Abstract Uterine corpus endometrial carcinoma (UCEC) is among the most prevalent gynecologic malignancies worldwide and represents a growing public health burden, particularly in high-income countries. Despite advances in clinical management, UCEC mortality continues to rise, with marked racial and socioeconomic disparities. The Cancer Genome Atlas (TCGA) previously established a molecular framework classifying UCEC into four major subtypes: POLE-ultramutated, microsatellite instability-high (MSI), copy-number low (CN-Low), and copy-number high (CN-High). However, the lack of whole-genome sequencing (WGS) has limited comprehensive characterization of UCEC genomic architecture. Here, we analyzed WGS data from 440 TCGA UCEC tumors, together with matched multi-omics data, to systematically characterize subtype-specific mutational processes, structural variation, and their clinical associations. Among driver genes, POLE-ultramutated tumors exhibited extensive multiple mutations, depleted frameshift indels, and increased subclonal heterogeneity. Across UCEC, LINE-1 retrotransposition events predominantly originated from a germline source at chr22q12. 1, with endometrioid-like CN-High tumors displaying the highest level of transposable element activity. CN-High tumors also showed high frequent extrachromosomal DNA (ecDNA) amplification, dominated by co-amplification of the MYC-PVT1 and ERBB2-MIEN1 loci, whereas ecDNA events were rare in other subtypes. Within CN-High tumors, LINE-1 insertion burden was strongly correlated with ecDNA formation, suggesting a mechanistic link between retrotransposition-associated genomic instability and oncogene amplification via ecDNA. In contrast, serous-like CN-Low tumors were characterized by higher patient body mass index (BMI), lower replication stress and increased X-chromosome inactivation. Mutational signature analysis revealed striking subtype specificity. APOBEC signatures were largely restricted to CN-High tumors. SBS39, a previously uncharacterized signature, was highly prevalent in CN-High tumors and significantly associated with BMI. MSI tumors exhibited a novel DBS signature enriched for A/T-containing reversed doublet substitutions (XY→YX), while indel mutagenesis was nearly ubiquitous and restricted to ID1 and ID2 signatures. Notably, the ID2-to-ID1 ratio in MSI tumors was approximately ten-fold higher than in non-MSI tumors, indicating a strong bias toward template-strand replication slippage associated with mismatch repair deficiency. Together, these findings uncover previously unrecognized, subtype-specific genomic features in UCEC and define distinct mutational mechanisms with potential implications for refined risk stratification and therapeutic strategies. Citation Format: Jian Sang, Mengyan Zhang, Thomas Veith, Yewon Kim, Sergio Chavez, Weiyin Zhou, Wen Luo, Adriana Morales Miranda, Jens Luebeck, Vineet Bafna, Stephen J. Chanock, Tongwu Zhang. Whole-genome sequencing reveals distinct mutational mechanisms across endometrial cancer subtypes abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2026; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts) ; 2026 Apr 17-22; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2026;86 (8Suppl): Abstract nr LB101.
Sang et al. (Fri,) studied this question.