Purpose: Although TP53 is one of the most studied genes/proteins in ovarian carcinomas, the predictive value of TP53 alterations is still ambiguous.
Experimental design: We performed analyses of the TP53 mutational status and its protein expression by immunohistochemistry. Moreover, the single nucleotide polymorphism SNP309 in the P2-promotor of the HDM2 gene was investigated. We correlated the results with the age of onset and the outcome of 107 ovarian carcinoma patients.
Results: In our study, we identified a large group of patients with TP53 overexpression despite having a wild-type gene (49% of all patients with wild-type TP53). This was associated with a significantly shortened overall survival time (p = 0.019). Patients with TP53 alterations (especially those with overexpression of wild-type TP53) were also more refractory to chemotherapy than patients with normal TP53 (p = 0.027). The Gallele of the SNP309 is associated with an earlier age of onset in estrogen receptor expressing FIGO stage III patients (p = 0.048). In contrast, in FIGO III patients, a weakened TP53 pathway (either G-allele of SNP309 or a TP53 mutation) is correlated with an increased overall survival compared with patients whose tumors are wild-type for TP53 and SNP309 (p = 0.0035).
Conclusion: Our study provides evidence that both germ line and somatic alterations of the TP53 pathway influence incidence and survival of ovarian carcinoma, and it underscores the importance of assessing the functionality of TP53 in order to predict sensitivity of platin-based chemotherapies and patient outcome.