Calcium Peroxide-Containing Polydimethylsiloxane-Based Microwells for Inhibiting Cell Death in Spheroids through Improved Oxygen Supply

Multicellular spheroids are expected to be used for in vivo-like tissue models and cell transplantation. Microwell devices are useful for the fabrication of multicellular spheroids to improve productivity and regulate their size. However, the high cell density in microwell devices leads to accelerat...

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Veröffentlicht in:	Biological & pharmaceutical bulletin 2021/10/01, Vol.44(10), pp.1458-1464
Hauptverfasser:	Mizukami, Yuya, Takahashi, Yuki, Shimizu, Kazunori, Konishi, Satoshi, Takakura, Yoshinobu, Nishikawa, Makiya
Format:	Artikel
Sprache:	eng
Schlagworte:	Apoptosis Apoptosis - drug effects Cell culture Cell Culture Techniques - instrumentation Cell death Cell density Cell Hypoxia - drug effects Cell Line, Tumor Cell size Cell Survival Cell viability Dimethylpolysiloxanes - chemistry Hepatocellular carcinoma Humans Hypoxia Liver cancer multicellular spheroid Oxygen - metabolism oxygen generator Peroxides - chemistry Peroxides - pharmacology Polydimethylsiloxane Spheroids Spheroids, Cellular - physiology Stem cells Tissue engineering Transplantation
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creator	Mizukami, Yuya Takahashi, Yuki Shimizu, Kazunori Konishi, Satoshi Takakura, Yoshinobu Nishikawa, Makiya
description	Multicellular spheroids are expected to be used for in vivo-like tissue models and cell transplantation. Microwell devices are useful for the fabrication of multicellular spheroids to improve productivity and regulate their size. However, the high cell density in microwell devices leads to accelerated cell death. In this study, we developed O2-generating microwells by incorporating calcium peroxide (CaO2) into polydimethylsiloxane (PDMS)-based microwells. The CaO2-containing PDMS was shown to generate O2 for 3 d. Then, CaO2-containing PDMS was used to fabricate O2-generating microwells using a micro-molding technique. When human hepatocellular carcinoma (HepG2) spheroids were prepared using the conventional microwells, the O2 concentration in the culture medium reduced to approx. 67% of the cell-free level. In contrast, the O2-generating microwells maintained O2 at constant levels. The HepG2 spheroids prepared using the O2-generating microwells had a larger number of live cells than those prepared using the conventional microwells. In addition, the O2-generating microwells rescued hypoxia in the HepG2 spheroids and increased cell viability. Lastly, the O2-generating microwells were also useful for the preparation of multicellular spheroids of other cell types (i.e., MIN6, B16–BL6, and adipose-derived stem cells) with high cell viability. These results showed that the O2-generating microwells are useful for preparing multicellular spheroids with high cell viability.
doi_str_mv	10.1248/bpb.b21-00269
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Microwell devices are useful for the fabrication of multicellular spheroids to improve productivity and regulate their size. However, the high cell density in microwell devices leads to accelerated cell death. In this study, we developed O2-generating microwells by incorporating calcium peroxide (CaO2) into polydimethylsiloxane (PDMS)-based microwells. The CaO2-containing PDMS was shown to generate O2 for 3 d. Then, CaO2-containing PDMS was used to fabricate O2-generating microwells using a micro-molding technique. When human hepatocellular carcinoma (HepG2) spheroids were prepared using the conventional microwells, the O2 concentration in the culture medium reduced to approx. 67% of the cell-free level. In contrast, the O2-generating microwells maintained O2 at constant levels. The HepG2 spheroids prepared using the O2-generating microwells had a larger number of live cells than those prepared using the conventional microwells. 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Microwell devices are useful for the fabrication of multicellular spheroids to improve productivity and regulate their size. However, the high cell density in microwell devices leads to accelerated cell death. In this study, we developed O2-generating microwells by incorporating calcium peroxide (CaO2) into polydimethylsiloxane (PDMS)-based microwells. The CaO2-containing PDMS was shown to generate O2 for 3 d. Then, CaO2-containing PDMS was used to fabricate O2-generating microwells using a micro-molding technique. When human hepatocellular carcinoma (HepG2) spheroids were prepared using the conventional microwells, the O2 concentration in the culture medium reduced to approx. 67% of the cell-free level. In contrast, the O2-generating microwells maintained O2 at constant levels. The HepG2 spheroids prepared using the O2-generating microwells had a larger number of live cells than those prepared using the conventional microwells. In addition, the O2-generating microwells rescued hypoxia in the HepG2 spheroids and increased cell viability. Lastly, the O2-generating microwells were also useful for the preparation of multicellular spheroids of other cell types (i.e., MIN6, B16–BL6, and adipose-derived stem cells) with high cell viability. These results showed that the O2-generating microwells are useful for preparing multicellular spheroids with high cell viability.</abstract><cop>Japan</cop><pub>The Pharmaceutical Society of Japan</pub><pmid>34602554</pmid><doi>10.1248/bpb.b21-00269</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Apoptosis Apoptosis - drug effects Cell culture Cell Culture Techniques - instrumentation Cell death Cell density Cell Hypoxia - drug effects Cell Line, Tumor Cell size Cell Survival Cell viability Dimethylpolysiloxanes - chemistry Hepatocellular carcinoma Humans Hypoxia Liver cancer multicellular spheroid Oxygen - metabolism oxygen generator Peroxides - chemistry Peroxides - pharmacology Polydimethylsiloxane Spheroids Spheroids, Cellular - physiology Stem cells Tissue engineering Transplantation
title	Calcium Peroxide-Containing Polydimethylsiloxane-Based Microwells for Inhibiting Cell Death in Spheroids through Improved Oxygen Supply
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