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Cell membrane coating for reducing nanoparticle-induced inflammatory responses to scaffold constructs.


ABSTRACT: The controlled release of therapeutics from micro or nanoparticles has been well-studied. Incorporation of these particles inside biomaterial scaffolds is promising for tissue regeneration and immune modulation. However, these particles may induce inflammatory and foreign body responses to scaffold constructs, limiting their applications. Here we show that widely used poly(lactic-co-glycolic acid) nanoparticles (PLGA NPs) formed by double emulsion dramatically increased neutrophil infiltration and pro-inflammatory cytokines in alginate scaffolds 1 day after the subcutaneous injection of the scaffolds into mice. The coating of red blood cell (RBC) membranes on PLGA NPs completely eliminated these short-term inflammatory responses. For a longer term of 10 days, neither PLGA NPs nor RBC membrane-coated nanoparticles exerted a significant effect on the infiltration of neutrophils or macrophages in alginate scaffolds possibly due to the degradation and/or clearance of nanoparticles by infiltrating cells by that time. Despite the extensive exploration of cell membrane-coated nanoparticles, our study is the first to investigate the effects of cell membrane coating on foreign body reaction to nanoparticles. Harnessing the natural biocompatibility of cell membranes, our strategy of anti-inflammatory protection for scaffolds may be pivotal for many applications, such as those relying on the recruitment of stem cells and/or progenitor cells to scaffolds.

SUBMITTER: Fan Z 

PROVIDER: S-EPMC6814018 | biostudies-literature | 2018

REPOSITORIES: biostudies-literature

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Cell membrane coating for reducing nanoparticle-induced inflammatory responses to scaffold constructs.

Fan Zhiyuan Z   Li Peter Y PY   Deng Junjie J   Bady Stephen C SC   Cheng Hao H  

Nano research 20180512 10


The controlled release of therapeutics from micro or nanoparticles has been well-studied. Incorporation of these particles inside biomaterial scaffolds is promising for tissue regeneration and immune modulation. However, these particles may induce inflammatory and foreign body responses to scaffold constructs, limiting their applications. Here we show that widely used poly(lactic-co-glycolic acid) nanoparticles (PLGA NPs) formed by double emulsion dramatically increased neutrophil infiltration a  ...[more]

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