DNA methyltransferase (DNMT) inhibitor represents the first clinical breakthrough via targeting aberrant cancer epigenomes. Demethylation drugs such as decitabine can restore tumor suppressor gene (TSG) expression and function to achieve anti-tumor effect. Despite DNMT inhibitors have shown significant efficacy for treating leukemia, their application in solid tumor such as HCC is limited due to short in vivo half-lives. In this study, the DNMT1 inhibitor decitabine was first loaded into the Polylactic-co-glycolic acid (PLGA) spherical nanoparticles (Dec@PLGA). The vesicle of PD-L1 antibody and macrophage membrane (aMM) was further coated onto the surface of Dec@PLGA to finally synthesize Dec@PLGA@aMM. Dec@PLGA@aMM was in uniformed spherical structure with hydrodynamic particle size of 95.7 ± 9.1 nm and surface zeta potential of −15.1 ± 3.3 mV. Dec@PLGA@aMM significantly increased the expression of both p14 and p16 in a concentration-dependent manner. Dec@PLGA@aMM could enhance the tumor suppression through restoration of TSGs, which were epigenetically silenced by DNA hypermethylation. The Dec@PLGA@aMM group showed significantly (P < 0.05) less tumor volume than PBS group, PLGA@MM group, aPD-L1 group, PLGA@aMM group, decitabine group, Dec + aPD-L1 group, and Dec@PLGA@MM group. The decitabine could enhance aPD-L1-mediated immunotherapy of HCC via epigenetic alteration. This novel targeted PLGA NPs are aimed to treat HCC by decreasing DNA methylation and blocking PD-L1, thus providing new ideas for effective treatments via epigenetic alteration for HCC patients clinically.
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