Discovery and functional characterization of the oncogenicity and targetability of a novel NOTCH1-ROS1 gene fusion in pediatric angiosarcoma.

IF 1.8 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Cold Spring Harbor Molecular Case Studies Pub Date : 2022-10-01 DOI:10.1101/mcs.a006222

Payal Jain, Sudarshan Iyer, Joshua Straka, Lea F Surrey, Jennifer Pogoriler, Harry Han, Tiffany Smith, Christine Busch, Elizabeth Fox, Marilyn Li, Angela J Waanders, Adam Resnick, Monika A Davare

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引用次数: 1

Abstract

Angiosarcomas are rare, malignant soft tissue tumors in children that arise in a wide range of anatomical locations and have limited targeted therapies available. Here, we report a rare case of a pediatric angiosarcoma (pAS) with Li-Fraumeni syndrome (LFS) expressing a novel NOTCH1-ROS1 gene fusion. Although both NOTCH1 and ROS1 are established proto-oncogenes, our study is the first to describe the mechanistic role of NOTCH1-ROS1 fusion arising via intrachromosomal rearrangement. NOTCH1-ROS1 displayed potent neoplastic transformation propensity in vitro, and harbors tumorigenic potential in vivo, where it induced oncogenic activation of the MAPK, PI3K/mTOR, and JAK-STAT signaling pathways in a murine allograft model. We found an unexpected contribution of the NOTCH1 extracellular region in mediating NOTCH1-ROS1 activation and oncogenic function, highlighting the contribution of both NOTCH1 and ROS1 fusion partners in driving tumorigenicity. Interestingly, neither membrane localization nor fusion protein dimerization were found to be essential for NOTCH1-ROS1 fusion oncogenicity. To target NOTCH1-ROS1-driven tumors, we tested both NOTCH1-directed inhibitors and ROS1-targeted tyrosine kinase inhibitors (TKI) in heterologous models (NIH3T3, Ba/F3). Although NOTCH1 inhibitors did not suppress NOTCH1-ROS1-driven oncogenic growth, we found that oral entrectinib treatment effectively suppressed the growth of NOTCH-ROS1-driven tumors. Taken together, we report the first known pAS case with a novel NOTCH1-ROS1 alteration along with a detailed report on the function and therapeutic targeting of NOTCH1-ROS1. Our study highlights the importance of genomic profiling of rare cancers such as pAS to reveal actionable drivers and improve patient outcomes.

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一种新的NOTCH1-ROS1基因融合在儿童血管肉瘤中的致癌性和靶向性的发现和功能特征

血管肉瘤是一种罕见的儿童软组织恶性肿瘤，发生在广泛的解剖位置，目前的靶向治疗方法有限。在这里，我们报告了一例罕见的儿童血管肉瘤(pAS)合并Li-Fraumeni综合征(LFS)，表达了一种新的NOTCH1-ROS1基因融合。虽然NOTCH1和ROS1都是已确定的原癌基因，但我们的研究首次描述了NOTCH1-ROS1融合通过染色体内重排产生的机制作用。NOTCH1-ROS1在体外显示出强大的肿瘤转化倾向，在体内具有致瘤潜力，在小鼠同种异体移植模型中，它诱导MAPK、PI3K/mTOR和JAK-STAT信号通路的致癌激活。我们发现NOTCH1细胞外区域在介导NOTCH1-ROS1激活和致癌功能方面的意想不到的贡献，突出了NOTCH1和ROS1融合伙伴在驱动致瘤性方面的贡献。有趣的是，膜定位和融合蛋白二聚化都不是NOTCH1-ROS1融合致癌性的必要条件。为了靶向notch1 - ros1驱动的肿瘤，我们在异种模型(NIH3T3, Ba/F3)中测试了notch1定向抑制剂和ros1靶向酪氨酸激酶抑制剂(TKI)。虽然NOTCH1抑制剂不能抑制NOTCH1- ros1驱动的肿瘤生长，但我们发现口服enterrectinib治疗能有效抑制NOTCH1- ros1驱动的肿瘤生长。综上所述，我们报道了已知的第一例具有新的NOTCH1-ROS1改变的pAS病例，并详细报道了NOTCH1-ROS1的功能和治疗靶点。我们的研究强调了罕见癌症(如pAS)的基因组分析对于揭示可操作的驱动因素和改善患者预后的重要性。

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来源期刊

Cold Spring Harbor Molecular Case Studies MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

3.20

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0.00%

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期刊介绍： Cold Spring Harbor Molecular Case Studies is an open-access, peer-reviewed, international journal in the field of precision medicine. Articles in the journal present genomic and molecular analyses of individuals or cohorts alongside their clinical presentations and phenotypic information. The journal''s purpose is to rapidly share insights into disease development and treatment gained by application of genomics, proteomics, metabolomics, biomarker analysis, and other approaches. The journal covers the fields of cancer, complex diseases, monogenic disorders, neurological conditions, orphan diseases, infectious disease, gene therapy, and pharmacogenomics. It has a rapid peer-review process that is based on technical evaluation of the analyses performed, not the novelty of findings, and offers a swift, clear path to publication. The journal publishes: Research Reports presenting detailed case studies of individuals and small cohorts, Research Articles describing more extensive work using larger cohorts and/or functional analyses, Rapid Communications presenting the discovery of a novel variant and/or novel phenotype associated with a known disease gene, Rapid Cancer Communications presenting the discovery of a novel variant or combination of variants in a cancer type, Variant Discrepancy Resolution describing efforts to resolve differences or update variant interpretations in ClinVar through case-level data sharing, Follow-up Reports linked to previous observations, Plus Review Articles, Editorials, and Position Statements on best practices for research in precision medicine.