Seyed H Riazimand scite author profile

Seyed H Riazimand

3Publications

55Citation Statements Received

51Citation Statements Given

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Affiliations

Johannes Gutenberg University Mainz

Publications

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Molecular Biologic Characteristics of Seven New Cell Lines of Squamous Cell Carcinomas of the Head and Neck and Comparison to Fresh Tumor Tissue

Welkoborsky

Jacob²,

Riazimand³

et al. 2003

Oncology

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Background: Squamous cell carcinoma (SCC) is the most frequent malignant tumor of the upper aerodigestive tract. Cell lines of these tumors facilitate the investigation of various tumor biological parameters. This study was conducted to compare molecular biologic characteristics between cell lines and fresh tumor tissue. Methods: In seven SCC-derived cell lines, cytokeratin 5/6 and cytokeratin 19 expression, DNA content, chromosome aberrations and tumorigenicity were assessed in nude rats. Unbalanced numerical and structural chromosomal aberrations were investigated by comparative genomic hybridization (CGH), and results were compared to those obtained in fresh tumor tissues of the same patients. Results: All cell lines expressed cytokeratins 5/6 and 19, indicating their epidermoid origin. Tumor growth after transplantation into nude rats occurred in five of seven cell lines. Routine histology and immunohistochemical examinations confirmed SCC. Aneuploidy was detected in all cell lines, with a 2c deviation index ranging from 1.9 through 9.5 and a 5c exceeding rate ranging from 2.6 through 36.7%. The most frequent chromosomal aberrations in cell lines were overrepresentations of chromosomal material on chromosomes 15q, 7p (5 cases each), 3q, 5p (4 cases each), and 11q and 17q (3 cases each) and losses of chromosomal material on chromosomes 3p, 18q (3 cases each), and 19p and 7q (2 cases each). Comparing these results to CGH analysis of fresh tumor tissue from the same patients, overrepresentations of chromosomal material on 10q, 20q and 21q, along with loss of chromosomal material on 4q was detected more frequently in primary tumors, whereas overrepresentations on 7p and loss of chromosomal material on 7q were more frequently detected in cell lines. Nevertheless, there was a high degree of similarity of chromosomal alterations in cell lines and corresponding fresh tumor tissue. Conclusion: The data suggest a high degree of genetic similarity between tumor cells of cell lines and the tumors from which they were derived. Therefore, these cell lines can serve as an accurate model to investigate cell biology of SCC in vitro.

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Analysis of cytogenetic aberrations in esthesioneuroblastomas by comparative genomic hybridization

Riazimand¹,

Brieger²,

Jacob

et al. 2002

Cancer Genetics and Cytogenetics

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Investigations for Fine Mapping of Amplifications in Chromosome 3q26.3–28 Frequently Occurring in Squamous Cell Carcinomas of the Head and Neck

et al. 2002

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Objective: Overrepresentations of chromosomal material on the long arm of chromosome 3 frequently occur in squamous cell carcinoma of the head and neck. This experimental study was conducted for further fine mapping of these overrepresentations by interphase fluorescence in situ hybridization (FISH) of tumor cells in cell lines. Methods: Seven cell lines derived from squamous cell carcinomas of the head and neck were investigated by comparative genomic hybridization to analyze unbalanced chromosomal aberrations. Overrepresentations of chromosomal material on the telomeric part of the long arm of chromsome 3 were further analyzed by interphase FISH using YAC contig clones. Results: Chromosomal aberrations which frequently occurred were overrepresentations on 5p (n = 4), 7p (n = 5), 11q13 (n = 3), 15q (n = 5), 17q (n = 3), 19q (n = 2), 20q (n = 2) and 22q (n = 3). Reoccurring losses of chromosomal material were found in 3p (n = 3), 7q (n = 2), 18q (n = 3) and 19p (n = 2). Gains of chromosomal material on chromosome 3q were found in 4 out of 7 cell lines, with a high copy number of amplifications occurring in the chromosomal region of 3q26.3–28. Further experiments revealed a physical mapping of this amplification to a narrow band of 13.8 Mbp on chromosome 3q, whose amplification borders were represented by the YAC clones 754_f_3 centomeric and 955_b_2 telomeric. Conclusions: By FISH, the amplification of chromosomal material on 3q could be fine mapped on a narrow band on 3q26.3–27. This aberration can be considered as a breakpoint in tumorigenesis. Putative candidate oncogenes and tumor suppressor genes located in this region might be a target for mutations leading to tumor progression.

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