P.144 Comparative analysis of spinal cord-derived and induced pluripotent-derived neural stem & progenitor cells for SCI therapy

RV Sandarage, A. Galuta, E. Tsai
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Abstract

Background: Induced pluripotent stem cells (iPSCs) have revolutionized spinal cord injury (SCI) treatment by generating neural stem/progenitor cells (NSPCs). However, understanding how iPSC-derived NSPCs compare to authentic spinal cord NSPCs remains unclear. This study thoroughly characterizes bona fide spinal cord NSPCs and their isogenic iPSC-derived counterparts, iPSC-SC and iPSC-Br. Methods: Human spinal cord and skin tissue were obtained with ethics approval to establish primary NSPC cultures. iPSCs were derived from these primary cells and differentiated into iPSC-SC and iPSC-Br NSPCs. Assessments encompassed differentiation, proliferation capabilities, immunostaining, and RNA sequencing for differential gene expression. Results: Functional and transcriptional differences were identified between bona fide NSPCs and iPSC-SC/iPSC-Br. Bona fide and iPSC-SC NSPCs exhibited spinal cord regionalization, while iPSC-Br displayed forebrain regionalization. iPSC-derived NSPCs shared features reminiscent of early developmental stages, including embryonic patterning genes and increased proliferation rates. Notably, differentiation profiles were most similar between bona fide and iPSC-Br, with substantial distinctions observed between bona fide and iPSC-SC. Conclusions: This study unveils unique regional, developmental, and functional characteristics distinguishing spinal cord NSPCs from iPSC-derived counterparts. Addressing these disparities holds promise for enhancing iPSC-derived NSPC therapies in spinal cord injuries, contributing to a deeper understanding of their potential applications in regenerative medicine.
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P.144 脊髓衍生细胞和诱导多能神经干细胞及祖细胞用于 SCI 治疗的比较分析
背景:诱导多能干细胞(iPSC)通过产生神经干/祖细胞(NSPC),彻底改变了脊髓损伤(SCI)的治疗方法。然而,iPSC衍生的NSPC与真正的脊髓NSPC相比如何,目前仍不清楚。本研究对真正的脊髓NSPC及其同源iPSC衍生的对应细胞(iPSC-SC和iPSC-Br)进行了深入研究。 方法:经伦理批准获得人类脊髓和皮肤组织以建立原代NSPC培养物。评估包括分化、增殖能力、免疫染色和差异基因表达的 RNA 测序。结果真正的NSPC和iPSC-SC/iPSC-Br之间存在功能和转录差异。真正的NSPC和iPSC-SC表现出脊髓区域化,而iPSC-Br则表现出前脑区域化。值得注意的是,真正的iPSC-Br和iPSC-SC之间的分化特征最为相似,而真正的iPSC-Br和iPSC-SC之间则有很大区别。结论:这项研究揭示了脊髓NSPC与iPSC衍生的对应物在区域、发育和功能方面的独特特征。解决这些差异有望加强 iPSC 衍生的 NSPC 治疗脊髓损伤的效果,有助于深入了解它们在再生医学中的潜在应用。
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