使用计算病理学和基因组学分析皮肤附件癌异质性的策略方法

Yuuki Nishimura , Eijitsu Ryo , Satoshi Inoue , Masahito Kawazu , Toshihide Ueno , Kenjiro Namikawa , Akira Takahashi , Dai Ogata , Akihiko Yoshida , Naoya Yamazaki , Hiroyuki Mano , Yasushi Yatabe , Taisuke Mori
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引用次数: 0

摘要

皮肤附属物肿瘤是由皮肤附属物产生的肿瘤。其形态多样性和表型变异性以及罕见的恶性进展使其难以诊断和分类,目前尚无既定的治疗策略。为了克服这些困难,本研究研究了皮肤附件肿瘤的转录因子SOX9的表达、形态学和遗传学,以了解其生物学,特别是其组织发生。我们发现皮肤附件肿瘤及其非肿瘤皮肤和附件的对应物表现出与SOX9相似的表达模式。以69例正常皮肤附件9型器官和185例皮肤附件29型肿瘤的数字图像为参考,分析其表达强度、表达模式以及肿瘤的组织病理学评价。基底细胞癌与鳞状细胞癌、皮脂腺癌、毛瘤基质瘤有明显区别,而多孔癌与鳞状细胞癌有明显区别。此外,使用无监督机器学习“计算病理学”来推导称为“基因计算病理学”的多区域全外显子组测序融合方法。对9例具有代表性的三种附件癌(多孔癌、腺汗腺癌和螺旋腺癌)的基因计算病理进行了评估。我们发现,在肿瘤中存在比预期更多的异质性,以及缺乏驱动融合基因的成分共存。在每个区域都发现了潜在驱动基因(如PIK3CA、YAP1和PTEN)的存在或缺失,这突出了针对包含异质肿瘤的皮肤附件癌的治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Strategic Approach to Heterogeneity Analysis of Cutaneous Adnexal Carcinomas Using Computational Pathology and Genomics

Cutaneous adnexal tumors are neoplasms that arise from skin appendages. Their morphologic diversity and phenotypic variability with rare progression to malignancy make them difficult to diagnose and classify, and there is currently no established treatment strategy. To overcome these difficulties, this study investigated the transcription factor SOX9 expression, morphology, and genetics of skin adnexal tumors for understanding their biology, especially their histogenesis. We showed that cutaneous adnexal tumors and their nontumor counterparts of skin and appendages exhibit expression patterns similar to that of SOX9. Its expression intensity and pattern, as well as histopathologic evaluation of tumors, were analyzed using digital images of 69 normal skin adnexal 9-type organs and 185 skin adnexal 29-type tumors as references. It was possible to distinguish basal cell carcinoma from squamous cell carcinoma, sebaceous carcinoma, and pilomatrixoma with significant differences, along with porocarcinoma from squamous cell carcinoma. Furthermore, unsupervised machine learning “computational pathology” was used to derive a multiregion whole-exome sequencing fusion method termed “genocomputed pathology.” The genocomputed pathology of three representable adnexal carcinomas (porocarcinoma, hidradenocarcinoma, and spiradenocarcinoma) was evaluated for total nine cases. We showed that there was more heterogeneity than expected within the tumors as well as the coexistence of components lacking driver fusion genes. The presence or absence of potential driver genes, such as PIK3CA, YAP1, and PTEN, in each region was identified, highlighting a therapeutic strategy for cutaneous adnexal carcinoma encompassing heterogeneous tumors.

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来源期刊
CiteScore
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审稿时长
8 weeks
期刊最新文献
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