Patterned PVA Hydrogels with 3D Petri Dish^® Micro-Molds of Varying Topography for Spheroid Formation of HeLa Cancer Cells: In Vitro Assessment.

IF 5.3 3区化学 Q1 POLYMER SCIENCE Gels Pub Date : 2024-08-06 DOI:10.3390/gels10080518

Maira Moreno Valtierra, Adriana Urue Corral, Jorge Armando Jiménez-Avalos, Erika Barbosa Avalos, Judith Dávila-Rodríguez, Norma Morales Hernández, Mauricio Comas-García, Guillermo Toriz González, Antonio Oceguera-Villanueva, José Alfonso Cruz-Ramos, Rodolfo Hernández Gutiérrez, Moisés Martínez Velázquez, Zaira Yunuen García Carvajal

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Abstract

Cell spheroids are an important three-dimensional (3D) model for in vitro testing and are gaining interest for their use in clinical applications. More natural 3D cell culture environments that support cell-cell interactions have been created for cancer drug discovery and therapy applications, such as the scaffold-free 3D Petri Dish^® technology. This technology uses reusable and autoclavable silicone micro-molds with different topographies, and it conventionally uses gelled agarose for hydrogel formation to preserve the topography of the selected micro-mold. The present study investigated the feasibility of using a patterned Poly(vinyl alcohol) hydrogel using the circular topography 12-81 (9 × 9 wells) micro-mold to form HeLa cancer cell spheroids and compare them with the formed spheroids using agarose hydrogels. PVA hydrogels showed a slightly softer, springier, and stickier texture than agarose hydrogels. After preparation, Fourier transform infrared (FTIR) spectra showed chemical interactions through hydrogen bonding in the PVA and agarose hydrogels. Both types of hydrogels favor the formation of large HeLa spheroids with an average diameter of around 700-800 µm after 72 h. However, the PVA spheroids are more compact than those from agarose, suggesting a potential influence of micro-mold surface chemistry on cell behavior and spheroid formation. This was additionally confirmed by evaluating the spheroid size, morphology, integrity, as well as E-cadherin and Ki67 expression. The results suggest that PVA promotes stronger cell-to-cell interactions in the spheroids. Even the integrity of PVA spheroids was maintained after exposure to the drug cisplatin. In conclusion, the patterned PVA hydrogels were successfully prepared using the 3D Petri Dish^® micro-molds, and they could be used as suitable platforms for studying cell-cell interactions in cancer drug therapy.

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采用不同地形的 3D Petri Dish® 微模的图案化 PVA 水凝胶用于 HeLa 癌细胞的球形体形成：体外评估

细胞球是一种重要的体外测试三维（3D）模型，在临床应用中的应用也越来越受到关注。支持细胞间相互作用的更自然的三维细胞培养环境已被用于癌症药物的发现和治疗，例如无支架三维培养皿®技术。该技术使用可重复使用且可高压灭菌的硅胶微模，具有不同的形貌，传统上使用凝胶琼脂糖形成水凝胶，以保持所选微模的形貌。本研究探讨了使用圆形拓扑 12-81（9 × 9 孔）微模的图案化聚乙烯醇水凝胶来形成 HeLa 癌细胞球体的可行性，并与使用琼脂糖水凝胶形成的球体进行了比较。与琼脂糖水凝胶相比，PVA 水凝胶的质地更软、更弹、更粘。制备完成后，傅立叶变换红外光谱（FTIR）显示，PVA 和琼脂糖水凝胶通过氢键发生化学作用。两种水凝胶都有利于在 72 小时后形成平均直径约为 700-800 微米的大 HeLa 球体。然而，PVA 球体比琼脂糖球体更紧凑，这表明微模表面化学成分对细胞行为和球体形成有潜在影响。此外，通过评估球体大小、形态、完整性以及 E-cadherin 和 Ki67 的表达也证实了这一点。结果表明，PVA 能促进球体内细胞间更强的相互作用。甚至在暴露于顺铂药物后，PVA 球体也能保持完整性。总之，利用三维 Petri Dish® 微模具成功制备了图案化 PVA 水凝胶，它们可用作研究癌症药物治疗中细胞间相互作用的合适平台。

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来源期刊

Gels POLYMER SCIENCE-

CiteScore

4.70

自引率

19.60%

发文量

707

审稿时长

11 weeks

期刊介绍： The journal Gels (ISSN 2310-2861) is an international, open access journal on physical (supramolecular) and chemical gel-based materials. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the maximum length of the papers, and full experimental details must be provided so that the results can be reproduced. Short communications, full research papers and review papers are accepted formats for the preparation of the manuscripts. Gels aims to serve as a reference journal with a focus on gel materials for researchers working in both academia and industry. Therefore, papers demonstrating practical applications of these materials are particularly welcome. Occasionally, invited contributions (i.e., original research and review articles) on emerging issues and high-tech applications of gels are published as special issues.