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Spatial genomic diversity associated with <scp>APOBEC</scp> mutagenesis in squamous cell carcinoma arising from ovarian teratoma

Ryo Tamura, Hirofumi Nakaoka, Nozomi Yachida, Haruka Ueda, Tatsuya Ishiguro, Teiichi Motoyama, Ituro Inoue, Takayuki Enomoto, Kosuke Yoshihara

2023Cancer Science11 citationsDOIOpen Access PDF

Abstract

Although the gross and microscopic features of squamous cell carcinoma arising from ovarian mature cystic teratoma (MCT-SCC) vary from case to case, the spatial spreading of genomic alterations within the tumor remains unclear. To clarify the spatial genomic diversity in MCT-SCCs, we performed whole-exome sequencing by collecting 16 samples from histologically different parts of two MCT-SCCs. Both cases showed histological diversity within the tumors (case 1: nonkeratinizing and keratinizing SCC and case 2: nonkeratinizing SCC and anaplastic carcinoma) and had different somatic mutation profiles by histological findings. Mutation signature analysis revealed a significantly enriched apolipoprotein B mRNA editing enzyme catalytic subunit (APOBEC) signature at all sites. Intriguingly, the spread of genomic alterations within the tumor and the clonal evolution patterns from nonmalignant epithelium to cancer sites differed between cases. TP53 mutation and copy number alterations were widespread at all sites, including the nonmalignant epithelium, in case 1. Keratinizing and nonkeratinizing SCCs were differentiated by the occurrence of unique somatic mutations from a common ancestral clone. In contrast, the nonmalignant epithelium showed almost no somatic mutations in case 2. TP53 mutation and the copy number alteration similarities were observed only in nonkeratinizing SCC samples. Nonkeratinizing SCC and anaplastic carcinoma shared almost no somatic mutations, suggesting that each locally and independently arose in the MCT. We demonstrated that two MCT-SCCs with different histologic findings were highly heterogeneous tumors with clearly different clones associated with APOBEC-mediated mutagenesis, suggesting the importance of evaluating intratumor histological and genetic heterogeneity among multiple sites of MCT-SCC.

Topics & Concepts

APOBECBiologyMutationGermline mutationSomatic cellPathologySomatic evolution in cancerTeratomaCancer researchGeneticsCancerGeneGenomeMedicineOvarian cancer diagnosis and treatmentCancer Genomics and DiagnosticsChromatin Remodeling and Cancer
Spatial genomic diversity associated with <scp>APOBEC</scp> mutagenesis in squamous cell carcinoma arising from ovarian teratoma | Litcius