Application of a 3D hydrogel-based model to replace use of animals for passaging patient-derived xenografts.

In vitro models Pub Date : 2023-01-01 Epub Date: 2023-05-09 DOI:10.1007/s44164-023-00048-x
Sal Jones, Jennifer C Ashworth, Marian Meakin, Pamela Collier, Catherine Probert, Alison A Ritchie, Catherine L R Merry, Anna M Grabowska
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Abstract

Purpose: This 3D in vitro cancer model for propagation of patient-derived cells, using a synthetic self-assembling peptide gel, allows the formation of a fully characterised, tailorable tumour microenvironment. Unlike many existing 3D cancer models, the peptide gel is inert, apart from molecules and motifs deliberately added or produced by cells within the model.

Methods: Breast cancer patient-derived xenografts (PDXs) were disaggregated and embedded in a peptide hydrogel. Growth was monitored by microscopic examination and at intervals, cells were extracted from the gels and passaged on into fresh gels. Passaged cells were assessed by qPCR and immunostaining techniques for the retention of characteristic markers.

Results: Breast cancer PDXs were shown to be capable of expansion over four or more passages in the peptide gel. Contaminating mouse cells were found to be rapidly removed by successive passages. The resulting human cells were shown to be compatible with a range of common assays useful for assessing survival, growth and maintenance of heterogeneity.

Conclusions: Based on these findings, the hydrogel has the potential to provide an effective and practical breast cancer model for the passage of PDXs which will have the added benefits of being relatively cheap, fully-defined and free from the use of animals or animal products. Encapsulated cells will require further validation to confirm the maintenance of cell heterogeneity, genotypes and phenotypes across passage, but with further development, including the addition of bespoke cell and matrix components of the tumour microenvironment, there is clear potential to model other cancer types.

Supplementary information: The online version contains supplementary material available at 10.1007/s44164-023-00048-x.

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基于3D水凝胶的模型的应用,以取代使用动物通过患者来源的异种移植物。
目的:这种3D体外癌症患者衍生细胞繁殖模型,使用合成的自组装肽凝胶,可以形成完全表征的、可定制的肿瘤微环境。与许多现有的3D癌症模型不同,除了模型中细胞故意添加或产生的分子和图案外,肽凝胶是惰性的。方法:将癌症患者来源的异种移植物(PDX)分解并包埋在肽水凝胶中。通过显微镜检查监测生长,并每隔一段时间从凝胶中提取细胞并传代到新鲜凝胶中。通过qPCR和免疫染色技术评估传代细胞特征标记的保留。结果:癌症PDX显示能够在肽凝胶中扩展四个或更多个通道。发现污染的小鼠细胞可以通过连续传代快速去除。所得到的人类细胞被证明与一系列用于评估生存、生长和异质性维持的常见测定方法兼容。结论:基于这些发现,水凝胶有可能为PDX的通过提供一种有效和实用的癌症模型,这将具有相对便宜、完全明确和不使用动物或动物产品的额外好处。封装的细胞将需要进一步验证,以确认细胞异质性、基因型和表型在整个传代过程中的维持,但随着进一步的发展,包括添加肿瘤微环境的定制细胞和基质成分,有明显的潜力对其他癌症类型进行建模。补充信息:在线版本包含补充材料,可访问10.1007/s44164-023-00048-x。
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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