Establishing a pediatric solid tumor PDX biobank for precision oncology research.

IF 4.6 4区医学 Q2 ONCOLOGY

Cancer Biology & Therapy Pub Date : 2025-12-01 Epub Date: 2025-08-13 DOI:10.1080/15384047.2025.2541974

Larissa Akemi Kido, Milena Rodrigues Marusco, Ellen Aparecida da Silva, Laís Do Carmo, Ana Beatriz Teodoro Borges, Felipe Luz Torres Silva, Juliana Silveira Ruas, Dieila Giomo de Lima, Larissa de Abreu Fernandes, Camila Maia Martin Daiggi, Izilda Aparecida Cardinalli, Mayara Ferreira Euzébio, Patricia Yoshioka Jotta, Mariana Maschietto, Priscila Pini Zenatti

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引用次数: 0

Abstract

Developing advanced preclinical models and targeted therapies is essential for reducing cancer-related deaths in children with solid tumors. Patient-derived xenografts (PDX) have the potential to replicate key elements of the original tumor, including morphology, genetic alterations, and microenvironment, making them valuable tools for studying tumor biology and drug response. We implanted 124 pediatric solid tumor samples, collected for 1 y, into NOD/SCID/IL2Rg (NSG) mice. Tumor fragments were placed subcutaneously, and the animals were monitored for up to 1 y. Histopathology, Short Tandem Repeat (STR) profiling, RT-PCR and/or RNA-sequencing were performed to confirm tumor identity and detect driver fusions. Fifty-five xenografts were successfully established (44.35% of implanted samples), representing 19 tumor types. Sarcomas, notably osteosarcoma, Ewing sarcoma, synovial sarcoma, and rhabdomyosarcoma, displayed first-generation engraftment rates above 55%. Central nervous system tumors had lower success, reflecting unique microenvironmental requirements. Histopathology and STR concordances were 85.45% and 81.1%, respectively, while 92.6% of sarcoma PDXs retained original fusion genes. Second-generation xenografts showed faster growth, suggesting adaptation to the murine host. Sporadic discrepancies, such as new fusions or lymphoproliferative expansions, indicated the need for ongoing molecular validation parallel to other techniques. A pediatric PDX biobank can effectively capture key tumor features while facilitating the study of therapeutic responses and tumor evolution. Our models confirm the feasibility of achieving stable histological and molecular profiles, offering a valuable resource for precision oncology research. Ultimately, these pediatric PDXs could accelerate the discovery of targeted therapy and significantly improve treatment outcomes.

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建立儿童实体肿瘤PDX生物样本库，用于精准肿瘤学研究。

开发先进的临床前模型和靶向治疗对于减少患有实体瘤的儿童癌症相关死亡至关重要。患者来源的异种移植物（PDX）具有复制原始肿瘤的关键要素的潜力，包括形态，遗传改变和微环境，使其成为研究肿瘤生物学和药物反应的宝贵工具。我们将收集1 y的124例儿童实体瘤样本植入NOD/SCID/IL2Rg （NSG）小鼠体内。将肿瘤片段置于皮下，对动物进行长达1年的监测。通过组织病理学、短串联重复序列（STR）分析、RT-PCR和/或rna测序来确认肿瘤身份并检测驱动融合。成功建立异种移植物55例（44.35%），代表19种肿瘤类型。肉瘤，尤其是骨肉瘤、尤文氏肉瘤、滑膜肉瘤和横纹肌肉瘤，其第一代移植率超过55%。中枢神经系统肿瘤的成功率较低，反映了独特的微环境要求。组织病理学和STR一致性分别为85.45%和81.1%，92.6%的肉瘤pdx保留了原始融合基因。第二代异种移植物的生长速度更快，表明对小鼠宿主的适应。零星的差异，如新的融合或淋巴增殖性扩张，表明需要与其他技术平行进行分子验证。儿童PDX生物库可以有效地捕捉肿瘤的关键特征，同时促进治疗反应和肿瘤演变的研究。我们的模型证实了实现稳定的组织学和分子谱的可行性，为精确的肿瘤学研究提供了宝贵的资源。最终，这些儿科pdx可以加速靶向治疗的发现，并显著改善治疗结果。

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

Cancer Biology & Therapy 医学-肿瘤学

CiteScore

7.00

自引率

0.00%

发文量

审稿时长

2.3 months

期刊介绍： Cancer, the second leading cause of death, is a heterogenous group of over 100 diseases. Cancer is characterized by disordered and deregulated cellular and stromal proliferation accompanied by reduced cell death with the ability to survive under stresses of nutrient and growth factor deprivation, hypoxia, and loss of cell-to-cell contacts. At the molecular level, cancer is a genetic disease that develops due to the accumulation of mutations over time in somatic cells. The phenotype includes genomic instability and chromosomal aneuploidy that allows for acceleration of genetic change. Malignant transformation and tumor progression of any cell requires immortalization, loss of checkpoint control, deregulation of growth, and survival. A tremendous amount has been learned about the numerous cellular and molecular genetic changes and the host-tumor interactions that accompany tumor development and progression. It is the goal of the field of Molecular Oncology to use this knowledge to understand cancer pathogenesis and drug action, as well as to develop more effective diagnostic and therapeutic strategies for cancer. This includes preventative strategies as well as approaches to treat metastases. With the availability of the human genome sequence and genomic and proteomic approaches, a wealth of tools and resources are generating even more information. The challenge will be to make biological sense out of the information, to develop appropriate models and hypotheses and to translate information for the clinicians and the benefit of their patients. Cancer Biology & Therapy aims to publish original research on the molecular basis of cancer, including articles with translational relevance to diagnosis or therapy. We will include timely reviews covering the broad scope of the journal. The journal will also publish op-ed pieces and meeting reports of interest. The goal is to foster communication and rapid exchange of information through timely publication of important results using traditional as well as electronic formats. The journal and the outstanding Editorial Board will strive to maintain the highest standards for excellence in all activities to generate a valuable resource.