| Literature DB >> 30110635 |
Kazuaki Suda1, Hirofumi Nakaoka2, Kosuke Yoshihara3, Tatsuya Ishiguro1, Ryo Tamura1, Yutaro Mori1, Kaoru Yamawaki1, Sosuke Adachi1, Tomoko Takahashi4, Hiroaki Kase5, Kenichi Tanaka6, Tadashi Yamamoto7, Teiichi Motoyama8, Ituro Inoue9, Takayuki Enomoto10.
Abstract
Endometriosis is characterized by ectopic endometrial-like epithelium and stroma, of which molecular characteristics remain to be fully elucidated. We sequenced 107 ovarian endometriotic and 82 normal uterine endometrial epithelium samples isolated by laser microdissection. In both endometriotic and normal epithelium samples, numerous somatic mutations were identified within genes frequently mutated in endometriosis-associated ovarian cancers. KRAS is frequently mutated in endometriotic epithelium, with a higher mutant allele frequency (MAF) accompanied by arm-level allelic imbalances. Analyses of MAF, combined with multiregional sequencing, illuminated spatiotemporal evolution of the endometriosis and uterine endometrium genomes. We sequenced 109 single endometrial glands and found that each gland carried distinct cancer-associated mutations, demonstrating the heterogeneity of the genomic architecture of endometrial epithelium. Remarkable increases in MAF of mutations in cancer-associated genes in endometriotic epithelium suggest retrograde flow of endometrial cells already harboring cancer-associated mutations, with selective advantages at ectopic sites, leading to the development of endometriosis.Entities:
Keywords: clonal evolution; endometrial gland; endometriosis; epithelial cell; genomic heterogeneity; multiregional sequencing; next-generation sequencing; ovarian cancer; somatic mutation; uterine endometrium
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Year: 2018 PMID: 30110635 DOI: 10.1016/j.celrep.2018.07.037
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423