Establishment and characterization of a patient-derived solitary fibrous tumor/hemangiopericytoma cell line model

IF 4.3 3区生物学 Human Cell Pub Date : 2023-12-09 DOI:10.1007/s13577-023-01013-2

Jing Yi Lee, Peiyong Guan, Abner Herbert Lim, Zexi Guo, Zhimei Li, Jessica Sook Ting Kok, Elizabeth Chun Yong Lee, Boon Yee Lim, Bavani Kannan, Jui Wan Loh, Cedric Chuan-Young Ng, Kah Suan Lim, Bin Tean Teh, Tun Kiat Ko, Jason Yongsheng Chan

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Abstract

Solitary fibrous tumor/Hemangiopericytoma (SFT/HPC) is a rare subtype of soft tissue sarcoma harboring NAB2–STAT6 gene fusions. Mechanistic studies and therapeutic development on SFT/HPC are impeded by scarcity and lack of system models. In this study, we established and characterized a novel SFT/HPC patient-derived cell line (PDC), SFT-S1, and screened for potential drug candidates that could be repurposed for the treatment of SFT/HPC. Immunohistochemistry profiles of the PDC was consistent with the patient’s tumor sample (CD99+/CD34+/desmin−). RNA sequencing, followed by Sanger sequencing confirmed the pathognomonic NAB2exon3–STAT6exon18 fusion in both the PDC and the original tumor. Transcriptomic data showed strong enrichment for oncogenic pathways (epithelial–mesenchymal transition, FGF, EGR1 and TGFβ signaling pathways) in the tumor. Whole genome sequencing identified potentially pathogenic somatic variants such as MAGEA10 and ABCA2. Among a panel of 14 targeted agents screened, dasatinib was identified to be the most potent small molecule inhibitor against the PDC (IC₅₀, 473 nM), followed by osimertinib (IC₅₀, 730 nM) and sunitinib (IC₅₀, 1765 nM). Methylation profiling of the tumor suggests that this specific variant of SFT/HPC could lead to genome-wide hypomethylation. In conclusion, we established a novel PDC model of SFT/HPC with comprehensive characterization of its genomic, epigenomic and transcriptomic landscape, which can facilitate future preclinical studies of SFT/HPC, such as in vitro drug screening and in vivo drug testing.

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建立患者来源的单发纤维瘤/血管组织细胞瘤细胞系模型并确定其特征

孤立性纤维瘤/血管扩张性肉瘤（SFT/HPC）是一种罕见的软组织肉瘤亚型，携带 NAB2-STAT6 基因融合。由于缺乏系统模型，SFT/HPC 的机理研究和治疗开发受到阻碍。在本研究中，我们建立并鉴定了一种新型 SFT/HPC 患者衍生细胞系（PDC）SFT-S1，并筛选了可重新用于治疗 SFT/HPC 的潜在候选药物。PDC 的免疫组化图谱与患者的肿瘤样本一致（CD99+/CD34+/desmin-）。RNA 测序和 Sanger 测序证实，PDC 和原始肿瘤中均存在致病性 NAB2exon3-STAT6exon18 融合。转录组数据显示，肿瘤中的致癌通路（上皮-间质转化、FGF、EGR1 和 TGFβ 信号通路）高度富集。全基因组测序发现了潜在的致病体细胞变异，如 MAGEA10 和 ABCA2。在筛选出的 14 种靶向药物中，达沙替尼被确定为对 PDC 最有效的小分子抑制剂（IC50，473 nM），其次是奥希替尼（IC50，730 nM）和舒尼替尼（IC50，1765 nM）。肿瘤的甲基化分析表明，SFT/HPC的这种特殊变体可能导致全基因组低甲基化。总之，我们建立了一种新型的SFT/HPC PDC模型，并对其基因组、表观基因组和转录组进行了全面的表征，这有助于今后对SFT/HPC进行体外药物筛选和体内药物测试等临床前研究。

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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来源期刊

Human Cell 生物-细胞生物学

CiteScore

6.60

自引率

2.30%

发文量

176

期刊介绍： Human Cell is the official English-language journal of the Japan Human Cell Society. The journal serves as a forum for international research on all aspects of the human cell, encompassing not only cell biology but also pathology, cytology, and oncology, including clinical oncology. Embryonic stem cells derived from animals, regenerative medicine using animal cells, and experimental animal models with implications for human diseases are covered as well. Submissions in any of the following categories will be considered: Research Articles, Cell Lines, Rapid Communications, Reviews, and Letters to the Editor. A brief clinical case report focusing on cellular responses to pathological insults in human studies may also be submitted as a Letter to the Editor in a concise and short format. Not only basic scientists but also gynecologists, oncologists, and other clinical scientists are welcome to submit work expressing new ideas or research using human cells.