期刊
JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM
卷 41, 期 7, 页码 1707-1720出版社
SAGE PUBLICATIONS INC
DOI: 10.1177/0271678X20972656
关键词
Microglia; Muse cells; perinatal hypoxic ischemic encephalopathy; Rice Vannucci model; stage-specific embryonic antigen-3
This study investigated the therapeutic effects of human Muse cells in an HIE model, showing that Muse cells provided functional benefits possibly through regulation of glutamate metabolism and reduction of microglial activation in experimental HIE. Significant improvements in motor and cognitive functions were observed in the Muse cell-treated group at 4 weeks and 5 months.
Perinatal hypoxic ischemic encephalopathy (HIE) results in serious neurological dysfunction and mortality. Clinical trials of multilineage-differentiating stress enduring cells (Muse cells) have commenced in stroke using intravenous delivery of donor-derived Muse cells. Here, we investigated the therapeutic effects of human Muse cells in an HIE model. Seven-day-old rats underwent ligation of the left carotid artery then were exposed to 8% oxygen for 60 min, and 72 hours later intravenously transplanted with 1 x 10(4) of human-Muse and -non-Muse cells, collected from bone marrow-mesenchymal stem cells as stage-specific embryonic antigen-3 (SSEA-3)+ and -, respectively, or saline (vehicle) without immunosuppression. Human-specific probe revealed Muse cells distributed mainly to the injured brain at 2 and 4 weeks, and expressed neuronal and glial markers until 6 months. In contrast, non-Muse cells lodged in the lung at 2 weeks, but undetectable by 4 weeks. Magnetic resonance spectroscopy and positron emission tomography demonstrated that Muse cells dampened excitotoxic brain glutamatergic metabolites and suppressed microglial activation. Muse cell-treated group exhibited significant improvements in motor and cognitive functions at 4 weeks and 5 months. Intravenously transplanted Muse cells afforded functional benefits in experimental HIE possibly via regulation of glutamate metabolism and reduction of microglial activation.
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