Histopathology. 2025 Oct 31.
AIMS: The 2013 Cancer Genome Atlas (TCGA) study identified four molecular types of endometrial carcinoma (EC) that are prognostic and predictive of therapy response. The p53 abnormal (p53abn) group of tumours is associated with aggressive clinical behaviour, chemoresponsiveness and generally high-grade histology. p53abn tumours may be identified by p53 immunohistochemical staining (a surrogate marker) or molecular testing. In this study, we evaluated the concordance between p53 immunohistochemistry and TP53 molecular testing in a consecutive cohort of ECs from a population-based setting. Our aim was to investigate the rate of concordance and reasons for discordance between the immunohistochemistry and molecular testing and to provide recommendations for pathologists and clinicians dealing with these discordant cases.
METHODS AND RESULTS: A total of 386 ECs were included where all biopsy specimens underwent molecular testing using a next-generation sequencing (NGS) panel (including POLE and TP53 genes and MSI testing) and immunohistochemistry for oestrogen receptor (ER), p53 and mismatch repair (MMR) proteins. Concordance between p53 immunohistochemistry and TP53 NGS was initially 88.6% (discordance of 11.4%) following review of the pathology and molecular reports; most of the discordant cases comprised carcinomas with wild-type p53 immunohistochemistry but TP53 mutations identified on NGS. The discordance reduced to 6.5% after review of the p53 stained slides, which revealed subclonal mutation-type staining in some tumours, and to 5% after excluding POLE mutated and mismatch repair deficient carcinomas. However, there remained a small cohort of 19 POLE wild-type/MMR proficient carcinomas (8 low-grade endometrioid, 9 high-grade endometrioid, 2 carcinosarcomas), with wild-type p53 staining but with TP53 mutations on NGS. Altogether, there were 12 POLE wild-type/MMR proficient low-grade endometrioid carcinomas with TP53 mutations on NGS; all were stage I (11 IA, 1 IB).
CONCLUSIONS: Our study demonstrated a good overall concordance between p53 immunohistochemical staining and TP53 molecular results. The concordance can be increased by reviewing the p53 stained slides in discrepant cases but there remains a small cohort of cases, mostly low-grade endometrioid carcinomas (POLE wild-type/MMR proficient), where TP53 mutations are present on NGS but p53 immunohistochemistry is wild-type. Such cases present a dilemma for the pathologist (which TCGA group should they be placed into) and the clinician (should adjuvant therapy be instigated based on the presence of a TP53 mutation alone with no other adverse features). For now, we advise classifying such cases as p53abn but not to administer adjuvant therapy based on the presence of a TP53 mutation alone without other adverse pathological factors. The significance of TP53 mutations in such cases should be determined by larger studies with long-term follow-up.
Keywords: TP53; endometrial carcinoma; next‐generation sequencing; p53 immunohistochemistry