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Stem Cell Epigenetics, Genomics, and Proteomics
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Insights into Mesenchymal Stem Cell Aging: Involvement of Antioxidant Defense and Actin Cytoskeleton†‡
Article first published online: 26 FEB 2009
DOI: 10.1002/stem.49
Copyright © 2009 AlphaMed Press
Additional Information
How to Cite
Kasper, G., Mao, L., Geissler, S., Draycheva, A., Trippens, J., Kühnisch, J., Tschirschmann, M., Kaspar, K., Perka, C., Duda, G. N. and Klose, J. (2009), Insights into Mesenchymal Stem Cell Aging: Involvement of Antioxidant Defense and Actin Cytoskeleton. STEM CELLS, 27: 1288–1297. doi: 10.1002/stem.49
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Author contributions: G.K., C.P., G.N.D., and J.K.: designed research; L.M., S.G., J.T., M.T., A.D., and K.K.: performed research; L.M., S.G., J.T., A.D., and J.K.: analyzed data; G.K.: wrote paper.
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First published online in STEM CELLSExpress February 26, 2009
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Publication History
- Issue published online: 1 JUN 2009
- Article first published online: 26 FEB 2009
- Accepted manuscript online: 26 FEB 2009 12:00AM EST
- Manuscript Accepted: 5 FEB 2009
- Manuscript Received: 25 SEP 2008
Funded by
- Federal Ministry of Education and Research
- Berlin-Brandenburg Center for Regenerative Therapies
- German National Genome Research Network
Keywords:
- Aging;
- Mesenchymal stem cells;
- Gene expression;
- Tissue regeneration
Abstract
Progenitor cells such as mesenchymal stem cells (MSCs) have elicited great hopes for therapeutic augmentation of physiological regeneration processes, e.g., for bone fracture healing. However, regeneration potential decreases with age, which raises questions about the efficiency of autologous approaches in elderly patients. To elucidate the mechanisms and cellular consequences of aging, the functional and proteomic changes in MSCs derived from young and old Sprague–Dawley rats were studied concurrently. We demonstrate not only that MSC concentration in bone marrow declines with age but also that their function is altered, especially their migratory capacity and susceptibility toward senescence. High-resolution two-dimensional electrophoresis of the MSC proteome, under conditions of in vitro self-renewal as well as osteogenic stimulation, identified several age-dependent proteins, including members of the calponin protein family as well as galectin-3. Functional annotation clustering revealed that age-affected molecular functions are associated with cytoskeleton organization and antioxidant defense. These proteome screening results are supported by lower actin turnover and diminished antioxidant power in aged MSCs, respectively. Thus, we postulate two main reasons for the compromised cellular function of aged MSCs: (a) declined responsiveness to biological and mechanical signals due to a less dynamic actin cytoskeleton and (b) increased oxidative stress exposure favoring macromolecular damage and senescence. These results, along with the observed similar differentiation potentials, imply that MSC-based therapeutic approaches for the elderly should focus on attracting the cells to the site of injury and oxidative stress protection, rather than merely stimulating differentiation. STEM CELLS 2009;27:1288–1297