%0 Journal Article
%T Methylation of the Selected TP53 Introns in Advanced-Stage Ovarian Carcinomas.
%A Szewczuk W
%A Szewczuk O
%A Czajkowski K
%A Gromadka R
%A Man YG
%A Wałędziak M
%A Semczuk A
%J J Cancer
%V 15
%N 13
%D 2024
%M 38947384
%F 4.478
%R 10.7150/jca.94945
%X Objective: Advanced-stage ovarian cancer (OC) is among the most fatal female genital tract neoplasms worldwide. Although different genetic mechanisms have been shown to be involved in ovarian carcinogenesis, the role of TP53 introns methylation is still unresolved. We performed methylation analysis of introns 1, 3, and 4 of the TP53 to identify patterns in primary stage III OCs, corresponding metastases, and healthy tissues. Methods: The study involved samples of paraffin-embedded tissues obtained from 80 patients with stage III OCs, who underwent surgery at the Department of Gynecology and Gynecologic Oncology of the Military Institute of Medicine in Warsaw, Poland. Altogether, 40 serous-type G2/3 OCs and 40 endometrioid-type G2/3 OCs were included. From the same patient, metastatic and normal tissues were simultaneously analyzed. As a control group, 80 tissue samples were collected from patients after bariatric operations. Human ovarian cancer A2780 cell line was also investigated. Total genomic DNA was isolated from paraffin-embedded tissue blocks and the methylation analysis was performed by bisulfite DNA conversion, DNA amplification with specific primers, cloning, and DNA sequencing. Results: All of the samples of intron 1 of TP53 were un-methylated in OCs, metastatic tissues, and in healthy tissues from the same patient. Also, no methylation of TP53 intron 1 was detected in cells from the human A2780 ovarian cancer cell line and in all samples from control group. In all samples, introns 3 and 4 of the TP53 were methylated in primary tumors, metastatic tissue, and in healthy tissue from the same patient, in human A2780 ovarian cell line, and in DNA samples from healthy patients. None of the clinicopatholocal features was related to the TP53 introns methylation status. Conclusions: Our data on TP53 introns methylation sheds new light on the mechanism of p53 activity for a better understanding of cancer biology. The study suggests the existence of an additional regulation rule of TP53 activity that involves demethylation-methylation mechanisms. Methylation at introns 3 and 4 may also overall help in protecting TP53 against damage by viral restrictases or viral DNA integration.