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Electromagnetic Biology and Medicine Volume 36, 2017 - Issue 1
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Original Articles

Static magnetic field enhances the viability and proliferation rate of adipose tissue-derived mesenchymal stem cells potentially through activation of the phosphoinositide 3-kinase/Akt (PI3K/Akt) pathway

Monika MarędziakFaculty of Veterinary Medicine, University of Environmental and Life Sciences, Wrocław, Poland;Faculty of Biology, University of Environmental and Life Sciences, Wrocław, PolandCorrespondence[email protected]
,
Krzysztof TomaszewskiDepartment of Anatomy, Jagiellonian University Medical College, Krakow, Poland;Department of Orthopaedics and Trauma Surgery, 5th Military Clinical Hospital and Polyclinic, Krakow, Poland
,
Paulina PolinceuszFaculty of Biotechnology, Laboratory of Cytobiochemistry, University of Wroclaw, Wrocław, Poland
,
Daniel LewandowskiInstitute of Materials Science and Applied Mechanics, Wroclaw University of Technology, Wrocław, Poland
&
Krzysztof MaryczFaculty of Biology, University of Environmental and Life Sciences, Wrocław, Poland
Pages 45-54 | Received 17 Nov 2015, Accepted 31 Jan 2016, Published online: 01 Jul 2016
 
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ABSTRACT

The aim of this work was to investigate the effects of 0.5T static magnetic field (sMF) on the viability and proliferation rate of human adipose-derived mesenchymal stromal stem cells (hASCs) via activation of the phosphoinositide 3-kinase/Akt (PI3K/Akt) signaling pathway. In a 7-d culture we examined cell growth kinetic and population doubling time (PDT). We also examined cell morphology and the cellular senescence markers level. Exposure to sMF enhanced the viability of these cells. However, the effect was blocked by treating the cells with LY294002, a P13K inhibitor. We compared this effect by Western Blot analysis of Akt protein expression. We also examined whether the cell response on sMF stimulation is dependent on integrin engagement and we measured integrin gene expression. Our results suggest that stimulation using sMF is a viable method to improve hASC viability. sMF is involved in mechanisms associated with controlling cell proliferative potential signaling events.

Declaration of Interest

This publication was supported by Wrocław Centre of Biotechnology, program the Leading National Research Centre (KNOW) for years 2014–2018 . The authors declare no conflicts of interest.

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