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Cell motility and migration as determinants of stem cell efficacy

Authors :
Danielyan, Lusine
Schwab, Matthias
Krueger, Marcel A.
Calaminus, Carsten
Naumann, Ulrike
Winter, Stefan
Schaeffeler, Elke
Spogis, Annett
Beer-Hammer, Sandra
Neher, Jonas J.
Spohn, Gabriele
Kretschmer, Anja
Siegel, Georg
Krämer-Albers, Eva-Maria
Barth, Kerstin
Lee, Hong Jun
Kim, Seung U.
Frey, William H.
Claussen, Claus D.
Hermann, Dirk M.
Doeppner, Thorsten R.
Seifried, Erhard
Gleiter, Christoph H.
Brawek, Bianca
Northoff, Hinnak
Schäfer, Richard
Garaschuk, Olga
Asavapanumas, Nithi
Buadze, Marine
Lourhmati, Ali
Wendel, Hans-Peter
Avci-Adali, Meltem
Source :
EBioMedicine, Vol 60, Iss, Pp 102989-(2020), EBioMedicine, EBioMedicine 60, 102989-(2020). doi:10.1016/j.ebiom.2020.102989
Publication Year :
2020
Publisher :
Elsevier, 2020.

Abstract

Background: Stem cells‘ (SC) functional heterogeneity and its poorly understood aetiology impedes clinical development of cell-based therapies in regenerative medicine and oncology. Recent studies suggest a strong correlation between the SC migration potential and their therapeutic efficacy in humans. Designating SC migration as a denominator of functional SC heterogeneity, we sought to identify highly migrating subpopulations within different SC classes and evaluate their therapeutic properties in comparison to the parental non-selected cells. Methods: We selected highly migrating subpopulations from mesenchymal and neural SC (sMSC and sNSC), characterized their features including but not limited to migratory potential, trophic factor release and transcriptomic signature. To assess lesion-targeted migration and therapeutic properties of isolated subpopulations in vivo, surgical transplantation and intranasal administration of MSCs in mouse models of glioblastoma and Alzheimer's disease respectively were performed. Findings: Comparison of parental non-selected cells with isolated subpopulations revealed superior motility and migratory potential of sMSC and sNSC in vitro. We identified podoplanin as a major regulator of migratory features of sMSC/sNSC. Podoplanin engineering improved oncovirolytic activity of virus-loaded NSC on distantly located glioblastoma cells. Finally, sMSC displayed more targeted migration to the tumour site in a mouse glioblastoma model and remarkably higher potency to reduce pathological hallmarks and memory deficits in transgenic Alzheimer's disease mice. Interpretation: Functional heterogeneity of SC is associated with their motility and migration potential which can serve as predictors of SC therapeutic efficacy. Funding: This work was supported in part by the Robert Bosch Stiftung (Stuttgart, Germany) and by the IZEPHA grant. CA extern

Details

Language :
English
ISSN :
23523964
Volume :
60
Database :
OpenAIRE
Journal :
EBioMedicine
Accession number :
edsair.pmid.dedup....3667662807e8d4d6581fe2cfe0ec57af
Full Text :
https://doi.org/10.1016/j.ebiom.2020.102989