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The effect of surface modification of mesoporous silica micro-rod scaffold on immune cell activation and infiltration.


ABSTRACT: Biomaterial scaffold based vaccines show significant potential in generating potent antigen-specific immunity. However, the role of the scaffold surface chemistry in initiating and modulating the immune response is not well understood. In this study, a mesoporous silica micro-rod (MSR) scaffold was modified with PEG, PEG-RGD and PEG-RDG groups. PEG modification significantly enhanced BMDC activation marker up-regulation and IL-1? production in vitro, and innate immune cell infiltration in vivo. PEG-RGD MSRs and PEG-RDG MSRs displayed decreased inflammation compared to PEG MSRs, and the effect was not RGD specific. Finally, the Nlrp3 inflammasome was found to be necessary for MSR stimulated IL-1? production in vitro and played a key role in regulating immune cell infiltration in vivo. These findings suggest that simply modulating the surface chemistry of a scaffold can regulate its immune cell infiltration profile and have implications for the design and development of new material based vaccines.

SUBMITTER: Li WA 

PROVIDER: S-EPMC4754159 | biostudies-literature | 2016 Mar

REPOSITORIES: biostudies-literature

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The effect of surface modification of mesoporous silica micro-rod scaffold on immune cell activation and infiltration.

Li Weiwei Aileen WA   Lu Beverly Ying BY   Gu Luo L   Choi Youngjin Y   Kim Jaeyun J   Mooney David J DJ  

Biomaterials 20160111


Biomaterial scaffold based vaccines show significant potential in generating potent antigen-specific immunity. However, the role of the scaffold surface chemistry in initiating and modulating the immune response is not well understood. In this study, a mesoporous silica micro-rod (MSR) scaffold was modified with PEG, PEG-RGD and PEG-RDG groups. PEG modification significantly enhanced BMDC activation marker up-regulation and IL-1β production in vitro, and innate immune cell infiltration in vivo.  ...[more]

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