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p53 gene mutations and expression of p53 and mdm2 proteins in invasive breast carcinoma (1997)

Günther, T. ; Schneider-Stock, R. ; Ryš, J. ; [et al.]

Springer

Journal of cancer research and clinical oncology 123 (1997), S. 388-394

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ISSN: 1432-1335

Keywords: Key words p53 ; mdm2 ; p53 gene mutation ; Breast carcinoma

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The aim of the study was to analyze p53 gene mutations and the expression of p53 and mdm2 proteins in 31 randomly selected invasive breast carcinomas. The results were then correlated with tumor grade, stage, estrogen receptor status, nodal status, and DNA ploidy. The expression of the proteins p53 and mdm2 was determined immunohistochemically using formalin-fixed, paraffin-embedded material. Screening for p53 mutation involved analysis of the highly conserved regions of the p53 gene (exons 5–9) by the polymerase chain reaction/single-strand conformation polymorphism (PCR-SSCP) technique. PCR products with band shifts were directly sequenced. Immunohistochemical staining of p53 was positive in 9 cases (29.0 %), only 2 of which showed a p53 gene mutation. These were identified as a C→G transversion at the second position of codon 278 in exon 8 and an A→G transition at the second position of codon 205 in exon 6. A third case with a mutation was observed (C→T transition, position 1 of codon 250 in exon 7) that did not show p53 immunohistochemically. Of the 9 p53-positive tumors, 2 were moderately differentiated (grade II). The remaining tumors were poorly differentiated (7/9). By contrast, p53-negative carcinomas were well differentiated (grade I) in most cases (P = 0.02). DNA cytometry in 8 of the 9 p53-positive carcinomas revealed an aneuploid stem line. The majority of the p53-negative tumors were diploid (P = 0.01). Mdm2 oncoprotein was detected in 10 tumors (32.2 %), 4 of which were p53-positive, including the 3 with mutations. The grading of the mdm2-positive tumors was moderate or poor, G1 carcinomas were always noted to be mdm2-negative (P = 0.04). Overexpression of p53 protein is a complex mechanism and does not merely indicate the detection of mutations in the p53 gene. This study has shown that p53 expression correlates with tumor grade and DNA ploidy. Mdm2 expression was also associated with the tumor grade. Immunohistological demonstration of the p53 protein alone is insufficient as a basis for comment on the functional state of the p53 gene and gene product. The interrelation between recognition of the p53 protein and gene mutation needs more careful assessment to define their roles in the control of neoplasia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01240122

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p53 gene mutations in soft-tissue sarcomas – correlations with p53 immunohistochemistry and DNA ploidy (1997)

Schneider-Stock, Regine ; Radig, Kathrin ; Oda, Yoshinao ; [et al.]

Springer

Journal of cancer research and clinical oncology 123 (1997), S. 211-218

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ISSN: 1432-1335

Keywords: Key words Soft-tissue tumors ; p53 gene mutation ; p53 immunohistochemistry ; PCR SSCP analysis ; DNA ploidy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The significance of p53 mutations in a group of 67 soft-tissue tumors was examined using single-strand conformation polymorphism and direct sequencing analysis. Molecular findings were correlated with immunohistochemical detection of the p53 protein and DNA ploidy status. Mutations of the p53 gene were detected in 13 (19.5%) out of 67 cases of soft-tissue tumors. Only three were localized outside the conservative regions of the p53 gene. Six mutations were described for the first time in these tumors. Most of the mutations were point mutations in exons 5 – 8 and, in one case, a deletion at the 3′-splice site of exon 5 could be demonstrated. There was no significant correlation between the occurrence of p53 mutations and the histological grade, although a high number of mutations were defined in poorly differentiated tumors (grade 3). Molecular finding of a p53 gene mutation and immunohistochemical detection of p53 expression did not correlate, which may be due to the high percentage of nonsense mutations in our study (50%). We confirm that only DNA sequencing allows a unique identification and differentiation of mutations in the p53 gene. Other factors may be responsible for the detection of p53 protein in many cases. Histological grade correlated with aneuploidy. The frequency of mutations observed was in accordance with values quoted in the literature. Generally, p53 mutations and p53 overexpression are more likely to represent a late event in the oncogenesis of soft-tissue tumors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01240317

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p53 gene mutations and expression of p53 and mdm2 proteins in invasive breast carcinoma (1997)

Günther, T. ; Schneider-Stock, R. ; Ryš, J. ; [et al.]

Springer

Journal of cancer research and clinical oncology 123 (1997), S. 388-394

add to mindlist on the mindlist

Details

ISSN: 1432-1335

Keywords: p53 ; mdm2 ; p53 gene mutation ; Breast carcinoma

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The aim of the study was to analyzep53 gene mutations and the expression of p53 and mdm2 proteins in 31 randomly selected invasive breast carcinomas. The results were then correlated with tumor grade, stage, estrogen receptor status, nodal status, and DNA ploidy. The expression of the proteins p53 and mdm2 was determined immunohistochemically using formalin-fixed, paraffin-embedded material. Screening for p53 mutation involved analysis of the highly conserved regions of thep53 gene (exons 5–9) by the polymerase chain reaction/single-strand conformation polymorphism (PCR-SSCP) technique. PCR products with band shifts were directly sequenced. Immunohistochemical staining of p53 was positive in 9 cases (29.0%), only 2 of which showed ap53 gene mutation. These were identified as a C→G transversion at the second position of codon 278 in exon 8 and an A→G transition at the second position of codon 205 in exon 6. A third case with a mutation was observed (C→T transition, position 1 of codon 250 in exon 7) that did not show p53 immunohistochemically. Of the 9 p53-positive tumors, 2 were moderately differentiated (grade II). The remaining tumors were poorly differentiated (7/9). By contrast, p53-negative carcinomas were well differentiated (grade I) in most cases (P=0.02). DNA cytometry in 8 of the 9 p53-positive carcinomas revealed an aneuploid stem line. The majority of the p53-negative tumors were diploid (P=0.01). Mdm2 oncoprotein was detected in 10 tumors (32.2%), 4 of which were p53-positive, including the 3 with mutations. The grading of the mdm2-positive tumors was moderate or poor, G1 carcinomas were always noted to be mdm2-negative (P=0.04). Overexpression of p53 protein is a complex mechanism and does not merely indicate the detection of mutations in thep53 gene. This study has shown that p53 expression correlates with tumor grade and DNA ploidy. Mdm2 expression was also associated with the tumor grade. Immunohistological demonstration of the p53 protein alone is insufficient as a basis for comment on the functional state of thep53 gene and gene product. The interrelation between recognition of the p53 protein and gene mutation needs more careful assessment to define their roles in the control of neoplasia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01240122

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