Conjugation of monoclonal antibodies to a synthetic peptide substrate for protein kinase: a method for labelling antibodies with 32P

Abstract: Summary In recent years, radiolabelled monoclonal antibodies have been evaluated for their use in the diagnosis and treatment of neoplastic disease. One isotope which has not been assessed for antibody targeting iS 32P, even though it has many favourable radiobiological characteristics and has been used clinically for the treatment of certain neoplastic disorders such as polycythaemia rubra vera. The main drawback so far in using 32P has been the absence of a general method for phosphorylating antibodies. We h… Show more

“…Re. In addition, the introduction of a kinase recognition site into the monoclonal antibody keeps the essential structure of the antibody intact in contrast to chemical conjugation of chelating agents necessary to bind heavy-metal radioisotopes (3, 4) or chem-ical linking of peptides with a cAMP-phosphorylation site (25). The attachment of peptides chemically to a protein creates new epitopes not present in any natural proteins of the body as both the chemical linkers used and the peptides attached form multiple new epitopes.…”

Construction of Phosphorylatable Chimeric Monoclonal Antibody CC49 with a Casein Kinase I Recognition Site

“…Re. In addition, the introduction of a kinase recognition site into the monoclonal antibody keeps the essential structure of the antibody intact in contrast to chemical conjugation of chelating agents necessary to bind heavy-metal radioisotopes (3, 4) or chem-ical linking of peptides with a cAMP-phosphorylation site (25). The attachment of peptides chemically to a protein creates new epitopes not present in any natural proteins of the body as both the chemical linkers used and the peptides attached form multiple new epitopes.…”

Construction of Phosphorylatable Chimeric Monoclonal Antibody CC49 with a Casein Kinase I Recognition Site

“…The details of the various constructions are given in the specific reports cited. Foxwell et al (11) used a non-genetic engineering procedure to introduce the cAMP-dependent protein kinase recognition site into monoclonal antibodies by using peptides containing the PKA sequence and then covalently linking these chemically to a monoclonal antibody. The phosphorylated monoclonal antibody was stable in serum as were the attached phosphates.…”

“…The introduction of a kinase recognition site into proteins keeps their essential structure intact in contrast to chemical conjugation of chelating agents necessary to bind heavy metal radioisotopes (9,10) or chemical linking of peptides with a cAMP-phosphorylation site (11). This is especially significant as antibodies are being used as human therapeutics of which it is important to minimize antigenicity.…”

Introduction of Protein Kinase Recognition Sites into Proteins: A Review of Their Preparation, Advantages, and Applications

“…Another approach developed by Foxwell et al (18) introduced a kinase recognition site into a peptide that was then covalently linked to a monoclonal antibody. Whereas the phosphorylated monoclonal was stable in serum, proteins modified by this method would have limited potential in vivo as this approach appears to favor the generation of a heterogeneous product carrying multiple new epitopes, thus enhancing antigenicity.…”

Site-Specific ³² P-Labeling of Cytokines, Monoclonal Antibodies, and Other Protein Substrates for Quantitative Assays and Therapeutic Application