Hedwig Richter scite author profile

Cytogenetic changes are widely unknown for nonpolypoid (synonymously termed as "flat" or "depressed") colorectal adenomas. A comparison with polypoid adenomas will contribute to the discussion whether different genetic pathways for colorectal tumorigenesis depending on its origin from nonpolypoid or polypoid adenomas exist. Tissue samples of nonpolypoid (n ‫؍‬ 22), polypoid (n ‫؍‬ 28) adenomas, carcinomas ex-nonpolypoid adenomas (n ‫؍‬ 9), carcinomas ex-polypoid adenomas (n ‫؍‬ 14), and normal colonic mucosa (n ‫؍‬ 9) were investigated by comparative genomic hybridization of whole genomic DNA. Chromosomal imbalances were detected from average comparative genomic hybridization profiles for each entity. Nonpolypoid adenomas show recurrent chromosomal losses on chromosomes 16, 17p, 18, 20, and 22 and gains on chromosomes 2q, 4q, 5, 6, 8q, 12q, and 13q. In polypoid adenomas losses of whole chromosomes 16, 18, and 22 and gains of chromosomes 7q and 13 were detected. The frequency of copy number changes was higher in nonpolypoid compared to polypoid adenomas and early onset of chromosomal changes became apparent in low-grade dysplasias of nonpolypoid adenomas. Gains on chromosomes 2q, 5, 6, 8q, and 12q and losses on chromosomes 17p and 20 occurred exclusively in nonpolypoid adenomas, whereas 16p dele-

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Chromosomal Imbalances in Post-Chernobyl Thyroid Tumors

Richter¹,

Braselmann²,

Hieber³

et al. 2004

Thyroid

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Tissue samples from 60 post-Chernobyl childhood thyroid tumors have been investigated. We used comparative genomic hybridization (CGH) to detect chromosomal gains and losses within the tumor DNA. This is the first CGH study on childhood thyroid tumors. The post-Chernobyl tumors showed chromosomal imbalances in 30% of tumors. The most frequent DNA copy number changes in post-Chernobyl tumors involved chromosomes 2, 7q11.2-21, 13q21-22, 21 (DNA gains), and chromosomes 16p/q, 20q, 22q (DNA losses). Some of these specific alterations detected in post-Chernobyl thyroid tumors (deletions on chromosomes 16p/q and 22q) have previously been reported in thyroid tumors as associated with an aggressive biologic behavior and may therefore also account for the more aggressive phenotype of papillary thyroid carcinoma (PTC) found in post- Chernobyl tumors. Eighteen percent of post-Chernobyl PTC that exhibit RET rearrangements also showed chromosomal imbalances indicating that either additional genetic events are involved in this subset of tumors, or that intratumoral genetic heterogeneity exists in these tumors, suggesting a oligoclonal pattern to tumor development.

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Gene amplification of atypical PKC‐binding PARD3 in radiation‐transformed neoplastic retinal pigment epithelial cell lines

Zitzelsberger¹,

Hieber²,

Richter³

et al. 2004

Genes Chromosomes & Cancer

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Neoplastic transformation induced by ionizing radiation was studied using a human retinal pigment epithelial cell line immortalized by telomerase. Radiation-transformed cell clones were tumorigenic in athymic mice and were analyzed by G-banding and comparative genomic hybridization (CGH). Radiation-transformed cloned cell lines and cell lines derived from tumors produced in athymic nude mice following transplantation exhibited a recurrent karyotype:45,XX,der(10),-13. CGH showed an amplification of 10p11.2 and a deletion of the remaining 10p. Positional cloning of the amplified region by FISH analysis and subsequent sequence analysis of BAC clones showing amplified FISH signals identified the candidate gene PARD3. This gene also was found to be transcriptionally expressed at an increased level. The findings indicate that PARD3 may play an important role in radiation-induced carcinogenesis of RPE cells. This is the first evidence for PARD3 amplification in human cancer cells.

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Microsatellite instability and loss of heterozygosity in radiation-associated thyroid carcinomas of Belarussian children and adults

Richter¹,

Lohrer²,

Hieber³

et al. 1999

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Hedwig Richter

Advanced glycation endproducts stimulate the MAP‐kinase pathway in tubulus cell line LLC‐PK₁

Distinct Chromosomal Imbalances in Nonpolypoid and Polypoid Colorectal Adenomas Indicate Different Genetic Pathways in the Development of Colorectal Neoplasms

Chromosomal Imbalances in Post-Chernobyl Thyroid Tumors

Gene amplification of atypical PKC‐binding PARD3 in radiation‐transformed neoplastic retinal pigment epithelial cell lines

Microsatellite instability and loss of heterozygosity in radiation-associated thyroid carcinomas of Belarussian children and adults

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Hedwig Richter

Advanced glycation endproducts stimulate the MAP‐kinase pathway in tubulus cell line LLC‐PK1

Distinct Chromosomal Imbalances in Nonpolypoid and Polypoid Colorectal Adenomas Indicate Different Genetic Pathways in the Development of Colorectal Neoplasms

Chromosomal Imbalances in Post-Chernobyl Thyroid Tumors

Gene amplification of atypical PKC‐binding PARD3 in radiation‐transformed neoplastic retinal pigment epithelial cell lines

Microsatellite instability and loss of heterozygosity in radiation-associated thyroid carcinomas of Belarussian children and adults

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Product

Resources

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Advanced glycation endproducts stimulate the MAP‐kinase pathway in tubulus cell line LLC‐PK₁