基于小鸡胚胎绒毛膜的体内肿瘤类器官模型模拟了患者组织的主要特征:概念验证研究。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Katarína Benčurová, Loan Tran, Joachim Friske, Kajetana Bevc, Thomas H Helbich, Marcus Hacker, Michael Bergmann, Markus Zeitlinger, Alexander Haug, Markus Mitterhauser, Gerda Egger, Theresa Balber
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引用次数: 0

摘要

背景:源自患者的肿瘤器官组织(PDOs)是用于疾病建模的高度先进的体外模型,但它们缺乏血管。为了克服这一缺陷,可以将器官组织接种到绒毛膜(CAM)上;绒毛膜是受精卵的胚外膜,具有高度血管化,但没有神经支配。因此,我们的目标是:(1) 根据从结直肠癌(CRC)患者肝转移灶产生的 PDOs 建立 CAM 患者来源异种移植(PDX)模型;(2) 评估转化管道(患者 - 体外 PDOs - 体内 CAM-PDX)在形态学、组织病理学、C-X-C 趋化因子受体 4 型(CXCR4)表达和放射性示踪剂摄取模式方面的作用:结果:CRC 患者的主要肝转移灶表现出较高的 2-[18F]FDG 摄取,转移灶外围有中度和局灶性的[68Ga]Ga-Pentixafor 聚集。将来自该区域的 PDOs 接种到 CAM 上,可形成大块、高存活率和广泛血管化的异种移植物,免疫组化结果表明了这一点,2-[18F]FDG 的高摄取量也证实了这一点。这些异种移植物在组织形态学上与患者的肝转移瘤非常相似。CXCR4的适度表达在卵内得以维持,并与患者样本和体外PDOs的表达水平一致。在体外重新培养 CAM-PDXs 后,其生长和[68Ga]Ga-Pentixafor 摄取与移植到 CAM 上之前的 PDOs 相比没有变化。虽然[68Ga]Ga-Pentixafor被CAM-PDXs吸收,但基线组和阻断组的吸收率相当,只有阻断的趋势:我们成功地建立了基于 CRC PDOs 的体内 CAM-PDX 模型。结论:我们成功建立了基于 CRC PDOs 的体内 CAM-PDX 模型,体外 PDOs,尤其是体内 CAM-PDXs 反映了原始患者组织的组织形态学特征和靶蛋白表达。体外、体内和临床数据的[68Ga]Ga-Pentixafor摄取模式具有可比性,患者的肝转移灶和CAM-PDXs也摄取了2-[18F]FDG。因此,我们建议将 CAM-PDX 模型作为另一种体内模型,并将其应用于 CRC 患者的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An in vivo tumour organoid model based on the chick embryonic chorioallantoic membrane mimics key characteristics of the patient tissue: a proof-of-concept study.

Background: Patient-derived tumour organoids (PDOs) are highly advanced in vitro models for disease modelling, yet they lack vascularisation. To overcome this shortcoming, organoids can be inoculated onto the chorioallantoic membrane (CAM); the highly vascularised, not innervated extraembryonic membrane of fertilised chicken eggs. Therefore, we aimed to (1) establish a CAM patient-derived xenograft (PDX) model based on PDOs generated from the liver metastasis of a colorectal cancer (CRC) patient and (2) to evaluate the translational pipeline (patient - in vitro PDOs - in vivo CAM-PDX) regarding morphology, histopathology, expression of C-X-C chemokine receptor type 4 (CXCR4), and radiotracer uptake patterns.

Results: The main liver metastasis of the CRC patient exhibited high 2-[18F]FDG uptake and moderate and focal [68Ga]Ga-Pentixafor accumulation in the peripheral part of the metastasis. Inoculation of PDOs derived from this region onto the CAM resulted in large, highly viable, and extensively vascularised xenografts, as demonstrated immunohistochemically and confirmed by high 2-[18F]FDG uptake. The xenografts showed striking histomorphological similarity to the patient's liver metastasis. The moderate expression of CXCR4 was maintained in ovo and was concordant with the expression levels of the patient's sample and in vitro PDOs. Following in vitro re-culturing of CAM-PDXs, growth, and [68Ga]Ga-Pentixafor uptake were unaltered compared to PDOs before transplantation onto the CAM. Although [68Ga]Ga-Pentixafor was taken up into CAM-PDXs, the uptake in the baseline and blocking group were comparable and there was only a trend towards blocking.

Conclusions: We successfully established an in vivo CAM-PDX model based on CRC PDOs. The histomorphological features and target protein expression of the original patient's tissue were mirrored in the in vitro PDOs, and particularly in the in vivo CAM-PDXs. The [68Ga]Ga-Pentixafor uptake patterns were comparable between in vitro, in ovo and clinical data and 2-[18F]FDG was avidly taken up in the patient's liver metastasis and CAM-PDXs. We thus propose the CAM-PDX model as an alternative in vivo model with promising translational value for CRC patients.

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