Gert Auer scite author profile

Representational Oligonucleotide Microarray Analysis (ROMA) detects genomic amplifications and deletions with boundaries defined at a resolution of ∼50 kb. We have used this technique to examine 243 breast tumors from two separate studies for which detailed clinical data were available. The very high resolution of this technology has enabled us to identify three characteristic patterns of genomic copy number variation in diploid tumors and to measure correlations with patient survival. One of these patterns is characterized by multiple closely spaced amplicons, or “firestorms,” limited to single chromosome arms. These multiple amplifications are highly correlated with aggressive disease and poor survival even when the rest of the genome is relatively quiet. Analysis of a selected subset of clinical material suggests that a simple genomic calculation, based on the number and proximity of genomic alterations, correlates with life-table estimates of the probability of overall survival in patients with primary breast cancer. Based on this sample, we generate the working hypothesis that copy number profiling might provide information useful in making clinical decisions, especially regarding the use or not of systemic therapies (hormonal therapy, chemotherapy), in the management of operable primary breast cancer with ostensibly good prognosis, for example, small, node-negative, hormone-receptor-positive diploid cases.

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Gain of chromosome 3q defines the transition from severe dysplasia to invasive carcinoma of the uterine cervix.

Heselmeyer

Schröck

Manoir

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

419

330

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We have chosen tumors of the uterine cervix as a model system to identify chromosomal aberrations that occur during carcinogenesis. A phenotype/genotype correlation was established in defined regions of archived, formalinfixed, and hematoxylin/eosin-stained tissue sections that were dissected from normal cervical epithelium (n = 3), from mild (n = 4), moderate (n = 6), and severe dysplasias/carcinomas in situ (CIS) (n = 13), and from invasive carcinomas (n = 10) and investigated by comparative genomic hybridization. The same tissues were analyzed for DNA ploidy, proliferative activity, and the presence of human papillomavirus (HPV) of the carcinomas and was also found to have undergone a high-level copy-number increase (amplification). We therefore conclude that the gain of chromosome 3q that occurs in HPV16-infected, aneuploid cells represents a pivotal genetic aberration at the transition from severe dysplasia/CIS to invasive cervical carcinoma.The multistep nature of carcinogenesis is firmly established (1-4). The sequence of genetic aberrations can be studied best in organs in which a histomorphological phenotype is defined for certain stages of tumor progression-e.g., colon cancer (5) and cancer of the uterine cervix. Regarding carcinomas of the cervix, infection with human papillomavirus (HPV) is known to play a crucial role in the immortalization of epithelial cells (6, 7). However, the persistence of HPV infection in women that do not develop dysplasias or carcinomas (8) and the long latency of the transition from severe dysplasia/carcinoma in situ (CIS) to carcinoma strongly suggest that factors in addition to HPV infection are required for the malignant transformation of epithelial cells (9). In analogy to colon carcinogenesis, mutations affecting tumor-suppressor genes or cellular oncogenes are likely candidates for additional "hits." Cytogenetically, those mutations are often present as specific chromosomal aberrations. However, relatively little is known about tumor-specific recurrent chromosomal aberrations in dysplastic lesions and primary invasive carcinomas of the uterine cervix-the second most frequent carcinoma in women worldwide-despite the fact that the importance of chromosomal aberrations in cervical carcinogenesis was recognized some 25 years ago (10). However, to date no landmark aberrations have been identified in cervical carcinomas (11, 12).The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.The scarcity of data on recurrent chromosomal aberrations that occur during the initiation and progression of cervical tumors prompted us to screen tissue from defined stages of cervical tumorigenesis by a molecular cytogenetic approach termed comparative genomic hybridization (CGH) (13,14). CGH serves as a screening test for DNA copy-number changes in tumor genomes. CGH is based on a two-color fluorescence in situ hybridization, whe...

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Chromosomal instability determines taxane response

Swanton

Nicke²,

Schuett³

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

248

201

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Microtubule-stabilizing (MTS) agents, such as taxanes, are important chemotherapeutics with a poorly understood mechanism of action. We identified a set of genes repressed in multiple cell lines in response to MTS agents and observed that these genes are overexpressed in tumors exhibiting chromosomal instability (CIN). Silencing 22/50 of these genes, many of which are involved in DNA repair, caused cancer cell death, suggesting that these genes are involved in the survival of aneuploid cells. Overexpression of these ''CIN-survival'' genes is associated with poor outcome in estrogen receptor-positive breast cancer and occurs frequently in basal-like and Her2-positive cases. In diploid cells, but not in chromosomally unstable cells, paclitaxel causes repression of CIN-survival genes, followed by cell death. In the OV01 ovarian cancer clinical trial, a high level of CIN was associated with taxane resistance but carboplatin sensitivity, indicating that CIN may determine MTS response in vivo. Thus, pretherapeutic assessment of CIN may optimize treatment stratification and clinical trial design using these agents.chemotherapy ͉ drug resistance

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Genomic changes defining the genesis, progression, and malignancy potential in solid human tumors: A phenotype/genotype correlation

Ried

Heselmeyer‐Haddad

Blegen

et al. 1999

Genes Chromosom. Cancer

246

187

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The transition of normal epithelium to invasive carcinoma occurs sequentially. In colorectal and cervical carcinogenesis, this transition is reflected by histomorphologically defined grades of increasing dysplasia that untreated may progress to invasive disease. In an attempt to understand the role of chromosomal aberrations during tumorigenesis we have applied comparative genomic hybridization using DNA extracted from defined stages of colorectal and cervical tumors, from low‐ and high‐grade astrocytic tumors and from diploid and aneuploid breast carcinomas. Genetic instability, as measured by the number of chromosomal copy alterations per case, increases significantly at the transition from precursor lesions to invasive carcinomas and continues to increase with tumor stage. Aggressive tumors have a higher number of copy alterations per case. High‐level copy number changes (amplifications) become more prevalent in advanced‐stage disease. Subtractive karyograms of chromosomal gains and losses were used to map tumor stage‐specific chromosomal aberrations and clearly showed that nonrandom chromosomal aberrations occur during disease progression. In colorectal and cervical tumors, chromosomal copy number changes were correlated with nuclear DNA content, proliferative activity, expression levels of the tumor suppressor gene TP53, and the cyclin‐dependent kinase inhibitor p21/WAF1, as well as the presence of viral genomes. Here we summarize and review the results of this comprehensive phenotype/genotype correlation and discuss the relevance of stage‐specific chromosomal aberrations with respect to diagnostic applications. Genes Chromosomes Cancer 25:195–204, 1999. Published 1999 Wiley‐Liss, Inc.

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Gert Auer

Novel patterns of genome rearrangement and their association with survival in breast cancer

Gain of chromosome 3q defines the transition from severe dysplasia to invasive carcinoma of the uterine cervix.

Chromosomal instability determines taxane response

Genomic changes defining the genesis, progression, and malignancy potential in solid human tumors: A phenotype/genotype correlation

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