Platelet Membrane‐Derived Nanodiscs for Neutralization of Endogenous Autoantibodies and Exogenous Virulence Factors

Abstract

AbstractThe multifaceted functions of platelets in various physiological processes have long inspired the development of therapeutic nanoparticles that mimic specific platelet features for disease treatment. Here, the development and characterization of platelet membrane‐derived nanodiscs (PLT‐NDs) as platelet decoys for biological neutralization is reported. In one application, PLT‐NDs effectively bind with anti‐platelet autoantibodies, thus blocking them from interacting with platelets. In a mouse model of thrombocytopenia, PLT‐NDs successfully neutralize pathological anti‐platelet antibodies, preventing platelet depletion and maintaining hemostasis. In another application, PLT‐NDs effectively neutralize the cytotoxicity of bacterial virulence factors secreted by methicillin‐resistant Staphylococcus aureus (MRSA). In a mouse model of MRSA infection, treatment with PLT‐NDs leads to significant survival benefits for the infected mice. Additionally, PLT‐NDs show good biocompatibility and biosafety, as demonstrated in acute toxicity studies conducted in mice. These findings underscore the potential of PLT‐NDs as a promising platelet mimicry for neutralizing various biological agents that target platelets. Overall, this work expands the repertoire of platelet‐mimicking nanomedicine by creating a unique disc‐like nanostructure made of natural platelet membranes.