Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell
Enzymatic biofuel cells (EBFCs) have excellent potential as components in bioelectronic devices, especially as active biointerfaces to regulate stem cell behavior for regenerative medicine applications. However, it remains unclear to what extent EBFC-generated electrical stimulation can regulate the...
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sg-ntu-dr.10356-1464212023-07-14T15:48:43Z Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell Jeon, Won-Yong Mun, Seyoung Ng, Wei Beng Kang, Keunsoo Han, Kyudong Hwang, Sohyun Kim, Hyug-Han Lee, Jae Ho School of Materials Science and Engineering Engineering::Materials Human Adipose-derived Mesenchymal Stem Cell Enzymatic Biofuel Cell Enzymatic biofuel cells (EBFCs) have excellent potential as components in bioelectronic devices, especially as active biointerfaces to regulate stem cell behavior for regenerative medicine applications. However, it remains unclear to what extent EBFC-generated electrical stimulation can regulate the functional behavior of human adipose-derived mesenchymal stem cells (hAD-MSCs) at the morphological and gene expression levels. Herein, we investigated the effect of EBFC-generated electrical stimulation on hAD-MSC cell morphology and gene expression using next-generation RNA sequencing. We tested three different electrical currents, 127 ± 9, 248 ± 15, and 598 ± 75 nA/cm2, in mesenchymal stem cells. We performed transcriptome profiling to analyze the impact of EBFC-derived electrical current on gene expression using next generation sequencing (NGS). We also observed changes in cytoskeleton arrangement and analyzed gene expression that depends on the electrical stimulation. The electrical stimulation of EBFC changes cell morphology through cytoskeleton re-arrangement. In particular, the results of whole transcriptome NGS showed that specific gene clusters were up-or down-regulated depending on the magnitude of applied electrical current of EBFC. In conclusion, this study demonstrates that EBFC-generated electrical stimulation can influence the morphological and gene expression properties of stem cells; such capabilities can be useful for regenerative medicine applications such as bioelectronic devices. Published version 2021-02-16T08:29:44Z 2021-02-16T08:29:44Z 2021 Journal Article Jeon, W.-Y., Mun, S., Ng, W. B., Kang, K., Han, K., Hwang, S., . . . Lee, J. H. (2021). Modulation of Human Mesenchymal Stem Cells by Electrical Stimulation Using an Enzymatic Biofuel Cell. Catalysts, 11(1), 62-. doi:10.3390/catal11010062 2073-4344 https://hdl.handle.net/10356/146421 10.3390/catal11010062 2-s2.0-85099195016 1 11 en Catalysts © 2021 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Materials Human Adipose-derived Mesenchymal Stem Cell Enzymatic Biofuel Cell |
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Engineering::Materials Human Adipose-derived Mesenchymal Stem Cell Enzymatic Biofuel Cell Jeon, Won-Yong Mun, Seyoung Ng, Wei Beng Kang, Keunsoo Han, Kyudong Hwang, Sohyun Kim, Hyug-Han Lee, Jae Ho Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| description |
Enzymatic biofuel cells (EBFCs) have excellent potential as components in bioelectronic devices, especially as active biointerfaces to regulate stem cell behavior for regenerative medicine applications. However, it remains unclear to what extent EBFC-generated electrical stimulation can regulate the functional behavior of human adipose-derived mesenchymal stem cells (hAD-MSCs) at the morphological and gene expression levels. Herein, we investigated the effect of EBFC-generated electrical stimulation on hAD-MSC cell morphology and gene expression using next-generation RNA sequencing. We tested three different electrical currents, 127 ± 9, 248 ± 15, and 598 ± 75 nA/cm2, in mesenchymal stem cells. We performed transcriptome profiling to analyze the impact of EBFC-derived electrical current on gene expression using next generation sequencing (NGS). We also observed changes in cytoskeleton arrangement and analyzed gene expression that depends on the electrical stimulation. The electrical stimulation of EBFC changes cell morphology through cytoskeleton re-arrangement. In particular, the results of whole transcriptome NGS showed that specific gene clusters were up-or down-regulated depending on the magnitude of applied electrical current of EBFC. In conclusion, this study demonstrates that EBFC-generated electrical stimulation can influence the morphological and gene expression properties of stem cells; such capabilities can be useful for regenerative medicine applications such as bioelectronic devices. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Jeon, Won-Yong Mun, Seyoung Ng, Wei Beng Kang, Keunsoo Han, Kyudong Hwang, Sohyun Kim, Hyug-Han Lee, Jae Ho |
| format |
Article |
| author |
Jeon, Won-Yong Mun, Seyoung Ng, Wei Beng Kang, Keunsoo Han, Kyudong Hwang, Sohyun Kim, Hyug-Han Lee, Jae Ho |
| author_sort |
Jeon, Won-Yong |
| title |
Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| title_short |
Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| title_full |
Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| title_fullStr |
Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| title_full_unstemmed |
Modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| title_sort |
modulation of human mesenchymal stem cells by electrical stimulation using an enzymatic biofuel cell |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146421 |
| _version_ |
1772826135435935744 |