High-resolution glycosylation site-engineering method identifies MICA epitope critical for shedding inhibition activity of anti-MICA antibodies |
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| Authors: | T Noelle Lombana Jack Bevers III Amy M Berkley Evangeline Toy Ryan Cook |
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| Institution: | 1. Department of Antibody Engineering, Genentech Inc., South San Francisco, USA;2. Translational Oncology, Genentech Inc., South San Francisco, USA;3. Biochemical and Cellular Pharmacology, Genentech Inc., South San Francisco, USA |
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| Abstract: | As an immune evasion strategy, MICA and MICB, the major histocompatibility complex class I homologs, are proteolytically cleaved from the surface of cancer cells leading to impairment of CD8 + T cell- and natural killer cell-mediated immune responses. Antibodies that inhibit MICA/B shedding from tumors have therapeutic potential, but the optimal epitopes are unknown. Therefore, we developed a high-resolution, high-throughput glycosylation-engineered epitope mapping (GEM) method, which utilizes site-specific insertion of N-linked glycans onto the antigen surface to mask local regions. We apply GEM to the discovery of epitopes important for shedding inhibition of MICA/B and validate the epitopes at the residue level by alanine scanning and X-ray crystallography (Protein Data Bank accession numbers 6DDM (1D5 Fab-MICA*008), 6DDR (13A9 Fab-MICA*008), 6DDV (6E1 Fab-MICA*008). Furthermore, we show that potent inhibition of MICA shedding can be achieved by antibodies that bind GEM epitopes adjacent to previously reported cleavage sites, and that these anti-MICA/B antibodies can prevent tumor growth in vivo. |
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| Keywords: | epitope mapping antibody discovery binding interface antibody characterization FPOP alanine scan |
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