This thesis is focused on the targeting of two antigens often expressed on the surface of cancer cells: MICA and HLA-E. Both antigens are members of the MHC-I family of proteins. They both act as... Show moreThis thesis is focused on the targeting of two antigens often expressed on the surface of cancer cells: MICA and HLA-E. Both antigens are members of the MHC-I family of proteins. They both act as ligands for the NK receptors on NK cells and CD8+ T cells. We target MICA using nanobodies, or VHHs, the small variable regions of camelid-derived heavy-chain only antibodies. The nanobodies are used as nanobody-drug conjugate, fused to the Mertansine-derivative DM1, or as the targeting domain of chimeric antigen receptors to create CAR NK cells. These nanobody-based immunotherapies selectively target and kill MICA-positive cancer cells. We target HLA-E with an antibody directed against a 13-amino acid epitope unique to the cytoplasmic tail of HLA-E. The antibody is specific to HLA-E and can be used for detection of HLA-E positive cells in flow cytometry and immunofluorescence and detection of HLA-E positive tumors in immunohistochemistry. Together with the epitope, the antibody can be used as a novel epitope tag for detection and purification of unrelated proteins. Show less