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Article type: Research Article
Authors: Tatarishvili, Jemal | Oki, Koichi | Monni, Emanuela | Koch, Philipp | Memanishvili, Tamar; | Buga, Ana-Maria | Verma, Vivek | Popa-Wagner, Aurel | Brüstle, Oliver | Lindvall, Olle | Kokaia, Zaal
Affiliations: Laboratory of Stem Cells and Restorative Neurology, Lund Stem Cell Center, University Hospital, Lund, Sweden | Institute of Reconstructive Neurobiology, Life & Brain Center, University of Bonn and Hertie Fundation, Bonn, Germany | I. Javakhishvili Tbilisi State University, Tbilisi, Georgia | Department of Psychiatry and Molecular Psychiatry, Rostock University Medical School, Rostock, Germany
Note: [] Corresponding author: Zaal Kokaia, Lund Stem Cell Center, University Hospital, BMC B10, SE-22184 Lund, Sweden. Tel.: +46 46222 0276; Fax: +46 462220560; E-mail: [email protected]
Abstract: Purpose: Induced pluripotent stem cells (iPSCs) improve behavior and form neurons after implantation into the stroke-injured adult rodent brain. How the aged brain responds to grafted iPSCs is unknown. We determined survival and differentiation of grafted human fibroblast-derived iPSCs and their ability to improve recovery in aged rats after stroke. Methods: Twenty-four months old rats were subjected to 30 min distal middle cerebral artery occlusion causing neocortical damage. After 48 h, animals were transplanted intracortically with human iPSC-derived long-term neuroepithelial-like stem (hiPSC-lt-NES) cells. Controls were subjected to stroke and were vehicle-injected. Results: Cell-grafted animals performed better than vehicle-injected recipients in cylinder test at 4 and 7 weeks. At 8 weeks, cell proliferation was low (0.7 %) and number of hiPSC-lt-NES cells corresponded to 49.2% of that of implanted cells. Transplanted cells expressed markers of neuroblasts and mature and GABAergic neurons. Cell-grafted rats exhibited less activated microglia/macrophages in injured cortex and neuronal loss was mitigated. Conclusions: Our study provides the first evidence that grafted human iPSCs survive, differentiate to neurons and ameliorate functional deficits in stroke-injured aged brain.
Keywords: Stroke, neuroregeneration, inflammation, reprogramming, recovery, neural stem cell, aging, transplantation
DOI: 10.3233/RNN-140404
Journal: Restorative Neurology and Neuroscience, vol. 32, no. 4, pp. 547-558, 2014
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