and normal reference DNA were differentially labeled and allowed to cohybridize to normal metaphase chromosomes. After hybridization and fluorescent staining of the bound DNA, regions of gain or of loss of DNA sequences were detected as changes in the tumor/normal fluorescence intensity ratio along the target metaphase chromosomes. A gain of DNA sequence was detected in chromosomes 2p, 10q, and 18q. A protooncogene, Bcl2, which maps to 18q21, was evaluated by immunohistochemical analysis to determine its role in the formation of central neurocytomas.Conclusions. In this study the authors identified recurrent genetic changes on chromosomes 2p, 10q, and 18q in central neurocytomas and highlighted chromosomal regions for additional mapping and cloning of candidate genes that are important in the development of central neurocytomas.

Published

2000