Анналы клинической и экспериментальной неврологии (Jun 2023)
Morphological Changes in Neural Progenitors Derived from Human Induced Pluripotent Stem Cells and Transplanted into the Striatum of a Parkinson's Disease Rat Model
Abstract
Introduction. Development of cell therapy for Parkinson's disease (PD) requires protocols based on transplantation of neurons derived from human induced pluripotent stem cells (hiPSCs) into the damaged area of the brain. Objective: to characterize neurons transplanted into a rat brain and evaluate neural transplantation efficacy using a PD animal model. Materials and methods. Neurons derived from hiPSCs (IPSRG4S line) were transplanted into the striatum of rats after intranigral injection of 6-hydroxydopamine (6-OHDA). Immunostaining was performed to identify expression of glial and neuronal markers in the transplanted cells within 224 weeks posttransplant. Results. 4 weeks posttransplant we observed increased expression of mature neuron markers, decreased expression of neural progenitor markers, and primary pro-inflammatory response of glial cells in the graft. Differentiation and maturation of neuronal cells in the graft lasted over 3 months. At 3 and 6 months we detected 2 graft zones: one mainly contained the transplanted neurons and the other human astrocytes. We detected human neurites in the corpus callosum and surrounding striatal tissue and large human tyrosine hydroxylase-expressing neurons in the graft. Conclusion. With graft's morphological characteristics identified at different periods we can better understand pathophysiology and temporal patterns of new dopaminergic neurons integration and striatal reinnervation in a rat PD model in the long-term postoperative period.
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