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

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 multicellula...

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Veröffentlicht in:	Macromolecular bioscience 2022-04, Vol.22 (4), p.e2100498-n/a
Hauptverfasser:	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
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Sprache:	eng
Schlagworte:	3D cell culturing Cell culture Cell Culture Techniques Cell Line, Tumor Chemotherapy Colon Deprivation Graphene Humans hydrogel Hydrogels Hydrogels - chemistry Hydrogels - pharmacology In vitro methods and tests microenvironment properties Neoplasms Photothermal Therapy Precision medicine Spheroids Spheroids, Cellular Substrates Synergism synergistic treatment Tissue culture Tumor cells Tumors
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container_start_page	e2100498
container_title	Macromolecular bioscience
container_volume	22
creator	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
description	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. A novel method for inducing multicellular spheroids (MCSs) formation is proposed based on hydrogel with tunable microenvironmental properties. The synergism of chemotherapy and noninvasive photothermal therapy based on graphene device is further verified in MCSs model and this method holds potential in in vitro anti‐tumor strategies evaluation for precision medicine.
doi_str_mv	10.1002/mabi.202100498
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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. A novel method for inducing multicellular spheroids (MCSs) formation is proposed based on hydrogel with tunable microenvironmental properties. 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subjects	3D cell culturing Cell culture Cell Culture Techniques Cell Line, Tumor Chemotherapy Colon Deprivation Graphene Humans hydrogel Hydrogels Hydrogels - chemistry Hydrogels - pharmacology In vitro methods and tests microenvironment properties Neoplasms Photothermal Therapy Precision medicine Spheroids Spheroids, Cellular Substrates Synergism synergistic treatment Tissue culture Tumor cells Tumors
title	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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