PO.TB09.02 · 肿瘤生物学

Genetic insights into clonal evolution from normal prostate epithelium to cancer via HighGradePIN

海报缩略图:Genetic insights into clonal evolution from normal prostate epithelium to cancer via HighGradePIN
编号 3532 展板 8 时间 4/20 02:00–05:00 区域 Section 33 主讲 Kohsuke Hishiki, MD
分会场 Tumor Evolution
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作者与单位

Kohsuke Hishiki1, Nobuyuki Kakiuchi2, Yuki Teramoto3, Koichi Watanabe4, Kosuke Ieiri5, Hirona Maeda4, Tomonori Hirano6, Yuki Kita7, Takashi Kobayashi8, Seishi Ogawa4

1Urology, Kyoto Univ. Graduate School of Medicine, Kyoto, Japan,2Kyoto University Graduate School of Medicine, Kyoto, Japan,3Kyoto University Hospital, Kyoto, Japan,4Kyoto University, Kyoto, Japan,5Kyushu Univ. Graduate School of Medical Sci., Fukuoka, Japan,6Kyoto Universtiy Hospital, Kyoto, Japan,7Institute for Virus Research, Kyoto Univ., Kyoto, Japan,8Postdoctral Research Fellow, Dept. of Urology, Kyoto University Graduate School of Medicine, Kyoto, Japan

摘要 Abstract

Background Prostate cancer (PC) is one of the most prevalent cancers in the developed world, where its incidence is still increasing. Most PCs are thought to arise from high-grade prostatic intraepithelial neoplasia (HGPIN), a well-recognized precursor lesion. However, the genetic landscape of HGPIN and its relationship with normal prostate epithelium (NPE) and PC remains to be fully explored. To clarify the early genetic events and clonal dynamics underlying PC development, we performed comprehensive genomic profiling of NPE, HGPIN, and PC. Methods We performed laser-capture microdissection (LMD) to obtain samples from PC (n = 49), HGPIN (n = 77), and NEP (n =393), which were subjected to whole-exome sequencing (WES). We measured genome-wide mutation burdens in normal prostate epithelium from 5 patients using a highly accurate sequencing platform, Nanoseq. Results In NanoSeq, a total of 10,047 SNVs & indels were detected across 393 NPE samples, based on which the mutation accumulation rate in NPE was estimated to be 0.205 mutations/year/exon. Several mutations were shared between NPE and HGPIN as well as between HGPIN and PC, suggesting a common clonal origin. Pathogenic FOXA1 mutations were frequently detected in both HGPIN and PC. Although pathogenic FOXA1 mutations were also found in NPE, they did not overlapped with those in HGPIN or PC and therefore, likely represent independent mutational events. In one case, spatially distinct multifocal cancers exhibited multiple FOXA1 mutations, each of which was shared with corresponding adjacent HGPIN. In additional cases, 12 mutations were shared across PCa, HGPIN, and NPE samples, although no known driver mutations were detected therein. These findings suggest that PCa may arise from clones with apparently normal histology, which progress through HGPIN to PC. Phylogenetic analysis of these samples revealed that PC and HGPIN diverged from a common normal ancestor approximately 45 years earlier. Conclusions We successfully characterized somatic mutations and CNVs in apparently normal prostate epithelium, which were shared between HGPIN and adjacent PC in some cases. The presence of shared somatic mutations supports a clonal continuum from normal epithelium to precursor lesions and invasive carcinoma. These insights enhance our understanding of early prostate carcinogenesis and highlight potential avenues for early detection and intervention.
利益披露 Disclosure
K. Hishiki, None.

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