Intracellular delivery of trehalose renders mesenchymal stromal cells viable and immunomodulatory competent after cryopreservation

Trehalose is a nontoxic disaccharide and a promising cryoprotection agent for medically applicable cells. In this study, the efficiency of combining trehalose with reversible electroporation for cryopreservation of two types of human mesenchymal stromal cells was investigated: adipose-derived stroma...

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Veröffentlicht in:	Cytotechnology (Dordrecht) 2021-06, Vol.73 (3), p.391-411
Hauptverfasser:	Dovgan, Barbara, Miklavčič, Damijan, Knežević, Miomir, Zupan, Janja, Barlič, Ariana
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Sprache:	eng
Schlagworte:	Biochemistry Biomedicine Biotechnology Cell activation Cell survival Cells Cellular stress response Chemistry Chemistry and Materials Science Cryopreservation Cytotoxicity Dimethyl sulfoxide Disaccharides Electroporation Gene expression Immunomodulation Inflammation Intracellular Medical ethics Mesenchymal stem cells Mesenchyme Original Original Article Phase transitions Stromal cells Superoxide dismutase Trehalose
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creator	Dovgan, Barbara Miklavčič, Damijan Knežević, Miomir Zupan, Janja Barlič, Ariana
description	Trehalose is a nontoxic disaccharide and a promising cryoprotection agent for medically applicable cells. In this study, the efficiency of combining trehalose with reversible electroporation for cryopreservation of two types of human mesenchymal stromal cells was investigated: adipose-derived stromal cells, and umbilical-cord-derived stromal cells. Comparable results to standard dimethyl sulfoxide cryopreservation protocols were achieved, even without extensive electroporation parameters and protocol optimization. The presence of high extracellular trehalose resulted in comparable cell viabilities without and with electroporation. According to the determination of trehalose concentrations, 250 mM extracellular trehalose resulting in, 20 mM to 50 mM intracellular trehalose were sufficient for successful cryopreservation of cells. With electroporation, higher (i.e. 50 mM to 90 mM) intracellular trehalose was achieved after cryopreservation, although cell survival was not improved significantly. To evaluate the impact of electroporation and cryopreservation on cells, stress and immune-activation-related gene expression were analyzed. Electroporation and/or cryopreservation resulted in increased SOD2 and HSPA1A expression. Despite the increased stress response, the high up-regulation by mesenchymal stromal cells of immunomodulatory genes in the inflammatory environment was not affected. Highest expression was seen for the IDO1 and TSG6 genes. In conclusion, cryopreservation of mesenchymal stromal cells in trehalose results in comparable characteristics to their cryopreservation using dimethyl sulfoxide.
doi_str_mv	10.1007/s10616-021-00465-4
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To evaluate the impact of electroporation and cryopreservation on cells, stress and immune-activation-related gene expression were analyzed. Electroporation and/or cryopreservation resulted in increased SOD2 and HSPA1A expression. Despite the increased stress response, the high up-regulation by mesenchymal stromal cells of immunomodulatory genes in the inflammatory environment was not affected. Highest expression was seen for the IDO1 and TSG6 genes. 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To evaluate the impact of electroporation and cryopreservation on cells, stress and immune-activation-related gene expression were analyzed. Electroporation and/or cryopreservation resulted in increased SOD2 and HSPA1A expression. Despite the increased stress response, the high up-regulation by mesenchymal stromal cells of immunomodulatory genes in the inflammatory environment was not affected. Highest expression was seen for the IDO1 and TSG6 genes. 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subjects	Biochemistry Biomedicine Biotechnology Cell activation Cell survival Cells Cellular stress response Chemistry Chemistry and Materials Science Cryopreservation Cytotoxicity Dimethyl sulfoxide Disaccharides Electroporation Gene expression Immunomodulation Inflammation Intracellular Medical ethics Mesenchymal stem cells Mesenchyme Original Original Article Phase transitions Stromal cells Superoxide dismutase Trehalose
title	Intracellular delivery of trehalose renders mesenchymal stromal cells viable and immunomodulatory competent after cryopreservation
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