Akademik Veri Yönetim Sistemi
The International journal of neuroscience, cilt.132, sa.3, ss.258-268, 2022 (SCI-Expanded)
Introduction Reduction of blood flow below a threshold value in brain regions locally or globally is called cerebral ischemia and proper treatment requires either the restoration of normal blood flow and/or the administration of neuroprotective therapies. Human trophoblast progenitor cells (hTPCs) give rise to the placenta and are responsible for the invasion and vascular remodeling of the maternal vessels within the uterus. Here, we tested whether hTPCs promoted to differentiate along neural lineages may exhibit therapeutic properties in the setting of cerebral ischemiain vivo. Materials and methods Cerebral ischemia was generated in ratsviamiddle cerebral artery occlusion and, after 24 h, hTPCs were injected systemicallyviatail vein. Animals were sacrified at Day 3 or 11. Results TTC staining indicated that infarct volumes were smaller in hTPC treated animals. Visible myelin recovery was observed in the hTPC injected group with Luxol Fast Blue staining. On Day 11 after hTPC transplantation, DLX5 and VEGF expression, as well as 2 and 10 d after hTPC transplantation, NKX2.2 were significantly increased; while LHX6, Olig1, PDGFR alpha, VEGFR1 and VEGFR2 showed trends toward improved expression in brain tissueviaimmunoblot analysis. Neuron-like differentiated cells were positive for both NeuN and Cresyl Violet staining. Conclusion Here, we demonstrate for the first time that hTPCs enhance the expression of angiogenic and neurogenic factors in rat brain after stroke. Transplantation of hTPCs could form the basis of novel therapeutic approaches for the treatment of stroke in the clinical setting.