Gert Auer scite author profile

The clinical course, histopathology, and tumor DNA distribution patterns were analyzed in 95 patients with parathyroid cancer. The median follow-up was 6 years (range 1-25 years). Eighteen patients received a benign diagnosis at their first operation. The initial procedure was tumor resection in 42 patients and tumor resection plus partial or total thyroidectomy in 40 patients. Forty patients developed recurrent disease and 36 patients underwent 1 to 9 re-operations. Cervical recurrence and lung metastases were most commonly encountered. The median time from the first operation to recurrence was 33 months (range 1-228 month). Twenty-one patients died of parathyroid cancer a median of 28 months following discovery of their first recurrence. The histopathological reevaluation confirmed unequivocal parathyroid cancer, i.e., infiltration and/or metastases, in 41 cases. Fifty-four cases lacked these criteria but showed various forms of atypia. Image cytometry demonstrated tumor aneuploidy in 26 of 39 cases with definite cancer by histological criteria, compared to the 13 of the 52 with equivocal histological diagnosis. Twelve patients with aneuploid tumors and 7 patients with euploid tumors died of parathyroid cancer. In a multivariate analysis, patients treated with extensive surgery, i.e., tumor resection and unilateral or bilateral thyroidectomy, had a longer survival and a longer relapse-free period. Other factors of importance for survival were age and histopathology. Histopathology and an aberrant nuclear DNA content were important factors for the time to recurrence. We conclude that histopathology alone is unable to confirm a cancer diagnosis in the absence of infiltration and/or metastases. Because recurrence may occur late, patients should be followed closely. Even repeated surgical interventions have proven beneficial.

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Advanced‐stage cervical carcinomas are defined by a recurrent pattern of chromosomal aberrations revealing high genetic instability and a consistent gain of chromosome arm 3q

Heselmeyer

Macville

Blegen

et al. 1997

Genes Chromosom. Cancer

124

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Time-Sensitive Reversal of Hyperplasia in Transgenic Mice Expressing SV40 T Antigen

Ewald

Efrat

et al. 1996

Science

224

128

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The role of viral oncoprotein expression in the maintenance of cellular transformation was examined as a function of time through controlled expression of simian virus 40 T antigen (TAg). Expression of TAg in the submandibular gland of transgenic mice from the time of birth induced cellular transformation and extensive ductal hyperplasia by 4 months of age. The hyperplasia was reversed when TAg expression was silenced for 3 weeks. When TAg expression was silenced after 7 months, however, the hyperplasia persisted even though TAg was absent. Although the polyploidy of ductal cells could be reversed at 4 months of age, cells at 7 months of age remained polyploid even in the absence of TAg. These results support a model of time-dependent multistep tumorigenesis, in which virally transformed cells eventually lose their dependence on the viral oncoprotein for maintenance of the transformed state.

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Centrosome amplification and instability occurs exclusively in aneuploid, but not in diploid colorectal cancer cell lines, and correlates with numerical chromosomal aberrations

Ghadimi¹,

Schr�ck²,

Sackett³

et al. 2000

Genes Chromosom. Cancer

109

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Measurement of the nuclear DNA content allows classification of human cancers as either diploid or aneuploid. To gain further insight into mechanisms of aneuploidy, we compared the cytogenetic profile of mismatch-repair-deficient diploid versus mismatch-repair-proficient aneuploid colorectal carcinoma cell lines using comparative genomic hybridization and spectral karyotyping. Aneuploid carcinomas revealed an average of 19 chromosomal imbalances per cell line. Such numerical aberrations were exceedingly scarce in the diploid tumors. This pattern of chromosomal aberrations is consistent with a mechanism involving the impairment of chromosome segregation fidelity during mitotic cell division. In support of this idea, we demonstrate the exclusive occurrence of centrosome amplification and instability in all of the aneuploid tumor cell lines analyzed. All diploid tumors contained centrosomes that were functionally and structurally indistinguishable from those in normal human fibroblasts. Due to the observed differences in centrosomes between these two classes of tumors, we incubated the cells with the microtubule depolymerizing drugs nocodazole and griseofulvin. Our results indicate that the aneuploid tumor cell lines have an increased sensitivity to these reagents and a delay in aster formation and microtubule regrowth. However, microtubule nucleation was initiated from one or two centers in both the diploid and aneuploid cells. These observations support the notion that the integrity of the centrosome plays a central role in the development of aneuploidy. Genes Chromosomes Cancer 27:183-190, 2000. Published 2000 Wiley-Liss, Inc.

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Comparative genomic hybridization reveals a specific pattern of chromosomal gains and losses during the genesis of colorectal tumors

Ried¹,

Knutzen²,

Steinbeck³

et al. 1996

Genes Chromosom. Cancer

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Comparative genomic hybridization was used to screen the DNA extracted from histologically defined tissue sections from consecutive stages of colorectal carcinogenesis for chromosomal aberrations. No aberrations were detected in normal epithelium (n = 14). Gain of chromosome 7 occurred as a single event in low-grade adenomas (n = 14). In high-grade adenomas (n = 12), and overrepresentation of chromosomes 7 and 20 was present in 30% of the cases analyzed. The transition to colon carcinomas (n = 16) was characterized by the emergence of multiple chromosomal aberrations. Chromosomes 1, 13, and 20 and chromosome arms 7p and 8q were frequently gained, whereas chromosome 4 and chromosome arms 8p and 18q were recurrently underrepresented. The same tissue sections that were used for CGH were analyzed by means of DNA-ploidy measurements and immunohistochemical staining to quantify proliferative activity and p21/WAF-1 and TP53 expression. We observed that crude aneuploidy and increased proliferative activity are early events in colorectal carcinogenesis, followed by TP53 overexpression and the acquisition of recurrent chromosomal gains and losses during the progression from high-grade adenomas to invasive carcinomas.

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Centrosome amplification and instability occurs exclusively in aneuploid, but not in diploid colorectal cancer cell lines, and correlates with numerical chromosomal aberrations

Ghadimi

Sackett

Difilippantonio

et al. 2000

Genes Chromosom. Cancer

238

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Stereotactic Fine-Needle Biopsy in 2594 Mammographically Detected Non-Palpable Lesions

Azavedo

Svane

Auer³

1989

The Lancet

204

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Nonenzymatic extraction of cells from clinical tumor material for analysis of gene expression by two‐dimensional polyacrylamide gel electrophoresis

Franzén

Linder²,

Okuzawa

et al. 1993

Electrophoresis

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We have compared different methods of preparation of malignant cells for two-dimensional electrophoresis (2-DE). We found all methods using fresh tissue to be superior compared to methods using frozen tissue. Our results indicate that nonenzymatic methods of preparation of tumor cells, including fine needle aspiration, scraping and squeezing, have advantages over methods using enzymatic extraction of cells. Nonenzymatic methods are rapid, appear to reduce loss of high molecular protein species, and alleviate the necessity of separating viable and nonviable cells by Percoll gradient centrifugation. Using these techniques, high-quality 2-DE maps were derived from tumors of the lung and breast. In the resulting polypeptide patterns, heat shock proteins, non-muscle tropomyosins and intermediate filament were identified. We conclude that nonenzymatic extraction of malignant cells from fresh tumor tissue improves the possibilities that these techniques may be useful in clinical diagnosis.

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Gert Auer

Prognostic factors in parathyroid cancer: A review of 95 cases

Advanced‐stage cervical carcinomas are defined by a recurrent pattern of chromosomal aberrations revealing high genetic instability and a consistent gain of chromosome arm 3q

Time-Sensitive Reversal of Hyperplasia in Transgenic Mice Expressing SV40 T Antigen

Centrosome amplification and instability occurs exclusively in aneuploid, but not in diploid colorectal cancer cell lines, and correlates with numerical chromosomal aberrations

Comparative genomic hybridization reveals a specific pattern of chromosomal gains and losses during the genesis of colorectal tumors

Centrosome amplification and instability occurs exclusively in aneuploid, but not in diploid colorectal cancer cell lines, and correlates with numerical chromosomal aberrations

Stereotactic Fine-Needle Biopsy in 2594 Mammographically Detected Non-Palpable Lesions

Nonenzymatic extraction of cells from clinical tumor material for analysis of gene expression by two‐dimensional polyacrylamide gel electrophoresis

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