机械可调水凝胶平台介导的多细胞球体自组装形成：揭示化学疗法与非侵入性光热疗法联合治疗结肠微小肿瘤的协同作用

Self-Organization Formation of Multicellular Spheroids Mediated by Mechanically Tunable Hydrogel Platform: Toward Revealing the Synergy of Chemo- and Noninvasive Photothermal Therapy against Colon Microtumor.

作者信息

Zhang Yi, Guo Zhao-Bin, Nie Yu-Min, Feng Guan-Ping, Deng Man-Jiao, Hu Yi-Min, Zhang Hui-Jie, Zhao Yin-Yi, Feng Yi-Wei, Yu Ting-Ting, Hu Ke

机构信息

Department of Colorectal Surgery, The First Affiliated Hospital of Nanjing Medical University, Nanjing, Jiangsu, China.

Institute for Nanobiotechnology, Johns Hopkins University, Baltimore, MD, USA.

出版信息

Macromol Biosci. 2022 Apr;22(4):e2100498. doi: 10.1002/mabi.202100498. Epub 2022 Jan 19.

DOI:10.1002/mabi.202100498

PMID:35014172

Abstract

Three-dimensional (3D) tumor cell culture offers a more tissue-recapitulating model in cancer treatment evaluation. However, conventional models based on cell-substrate adhesion deprivation are still of insufficient real tumor mimic. In this work, a novel method is proposed for inducing multicellular spheroids (MCSs) formation based on hydrogel with tunable microenvironmental properties. Colon tumor cells DLD1 cultured on hydrogel substrate with proper physical stimulation form MCSs via self-organization. Chemotherapy based on clinical drug and far-infrared photothermal therapy is evaluated with DLD1 MCSs obtained by this method. The synergism of chemotherapy and noninvasive photothermal therapy based on graphene device is further verified in MCSs model and it is believed this method holds potential in in vitro anti-tumor strategies evaluation for precision medicine.

摘要

三维（3D）肿瘤细胞培养为癌症治疗评估提供了一个更能模拟组织的模型。然而，基于细胞与底物粘附剥夺的传统模型对真实肿瘤的模拟仍不充分。在这项工作中，提出了一种基于具有可调微环境特性的水凝胶诱导多细胞球体（MCSs）形成的新方法。在具有适当物理刺激的水凝胶底物上培养的结肠肿瘤细胞DLD1通过自组织形成MCSs。用通过该方法获得的DLD1 MCSs评估基于临床药物的化疗和远红外光热疗法。在MCSs模型中进一步验证了基于石墨烯器件的化疗与非侵入性光热疗法的协同作用，并且认为该方法在用于精准医学的体外抗肿瘤策略评估中具有潜力。

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机械可调水凝胶平台介导的多细胞球体自组装形成：揭示化学疗法与非侵入性光热疗法联合治疗结肠微小肿瘤的协同作用

Self-Organization Formation of Multicellular Spheroids Mediated by Mechanically Tunable Hydrogel Platform: Toward Revealing the Synergy of Chemo- and Noninvasive Photothermal Therapy against Colon Microtumor.

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