Cell surface functionalization and target molecule incorporation into living cell membranes without functional damage represent major biotechnological challenges. One possible way to achieve these goals is to induce cell membrane fusion with an artificial membrane containing molecules equipped with reactive groups or ligands. In this work we developed a carrier system to incorporate lipopolysaccharide (LPS), an immune cell activating molecule from Gram-negative bacteria, into mammalian membranes. LPS is not present in untreated mammalian cells which hence are not detectable by the immune system. Here, we demonstrate the successful incorporation of LPS into fusogenic liposomes (FLs) and subsequent incorporation into mammalian plasma membranes using these FLs. Additionally, the presence of LPS in cell membranes was probed by the addition of non-activated macrophages. A high concentration of LPS in the plasma membrane of immortalized fibroblasts activated the immune cells, which in turn started to eliminate LPS-exhibiting cells. Our method for cellular membrane functionalization is a promising tool for biomedical applications and could provide the basis for specific cell targeting approaches.
Keywords: Fusogenic liposomes (FLs); Immune activation; Lipopolysaccharide (LPS); Plasma membrane functionalization.
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