Engineering of immunoinstructive extracellular matrices for enhanced osteoinductivity  被引量:2

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作  者:Andrés García-García Sébastien Pigeot Ivan Martin 

机构地区:[1]Department of Biomedicine,University Hospital Basel,University of Basel,4031,Basel,Switzerland [2]Department of Biomedical Engineering,University of Basel,4123,Allschwill,Switzerland

出  处:《Bioactive Materials》2023年第6期174-184,共11页生物活性材料(英文)

基  金:supported by the Swiss National Science Foundation Div 3(Grant 31003A-179259 to I.M.);the National Centre of Competence in Research(NCCR)Molecular Systems Engineering(Grant 51NF40-141825 to I.M.).

摘  要:The increasing recognition of the contribution of the immune system to activate and prime regeneration implies that tissue engineering strategies and biomaterials design should target regulation of early immunological processes.We previously proposed the cell-based engineering and devitalization of extracellular matrices(ECMs)as a strategy to generate implant materials delivering custom-defined signals.Here,in the context of bone regeneration,we aimed at enhancing the osteoinductivity of such ECMs by enriching their immunomodulatory factors repertoire.Priming with IL1βa cell line overexpressing BMP-2 enabled engineering of ECMs preserving osteoinductive signals and containing larger amounts of angiogenic(VEGF)and pro-inflammatory molecules(IL6,IL8 and MCP1).Upon implantation,these IL1β-induced materials enhanced processes typical of the inflammatory phase(e.g.,vascular invasion,osteoclast recruitment and differentiation),leading to‘regenerative’events(e.g.,M2 macrophage polarization)and ultimately resulting in faster and more efficient bone formation.These results bear relevance towards the manufacturing of potent off-the-shelf osteoinductive materials and outline the broader paradigm of engineering immunoinstructive implants to enhance tissue regeneration.

关 键 词:IMMUNOMODULATION Bone tissue engineering Inflammation Hypertrophic cartilage matrices OSTEOINDUCTION 

分 类 号:R318[医药卫生—生物医学工程]

 

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