Programmable melanoma-targeted radio-immunotherapy via fusogenic liposomes functionalized with multivariate-gated aptamer assemblies.
Xijiao RenRui XueYan LuoShuang WangXinyue GeXuemei YaoLiqi LiJunxia MinMeng-Huan LiZhong LuoFudi WangPublished in: Nature communications (2024)
Radio-immunotherapy exploits the immunostimulatory features of ionizing radiation (IR) to enhance antitumor effects and offers emerging opportunities for treating invasive tumor indications such as melanoma. However, insufficient dose deposition and immunosuppressive microenvironment (TME) of solid tumors limit its efficacy. Here we report a programmable sequential therapeutic strategy based on multifunctional fusogenic liposomes (Lip@AUR-ACP-aptPD-L1) to overcome the intrinsic radio-immunotherapeutic resistance of solid tumors. Specifically, fusogenic liposomes are loaded with gold-containing Auranofin (AUR) and inserted with multivariate-gated aptamer assemblies (ACP) and PD-L1 aptamers in the lipid membrane, potentiating melanoma-targeted AUR delivery while transferring ACP onto cell surface through selective membrane fusion. AUR amplifies IR-induced immunogenic death of melanoma cells to release antigens and damage-associated molecular patterns such as adenosine triphosphate (ATP) for triggering adaptive antitumor immunity. AUR-sensitized radiotherapy also upregulates matrix metalloproteinase-2 (MMP-2) expression that combined with released ATP to activate ACP through an "and" logic operation-like process (AND-gate), thus triggering the in-situ release of engineered cytosine-phosphate-guanine aptamer-based immunoadjuvants (eCpG) for stimulating dendritic cell-mediated T cell priming. Furthermore, AUR inhibits tumor-intrinsic vascular endothelial growth factor signaling to suppress infiltration of immunosuppressive cells for fostering an anti-tumorigenic TME. This study offers an approach for solid tumor treatment in the clinics.
Keyphrases
- drug delivery
- cancer therapy
- vascular endothelial growth factor
- dendritic cells
- gold nanoparticles
- cell surface
- drug release
- sensitive detection
- primary care
- oxidative stress
- poor prognosis
- skin cancer
- regulatory t cells
- magnetic nanoparticles
- quantum dots
- cell proliferation
- label free
- cell cycle arrest
- cell migration
- cell death
- high resolution
- basal cell carcinoma
- data analysis
- protein kinase
- fatty acid
- nucleic acid
- binding protein
- signaling pathway
- smoking cessation
- pi k akt
- molecularly imprinted
- metal organic framework