Characterization and Use of Monoclonal Antibodies for Isolation of Phosphotyrosyl Proteins from Retrovirus-Transformed Cells and Growth Factor-Stimulated Cells

Protein kinases that phosphorylate the hydroxyl group of tyrosine residues of proteins have been implicated in cell transformation by some retroviruses and in regulation of normal cell growth by some polypeptide growth factors. To facilitate the identification of tyrosine kinase substrates, we developed monoclonal antibodies to the hapten azobenzylphosphonate. One of these antibodies, MA-2G8, proved to be especially attractive in that it bound a derivative of aminophenylphosphate, a close phosphotyrosine analog, with higher affinity than it bound the corresponding derivative of aminobenzylphosphonate; however, its affinity for phosphoserine was negligible. In this paper we describe the optimal conditions for using this antibody to isolate phosphotyrosine proteins, emphasizing particularly that its interaction with phosphotyrosyl proteins is sensitive to ionic detergents and to antibody density on the immunosorbent matrix. The antibody also bound ATP citrate lyase; this enzyme lacks phosphotyrosine but contains phosphohistidine, which is similar structurally to phosphotyrosine. By attaching the antibody at high density to Sepharose beads and omitting ionic detergents from the buffers, it was possible by microbatch immunoadsorption (followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis) to isolate the 120,000-dalton transforming protein and several other phosphotyrosyl proteins from cells transformed by Abelson murine leukemia virus. Under the same conditions, phosphotyrosyl proteins were also isolated from human epidermal carcinoma cells (A431) that had been stimulated with epidermal growth factor; most prominent among these proteins was the 170,000-dalton receptor for epidermal growth factor.