Recent investigations have demonstrated p53 and Rb alterations in a subset of transitional cell carcinoma (TCC). Further genetic changes during tumor progression include overexpression of the c-myc gene in a significant number of mainly invasive bladder tumors. To study the possible interactions between these genes in TCC, urothelial cancer cell lines were chosen as an in vitro model. Expression and mutation of p53 was studied in 15 bladder cancer cell lines by immunocytochemistry, Western blot, polymerase chain reaction single-strand conformation polymorphism (PCR-SSCP) analysis and direct sequencing of double stranded PCR products of exons 4, 5, 7 and 8 of genomic DNA. C-myc expression and gene structure were studied using Northern and Southern blot techniques Rb protein expression was analyzed by Western blot. Twelve of 15 cell lines showed either p53 mutations or abnormal protein expression. Consistent with previous studies, five cell lines did not express Rb protein. None of the cell lines studied retained both tumor suppressor genes in a functional form. The c-myc gene appeared to be intact in all cell lines and copy numbers were close to normal. Northern analysis demonstrated that all cell lines expressed c-myc mRNA but evidence for altered regulation was found in at least two cell lines. Our data suggest that amplification or translocation are not the underlying mechanism for c-myc overexpression in urothelial tumors. No correlation between loss of Rb protein and c-myc expression was observed. The results presented here for the cell lines match well those obtained in vivo. Thus, these cell lines may provide a suitable model for further analysis of molecular alterations in urothelial cancer.
Recent investigations have demonstrated alterations of the p53 tumor-suppressor gene in a considerable number of transitional-cell carcinoma (TCC) specimens. Thus far, these investigations have been restricted to either papillary TCC or invasive bladder cancer. To obtain further information on a possible involvement of p53 in bladder cancer development or tumor progression, investigations of precursor lesions and early stages of this disease are required. Immunohistochemical examination of 6 dysplasias and 24 carcinomas in situ (TIS) showed p53 accumulation, which is suggestive of p53 inactivation, in 2 (33%) and 9 (38%) of these specimens, respectively. This ratio was similar in 9 T1 lesions (33%) and in 14 cases of muscle-infiltrative disease (35%). In papillary tumors, p53 accumulation was observed exclusively in 3/10 moderately differentiated or high-grade lesions but not in 1 Ta G1 tumor. The expression of p53 accumulation was a consistent finding. The examination of tumor recurrences yielded either the presence or the absence of p53 overexpression in the primary and recurrent tumors of 7/8 patients. Similarly, in multifocal TCC, p53 accumulation was also either present or absent in 10/11 cases examined. These results suggest the existence of at least two different subgroups of TCC, with p53 accumulation being present in one of these groups. The observation of p53 accumulation in dysplasia and in TIS is a prerequisite for a possible involvement of p53 in bladder cancer carcinogenesis, although it does not prove this assumption.
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