AB091. Establishment and application of brainstem glioma organoids.

IF 2.1 4区医学 Q3 ONCOLOGY

Chinese clinical oncology Pub Date : 2024-08-01 DOI:10.21037/cco-24-ab091

Luyang Xie, Zhuang Jiang, Hang Zhou, Cheng Xu, Liwei Zhang

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引用次数: 0

Abstract

Background: Traditional preclinical experiments on brainstem gliomas mainly rely on patient-derived primary cell lines, but there are problems such as low success rate in establishment and inability to preserve tumor heterogeneity, which limit the clinical transformation. As a new type of in vitro tumor model, organoids have similar structure and function to the original tumor, requiring less tissue for cultivation, with short cycle and high success rate, which is particularly suitable for brainstem glioma biopsy. There is currently no precedent for the successful construction of brainstem glioma organoid models. This new established organoid provides us a more robust preclinical tool for comprehending the pathogenesis and conducting drug screening for this kind of disease.

Methods: Cultivate patient-derived brainstem glioma organoids in vitro, verify the genetic fidelity and consistency of the organoids through morphological experiments as well as sequencing technology. Then explore the evolutionary direction of multiple types of brainstem gliomas through pseudo-time series analysis. Complete drug screening, natural killer (NK) cell co-culture, oncolytic virus therapy, and other treatments based on organoids in vitro, and evaluate the efficacy. Complete co-culture of organoids and Institute of Cancer Research (ICR) mouse brain slices in vitro. Establish patient-derived organoid xenograft (PDOX) mouse models derived from organoids in vivo.

Results: The establishment of organoids of all types of brainstem gliomas was completed for the first time in the world, with a total of 41/48 organoid models derived from patients, with a success rate of 85.4%, covering all segments and pathological types. The results of morphological experiments and sequencing showed that the genetic characteristics of organoids were highly consistent with those of tumor tissues. Drug screening tests for temozolomide and panobinostat were completed in vitro, and NK cell co-culture and oncolytic virus therapy testing were achieved. Co-culture of brainstem glioma organoids and mouse brain slices was achieved in vitro. Furthermore, a PDOX model of brainstem glioma was established.

Conclusions: Brainstem glioma organoids can be established maturely, stably, and reliably, and can be used for preclinical drug testing for patients. Animal models derived from brainstem glioma organoids have broad preclinical experimental value.

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AB091.脑干胶质瘤器官组织的建立和应用。

背景：传统的脑干胶质瘤临床前实验主要依赖患者来源的原代细胞系，但存在建立成功率低、无法保留肿瘤异质性等问题，限制了临床转化。作为一种新型的体外肿瘤模型，器官组织具有与原发肿瘤相似的结构和功能，培养所需组织少，周期短，成功率高，尤其适合脑干胶质瘤活检。目前还没有成功构建脑干胶质瘤类器官模型的先例。这一新建立的类器官模型为我们提供了一种更强大的临床前工具，用于理解这类疾病的发病机制和进行药物筛选：方法：体外培养患者来源的脑干胶质瘤类器官，通过形态学实验和测序技术验证类器官的基因保真度和一致性。然后通过伪时间序列分析，探索多种类型脑干胶质瘤的进化方向。在体外完成基于器官组织的药物筛选、自然杀伤（NK）细胞共培养、溶瘤病毒治疗等，并评估疗效。完成有机体与癌症研究所（ICR）小鼠脑切片的体外共培养。在体内建立由器官组织衍生的患者来源器官组织异种移植（PDOX）小鼠模型：在世界上首次完成了所有类型脑干胶质瘤的类器官建立，共建立了41/48个来源于患者的类器官模型，成功率达85.4%，涵盖了所有节段和病理类型。形态学实验和测序结果表明，类器官的遗传特征与肿瘤组织高度一致。在体外完成了替莫唑胺和帕诺比诺他的药物筛选试验，并实现了 NK 细胞共培养和溶瘤病毒治疗试验。在体外实现了脑干胶质瘤有机体和小鼠脑切片的共培养。此外，还建立了脑干胶质瘤的PDOX模型：结论：脑干胶质瘤器官组织可以成熟、稳定、可靠地建立，并可用于对患者进行临床前药物测试。由脑干胶质瘤器官组织衍生的动物模型具有广泛的临床前实验价值。

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来源期刊

Chinese clinical oncology ONCOLOGY-

CiteScore

3.90

自引率

0.00%

发文量

期刊介绍： The Chinese Clinical Oncology (Print ISSN 2304-3865; Online ISSN 2304-3873; Chin Clin Oncol; CCO) publishes articles that describe new findings in the field of oncology, and provides current and practical information on diagnosis, prevention and clinical investigations of cancer. Specific areas of interest include, but are not limited to: multimodality therapy, biomarkers, imaging, tumor biology, pathology, chemoprevention, and technical advances related to cancer. The aim of the Journal is to provide a forum for the dissemination of original research articles as well as review articles in all areas related to cancer. It is an international, peer-reviewed journal with a focus on cutting-edge findings in this rapidly changing field. To that end, Chin Clin Oncol is dedicated to translating the latest research developments into best multimodality practice. The journal features a distinguished editorial board, which brings together a team of highly experienced specialists in cancer treatment and research. The diverse experience of the board members allows our editorial panel to lend their expertise to a broad spectrum of cancer subjects.