Genetic Screen in a Preclinical Model of Sarcoma Development Defines Drivers and Therapeutic Vulnerabilities.

IF 10 1区 医学 Q1 ONCOLOGY
Jack Freeland, Maria Muñoz, Edmond O'Donnell, Justin Langerman, Morgan Darrow, Jessica Bergonio, Julissa Suarez-Navarro, Steven Thorpe, Robert Canter, Robert Lor Randall, Kathrin Plath, Kermit L Carraway, Owen N Witte, Thomas G Graeber, Janai R Carr-Ascher
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Abstract

Purpose: High-grade complex karyotype sarcomas are a heterogeneous group of tumors with a uniformly poor prognosis. Within complex karyotype sarcomas, there are innumerable genetic changes but identifying those that are clinically relevant has been challenging.

Experimental design: To address this, we utilized a pooled genetic screening approach, informed by The Cancer Genome Atlas (TCGA) data, to identify key drivers and modifiers of sarcoma development that were validated in vivo.

Results: YAP1 and wild-type KRAS were validated as drivers and transformed human mesenchymal stem cells into two distinct sarcoma subtypes, undifferentiated pleomorphic sarcoma and myxofibrosarcoma, respectively. A subset of tumors driven by CDK4 and PIK3CA reflected leiomyosarcoma and osteosarcoma demonstrating the plasticity of this approach and the potential to investigate sarcoma subtype heterogeneity. All generated tumors histologically reflected human sarcomas and had increased aneuploidy as compared to simple karyotype sarcomas. Comparing differential gene expression of TCGA samples to model data identified increased oxidative phosphorylation signaling in YAP1 tumors. Treatment of a panel of soft tissue sarcomas with a combination of YAP1 and oxidative phosphorylation inhibitors led to significantly decreased viability.

Conclusions: Transcriptional co-analysis of TCGA patient samples to YAP1 and KRAS model tumors supports that these sarcoma subtypes lie along a spectrum of disease and adds guidance for further transcriptome-based refinement of sarcoma subtyping. This approach can be used to begin to understand pathways and mechanisms driving human sarcoma development, the relationship between sarcoma subtypes, and to identify and validate new therapeutic vulnerabilities for this aggressive and heterogeneous disease.

肉瘤发展临床前模型的基因筛选确定了驱动因素和治疗弱点。
目的:高级别复杂核型肉瘤是一类异质性肿瘤,预后普遍较差。在复杂核型肉瘤中,存在着无数的基因变化,但识别那些与临床相关的基因变化一直是个挑战:实验设计:为了解决这个问题,我们根据 TCGA 数据,利用集合基因筛选方法,确定了肉瘤发展的关键驱动因素和调节因子,并在体内进行了验证:结果:YAP1和野生型KRAS被确认为驱动因子,并将人类间充质干细胞转化为两种不同的肉瘤亚型,分别是未分化多形性肉瘤(UPS)和肌纤维肉瘤(MFS)。由CDK4和PIK3CA驱动的肿瘤子集反映了亮肌肉瘤(LMS)和骨肉瘤(OS),显示了这种方法的可塑性和研究肉瘤亚型异质性的潜力。所有生成的肿瘤在组织学上都反映了人类肉瘤,而且与简单核型肉瘤相比,非整倍体增加。将 TCGA 样本的差异基因表达与模型数据进行比较,发现 YAP1 肿瘤中氧化磷酸化信号增加。用YAP1和氧化磷酸化抑制剂联合治疗一组软组织肉瘤,可显著降低存活率:TCGA患者样本与YAP1和KRAS模型肿瘤的转录共同分析支持这些肉瘤亚型处于疾病谱中,并为进一步基于转录组细化肉瘤亚型提供了指导。这种方法可用于开始了解驱动人类肉瘤发展的途径和机制、肉瘤亚型之间的关系,并确定和验证这种侵袭性异质性疾病的新的治疗漏洞。
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来源期刊
Clinical Cancer Research
Clinical Cancer Research 医学-肿瘤学
CiteScore
20.10
自引率
1.70%
发文量
1207
审稿时长
2.1 months
期刊介绍: Clinical Cancer Research is a journal focusing on groundbreaking research in cancer, specifically in the areas where the laboratory and the clinic intersect. Our primary interest lies in clinical trials that investigate novel treatments, accompanied by research on pharmacology, molecular alterations, and biomarkers that can predict response or resistance to these treatments. Furthermore, we prioritize laboratory and animal studies that explore new drugs and targeted agents with the potential to advance to clinical trials. We also encourage research on targetable mechanisms of cancer development, progression, and metastasis.
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