Bioprinted Notch ligand to function as stem cell niche improves muscle regeneration in dystrophic muscle
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Published:2023-03-16
Issue:3
Volume:9
Page:711
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ISSN:2424-7723
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Container-title:International Journal of Bioprinting
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language:
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Short-container-title:IJB
Author:
Sun Zewei,Yue Xianlin,Liu Lei,Li Ying,Cui Jie,Li Dong,Weiss Lee,Campbell Phil,Mu Yanling,Huard Johnny,Mu Xiaodong
Abstract
In Duchenne muscular dystrophy, dystrophic muscle phenotypes are closely associated with the exhaustion of muscle stem cells. Transplantation of muscle stem cells has been widely studied for improving muscle regeneration, but poor cell survival and self-renewal, rapid loss of stemness, and limited dispersion of grafted cells following transplantation have collectively hindered the overall success of this strategy. Optimized mechanisms for maintaining and improving stem cell function are naturally present in the microenvironment of the stem cell niche in healthy muscles. Therefore, one logical strategy toward improving stem cell function and efficiency of stem cell transplantation in diseased muscles would be the establishment of a microenvironment mimicking some key aspects of healthy native stem cell niches. Here, we applied inkjet-based bioprinting technology to engineer a mimicked artificial stem cell niche in dystrophic muscle, comprising stem cell niche regulating factors (Notch activator DLL1) bioprinted onto 3D DermaMatrix construct. The recombinant DLL1 protein, DLL1 (mouse): Fc (human) (rec), was applied here as the Notch activator. Bioprinted DermaMatrix construct was seeded with muscle stem cells in vitro, and increased stem cell maintenance and repressed myogenic differentiation process was observed. DLL1 bioprinted DermaMatrix construct was then engrafted into dystrophic muscle of mdx/scid mice, and the improved cell engraftment and progression of muscle regeneration was observed 10 days after engraftment. Our results demonstrated that bioprinting of Notch activator within 3D construct can be applied to serve as muscle stem cell niche and improve the efficacy of muscle stem cell transplantation in diseased muscle.
Publisher
AccScience Publishing
Subject
Industrial and Manufacturing Engineering,Materials Science (miscellaneous),Biotechnology
Cited by
2 articles.
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