Targeted Therapeutic-Immunomodulatory Nanoplatform Based on Noncrystalline Selenium.
Qian ChenTianzhi LiuShixiong ChenYu LuoMing MaFengfeng XueLinlin ZhangWeichao BaoHang-Rong ChenPublished in: ACS applied materials & interfaces (2019)
Developing versatile nanomaterials has offered a myriad of opportunities to surmount cancer. In particular, the combination of therapy and immunomodulatory effect to further enhance immune response provides a new idea for effective tumor treatment. Herein, for the first time, an in situ growth strategy is developed to construct highly dispersed noncrystalline selenium nanoparticles (Se NPs) with thiolated cyclo(Arg-Gly-Asp-Phe-Lys-(mpa)) (RGD) peptide modification (R-Se@DMSND) for targeted cancer treatment. Se NPs could be homogeneously grown into the pore channels of dendritic mesoporous silica nanoparticles (DMSNs) since the DMSNs could stabilize Se NPs to prevent their aggregations. Moreover, Se NPs could not only act as a therapeutic agent, inducing ROS overproduction, to effectively suppress primary tumor but also as an immunomodulatory agent to simultaneously inhibit the growth of secondary tumors by enhancement of the immune response, as confirmed by the in vivo results. Such the therapeutic-immunomodulatory strategy for tumorous therapy combining with immunomodulation using one simple nanoplatform may pave a new avenue in the biomedical field.