Modulation of the mesenchymal stem cell secretome using computer-controlled bioreactors: impact on neuronal cell proliferation, survival and differentiation

Modulation of the mesenchymal stem cell secretome using computer-controlled bioreactors: impact on neuronal cell proliferation, survival and differentiation

In recent years it has been shown that the therapeutic benefits of human mesenchymal stem/ stromal cells (hMSCs) in the Central Nervous System (CNS) are mainly attributed to their secretome. The implementation of computer-controlled suspension bioreactors has shown to be a viable route for the expan...

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Published in:Scientific reports Vol. 6; no. 1; p. 27791
Main Authors: Teixeira, Fábio Gabriel Rodrigues, Panchalingam, Krishna M., Silva, Rita Catarina Assunção Ribeiro, Serra, Sofia Cravino, Pinheiro, Bárbara Filipa Mendes, Patrício, P., Jung, Sunghoon, Anjo, Sandra I., Manadas, Bruno, Pinto, Luísa, Sousa, Nuno, Behie, Leo A., Salgado, A. J.
Format: Journal Article
Language:English
Published: London Springer Nature 15-06-2016
Nature Publishing Group UK
Nature Publishing Group
Subjects:
13/106
13/31
631/61/2320
692/308/2171
82/1
82/58
Animals
Bioreactors
Bone marrow
Bone Marrow Cells - cytology
Cell Differentiation
Cell growth
Cell Proliferation
Cell Survival
Cells, Cultured
Central nervous system
Computers
Growth factors
Health sciences
Humanities and Social Sciences
Humans
Injections
Male
Mass Spectrometry
Mesenchymal Stem Cell Transplantation
Mesenchymal Stromal Cells - cytology
Mesenchymal Stromal Cells - secretion
multidisciplinary
Neurons - cytology
Proteome - secretion
Proteomics
Rats, Wistar
Science
Science & Technology
Stem cells
Portugal
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Summary:In recent years it has been shown that the therapeutic benefits of human mesenchymal stem/ stromal cells (hMSCs) in the Central Nervous System (CNS) are mainly attributed to their secretome. The implementation of computer-controlled suspension bioreactors has shown to be a viable route for the expansion of these cells to large numbers. As hMSCs actively respond to their culture environment, there is the hypothesis that one can modulate its secretome through their use. Herein, we present data indicating that the use of computer-controlled suspension bioreactors enhanced the neuroregulatory profile of hMSCs secretome. Indeed, higher levels of in vitro neuronal differentiation and NOTCH1 expression in human neural progenitor cells (hNPCs) were observed when these cells were incubated with the secretome of dynamically cultured hMSCs. A similar trend was also observed in the hippocampal dentate gyrus (DG) of rat brains where, upon injection, an enhanced neuronal and astrocytic survival and differentiation, was observed. Proteomic analysis also revealed that the dynamic culturing of hMSCs increased the secretion of several neuroregulatory molecules and miRNAs present in hMSCs secretome. In summary, the appropriate use of dynamic culture conditions can represent an important asset for the development of future neuro-regenerative strategies involving the use of hMSCs secretome. We acknowledge the financial support of the Portuguese Foundation for Science and Technology (FCT) for a Ciencia 2007 program and IF Development Grant (AJS), a pre-doctoral fellowship to FGT (SFRH/69637/2010) and a PhD fellowship to SA (SFRH/BD/81495/2011), a Canada Research Chair in Biomedical Engineering (LAB) and a SSE Postdoctoral Fellowship (KMP). Premios Santa Casa Neurociencias - Prize Melo e Castro for Spinal Cord Injury Research. PEst-C/SAU/LA0001/2013-2014. Co-funded by "COMPETE Programa Operacional Factores de Competitividade", QREN, the European Union (FEDER - Fundo Europeu de Desenvolvimento Regional) and by The National Mass Spectrometry Network (RNEM) under the contract REDE/1506/REM/2005.
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These authors contributed equally to this work.
These authors jointly supervised this work.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep27791