Anthony N Karnezis

Context is key: how diagnostic and prognostic markers are reshaping gynecologic pathology

Abstract The field of gynecologic pathology is undergoing a transformative change. The translation of molecular findings from large‐scale genomic studies into clinical practice has been facilitated by robust surrogate assays, particularly immunohistochemistry (IHC). These tools provide scalable molecular proxies with short turnaround times, enabling molecular subclassification and conclusive prognostic biomarker studies. This commentary highlights how prognostic markers now refine diagnoses in challenging borderline areas, where an abnormal result can help exclude benign or precursor entities. However, the utility of these markers is highly context‐dependent, modified by histotype and molecular subtype. Furthermore, the confident diagnosis of rare entities and the study of their precursors have been advanced by defining specific molecular and IHC profiles, opening new avenues for research and therapy. The integration of morphology with molecular features is increasing the robustness of diagnoses and dictating oncology management as never before.

Cellular origins of mucinous ovarian carcinoma

AbstractMucinous ovarian carcinoma (MOC) is a rare histotype of epithelial ovarian cancer. Its origins are obscure: while many mucinous tumours in the ovary are metastases from the gastrointestinal tract, MOC can occur as an ovarian primary; however, the cell of origin is not well established. In this review we summarise the pathological, epidemiological, and molecular evidence for the cellular origins of MOC. We propose a model for the origins of the various tumours of the ovary with mucinous differentiation. We distinguish Müllerian from gastrointestinal‐type mucinous differentiation. A small proportion of the latter arise from teratoma and a distinct terminology has been proposed. Other gastrointestinal mucinous tumours are associated with Brenner tumours and arise from their associated benign lesions, Walthard nests. The remaining mucinous tumours develop either through mucinous metaplasia in established Müllerian tumours or with even greater plasticity through gastrointestinal metaplasia of epithelial or mesothelial ovarian inclusions. This model remains to be validated and mechanistically understood and we discuss future research directions. © 2025 The Author(s). The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.

Case Report: ESR1::CITED2 Fusion in a Malignant Uterine Tumor Resembling Ovarian Sex Cord Tumor

Uterine tumor resembling ovarian sex cord tumor (UTROSCT) is a rare, typically benign uterine tumor occurring over a wide age range (mean 52.4 yr). UTROSCTs often harbor translocations between ESR1 and nuclear receptor coactivators NCOA1-NCOA3. Here, we present a 21-yr-old woman with a 16 cm complex uterine mass on CT. Grossly, the tumor had an infiltrative appearance. Histologically, it consisted of mild to moderately atypical, spindled cells with ovoid nuclei, growing in fascicles and cords within fibrous to myxohyaline stroma, with tongue-like infiltration of the myometrium. Immunohistochemically, tumor cells were positive for AE1/AE3, ER, PR, vimentin, WT-1, and CD56, and negative for inhibin, calretinin, SMA, desmin, and CD10. Whole exome and whole transcriptome sequencing identified a pathogenic ESR1::CITED2 fusion. The tumor recurred twice (15 and 21 mo after initial surgery) in the abdomen and pelvis. Taken together, the findings suggest this tumor may represent a malignant UTROSCT variant with a novel translocation.

Effect of the p53 P72R Polymorphism on Mutant TP53 Allele Selection in Human Cancer

Abstract Background TP53 mutations occur in more than 50% of cancers. We sought to determine the effect of the intragenic P72R single nucleotide polymorphism (SNP; rs1042522) on the oncogenic properties of mutant p53. Methods P72R allelic selection in tumors was determined from genotype calls and a Gaussian distributed mixture model. The SNP effect on mutant p53 was determined in p53-negative cancer cell lines. RNA-sequencing, chromatin immunoprecipitation, and survival analysis were performed to describe the SNP effect. All statistical tests were 2-sided. Results Among 409 patients with germline heterozygous P72R SNP who harbored somatic mutations in TP53, we observed a selection bias against missense TP53 mutants encoding the P72 SNP (P = 1.64 x 10-13). Exogenously expressed hotspot p53 mutants with the P72 SNP were negatively selected in cancer cells. Gene expression analyses showed the enrichment of p53 pathway genes and inflammatory genes in cancer cells transduced with mutants encoding P72 SNP. Immune gene signature is enriched in patients harboring missense TP53 mutations with homozygous P72 SNP. These patients have improved overall survival as compared with those with the R72 SNP (P = .04). Conclusion This is the largest study demonstrating a selection against the P72 SNP. Missense p53 mutants with the P72 SNP retain partial wild-type tumor-suppressive functions, which may explain the selection bias against P72 SNP across cancer types. Ovarian cancer patients with the P72 SNP have a better prognosis than with the R72 SNP. Our study describes a previously unknown role through which the rs1042522 SNP modifies tumor suppressor activities of mutant p53 in patients.

Loss of SMARCA4 Leads to Intron Retention and Generation of Tumor-Associated Antigens in Small Cell Carcinoma of the Ovary, Hypercalcemic Type

Abstract Small cell carcinoma of the ovary, hypercalcemic type (SCCOHT), is a rare, deadly form of ovarian cancer that uniformly harbors mutations in SMARCA4, a member of the SWI/SNF chromatin remodeling complex. SWI/SNF impacts RNA splicing, and dysregulation of splicing can generate immunogenic tumor antigens. In this study, we explored the relationship between SMARCA4 loss and RNA splicing dysregulation. SCCOHT primary tumors harbored tumor-associated outlier splicing events compared with normal tissues. Many of the tumor events were retained introns encoding novel peptides predicted to bind to MHC-I complexes. Immune cells were observed in primary SCCOHT tumors, suggesting a potentially immune-reactive tumor microenvironment. Mutations in several switch/sucrose nonfermenting (SWI/SNF) subunits were associated with higher rates of outlier retained introns across tumor types in The Cancer Genome Atlas data. Interestingly, RNA sequencing of isogenic SCCOHT cell lines demonstrated a role for SMARCA4 in intron retention (IR). Distinct protein–protein interactions between splicing factors identified in SCCOHT cell lines supported a role for SMARCA4 in splicing regulation. Furthermore, SWI/SNF localized to genes, which were differentially spliced. Mass spectrometry analyses confirmed expression of some of these novel peptides, and a subset of these are predicted to bind to MHC-I complexes. A pool of these novel peptides derived from retained introns in SCCOHT triggered proliferation and expression of TNFα and INFγ in primary human T cells. Together, these data suggest that SMARCA4 loss in SCCOHT leads to IR. Furthermore, T-cell activation by novel peptides encoded by these tumor-specific splicing events suggests IR could be a source of tumor-associated antigens in SCCOHT. Significance: SCCOHT, a rare ovarian cancer, features splicing dysregulation due to SMARCA4 loss that generates immunostimulatory peptides linked to potential immune responses and therapeutic avenues, challenging traditional views of the role of SMARCA4.