Fucoidan-Coated Layer-by-layer Lipid Nanoparticles for the Generation of CAR-Macrophages

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Fucoidan-Coated Layer-by-layer Lipid Nanoparticles for the Generation of CAR-Macrophages

Authors

Passos Gibson, V.; Tahiri, H.; Omri, S.; Filippini, A.; Saber, J.; Braverman, N.; Cajuba de Britto Lira-Nogueira, M.; Banquy, X.; Hardy, P.

Abstract

Modulation of immune cells as therapeutic tools has gained significant clinical relevance in the treatment of cancer. Among them, macrophages represent a promising immunotherapeutic platform not only because they can internalize tumor material, but also because they profoundly shape the tumor microenvironment through cytokine production, antigen presentation, metabolic regulation, and modulation of other immune and stromal populations. Lipid Nanoparticles (LNPs) have enabled RNA therapies to the bedside and are thus considered the gold standard for gene delivery. However, optimizing LNPs for RNA delivery to macrophages remains an active area of investigation. Here, we propose the surface modification of unPEGylated LNPs using the Layer-by-Layer (LbL) approach for enhanced RNA delivery to macrophages. Specifically, we show that fucoidan, a sulfated polysaccharide, when at the outermost layer in the LbL process provides two physicochemical advantages to unPEGylated LNPs: (1) stability in PBS and (2) resistance to lyophilization in the presence of cryoprotectant. Additionally, fucoidan improves macrophage targeting and RNA transfection efficiency compared to previously synthesized hyaluronan-decorated LbL LNPs. Fucoidan LbL LNPs (Fuc-LNPs) preferentially accumulated in CD11b+ macrophages when co-cultured with U87 glioblastoma cells, which was not observed for control PEGylated LNPs. Furthermore, Fuc-LNPs induced a higher transfection of mRNA in primary human macrophages when compared to PEGylated control LNPs. Using the model mRNA encoding CAR@CD19, Fuc-LNPs generated CAR macrophages which mediated CD19 cell ablation in vitro. Altogether, these findings highlight the potential of the LbL strategy to modulate the targeting properties of LNPs, improving RNA delivery to human macrophages and encouraging further studies using LbL LNPs for the generation of CAR-Macrophages in the context of solid tumors.

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