3D Mechanical Response Stem Cell Complex Repairs Spinal Cord Injury by Promoting Neurogenesis and Regulating Tissue Homeostasis

脊髓损伤 干细胞 神经发生 间充质干细胞 神经干细胞 神经再生 再生(生物学) 细胞生物学 再生医学 神经科学 脊髓 生物
作者
Jingwei Jiu,Haifeng Liu,Dijun Li,Xiaoke Li,Jing Zhang,Lei Yan,Zijuan Fan,Songyan Li,Guangyuan Du,Jiao Jiao Li,Aimin Wu,Wei Liu,Yanan Du,Bin Zhao,Bin Wang
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:14 (7): e2404925-e2404925 被引量:8
标识
DOI:10.1002/adhm.202404925
摘要

Spinal cord injury (SCI) leads to acute tissue damage that disrupts the microenvironmental homeostasis of the spinal cord, inhibiting cell survival and function, and thereby undermining treatment efficacy. Traditional stem cell therapies have limited success in SCI, due to the difficulties in maintaining cell survival and inducing sustained differentiation into neural lineages. A new solution may arise from controlling the fate of stem cells by creating an appropriate mechanical microenvironment. In this study, mechanical response stem cell complex (MRSCC) is created as an innovative therapeutic strategy for SCI, utilizing 3D bioprinting technology and gelatin microcarriers (GM) loaded with mesenchymal stem cells (MSCs). GM creates an optimal microenvironment for MSCs growth and paracrine activity. Meanwhile, 3D bioprinting allows accurate control of spatial pore architecture and mechanical characteristics of the cell construct to encourage neuroregeneration. The mechanical microenvironment created by MRSCC is found to activate the Piezo1 channel and prevent excessive nuclear translocation of YAP, thereby increasing neural-related gene expression in MSCs. Transplanting MRSCC in rats with spinal cord injuries boosts sensory and motor recovery, reduces inflammation, and stimulates the regeneration of neurons and glial cells. The MRSCC offers a new tissue engineering solution that can promote spinal cord repair.
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