Differential Immunoscreening Identifies a Glycosylation Variant of the Epidermal Growth Factor Receptor in ME-180 Cervical Carcinoma Cells

In this report, we describe the development and characterization of an anti-ME-180 cervical cancer–specific epidermal growth factor (EGF) receptor monoclonal antibody (MAb). This MAb, 6C7, specifically binds to ME-180 cervical cancer cells and not to normal cervical epithelial cells. By immunoaffinity chromatography, we have shown that the 6C7 antibody binds to a 205-kDa protein. Subsequent mass spectrometry sequencing analysis identified this protein as an EGF receptor. In addition, treatment of the ME-180 EGF receptor with N- and O-linked glycosidases indicated that this antibody binds to the carbohydrate portion of the glycoprotein. Moreover, Western blotting analysis with an anti–EGF receptor antibody indicated that this protein is present in abundance in all cervical cancer cell lines, including ME-180, HeLa, Ca Ski, HT-3, SiHa, and Hs 588.T. However, the 6C7 antibody only binds to the EGF receptor from ME-180 cells, suggesting that this protein is differentially glycosylated in ME-180 cells, compared to other cervical cancer cell lines. Finally, we have shown that this antibody could selectively block EGF-mediated cell proliferation in ME-180 cells but not in HeLa cells. Overall, our study suggests that the differentially glycosylated EGF receptor could potentially serve as a unique target for the immunotherapeutic treatment of cervical cancer.