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Association with cationized gelatin nanospheres enhances cell internalization of mitochondria efficiency

The objective of this study is to confirm the methodological feasibility of cationized gelatin nanospheres (cGNS) to enhance the internalization efficiency of mitochondria (Mt) isolated to cells for their increasing functions. The cGNS were simply associated on the surface of Mt by the electrostatic...

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Published in:	Regenerative therapy 2023-12, Vol.24, p.190-200
Main Authors:	Yang, Wenxuan, Abe, Satoshi, Tabata, Yasuhiko
Format:	Article
Language:	English
Subjects:	ATP Cationized gelatin Mitochondria internalization Nanospheres Original ROS
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creator	Yang, Wenxuan Abe, Satoshi Tabata, Yasuhiko
description	The objective of this study is to confirm the methodological feasibility of cationized gelatin nanospheres (cGNS) to enhance the internalization efficiency of mitochondria (Mt) isolated to cells for their increasing functions. The cGNS were simply associated on the surface of Mt by the electrostatic interaction. Different sizes of cGNS were used to allow Mt to associate on the Mt surface (Mt-cGNS). As a control, cationized gelatin (cG) was used to modify the Mt surface (Mt-cG). The Mt-cG and Mt-cGNS prepared were cultured with H9c2 cells to examine their internalization. The internalization efficiency significantly increased by utilizing cGNS. However, there was no significant difference in the internalization efficiency among cGNS with different sizes. After incubation of Mt, Mt-cG, and Mt-cGNS, the superoxide amount and ATP generation were evaluated. Significantly lower superoxide amount and higher ATP amount were observed for the Mt-cGNS group compared with those of non-modified Mt group. It is conceivable that cGNS enhance the cellular internalization of Mt, leading to an improve mitochondrial functions in the recipient cells. In conclusion, cGNS are promising to improve the efficacy in mitochondria internalization.
doi_str_mv	10.1016/j.reth.2023.06.011
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The cGNS were simply associated on the surface of Mt by the electrostatic interaction. Different sizes of cGNS were used to allow Mt to associate on the Mt surface (Mt-cGNS). As a control, cationized gelatin (cG) was used to modify the Mt surface (Mt-cG). The Mt-cG and Mt-cGNS prepared were cultured with H9c2 cells to examine their internalization. The internalization efficiency significantly increased by utilizing cGNS. However, there was no significant difference in the internalization efficiency among cGNS with different sizes. After incubation of Mt, Mt-cG, and Mt-cGNS, the superoxide amount and ATP generation were evaluated. Significantly lower superoxide amount and higher ATP amount were observed for the Mt-cGNS group compared with those of non-modified Mt group. It is conceivable that cGNS enhance the cellular internalization of Mt, leading to an improve mitochondrial functions in the recipient cells. In conclusion, cGNS are promising to improve the efficacy in mitochondria internalization.</description><identifier>ISSN: 2352-3204</identifier><identifier>EISSN: 2352-3204</identifier><identifier>DOI: 10.1016/j.reth.2023.06.011</identifier><identifier>PMID: 37483433</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>ATP ; Cationized gelatin ; Mitochondria internalization ; Nanospheres ; Original ; ROS</subject><ispartof>Regenerative therapy, 2023-12, Vol.24, p.190-200</ispartof><rights>2023 The Japanese Society for Regenerative Medicine</rights><rights>2023 The Japanese Society for Regenerative Medicine. Production and hosting by Elsevier B.V.</rights><rights>2023 The Japanese Society for Regenerative Medicine. 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subjects	ATP Cationized gelatin Mitochondria internalization Nanospheres Original ROS
title	Association with cationized gelatin nanospheres enhances cell internalization of mitochondria efficiency
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