The 425(scFv)SNAP fusion protein combines rapid and specific targeting of EGFR-positive tumours with a versatile and robust labelling technique that facilitates the attachment of fluorophores for use in optical imaging. The same approach could be used to couple a chelating agent for use in nuclear imaging.
Recombinant antibodies are promising tools for a wide range of bioanalytical and medical applications. However, the chemical modification of such molecules can be challenging, which limits their broader utilization. Here we describe a universal method for the site-specific labeling of antibody fragments and protein ligands by genetically fusing them to an engineered version of the human DNA-repair enzyme O(6)-alkyllguanine DNA alkyltransferase (AGT), known as SNAP-Tag (1-3) . Substrates containing O(6)-benzylguanine are covalently bound to the fusion proteins via a stable thioether bond in a rapid and highly specific self-labeling reaction. The coupling is site-directed, allowing the design and synthesis of antibody conjugates with predefined stoichiometry. We cloned a series of ligand SNAP-Tag fusion proteins and expressed them in HEK 293T cells. The antibody/ligand-fusions were characterized by labeling with different fluorophores, labeling with biotin, or by coupling them to fluorescent nanobeads, followed by analysis by flow cytometry and confocal microscopy. All ligands retained their original antigen-binding properties when fused to the SNAP-Tag. The combination of recombinant antibodies or protein ligands with the SNAP-Tag facilitates simple and efficient covalent modification with a broad range of substrates, thus providing a useful and advantageous alternative to existing coupling strategies.
Cancer cells can be killed by photosensitizing agents that induce toxic effects when exposed to nonhazardous light, but this also causes significant damage to surrounding healthy cells. The specificity of photodynamic therapy can be increased by conjugating photosensitizing agents to antibodies and antibody fragments that bind specifically to tumor cell antigens. However, standard conjugation reactions produce heterogeneous products whose targeting specificity and spectroscopic properties can be compromised. In this study, we used an antibody fragment (scFv-425) that binds to the epidermal growth factor receptor (EGFR) as a model to investigate the use of SNAP-tag fusions as an improved conjugation strategy. The scFv-425-SNAP-tag fusion protein allowed the specific conjugation of a chlorin e6 photosensitizer modified with O(6)-benzylguanine, generating a homogeneous product that was delivered specifically to EGFR(+) cancer cells and resulted in significant, tumor cell-specific cytotoxicity. The impact of our results on the development of photodynamic therapy is discussed.
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