Relationship between epitope density and immunoprecipitation of multivalent antigens by bivalent antibody: immunoprecipitation of adenylylated glutamine synthetase by anti-AMP antibodies

Escherichia coli glutamine synthetase (GS) preparations composed of 12 adenylylated subunits (GS₁₂^?) are almost completely precipitated by sheep Anti-AMP immunoglobulin G (IgG), whereas glutamine synthetase preparations containing 6 adenylylated subunits (GS₆^?) are only partially precipitated by the antibodies (R.J. Hohman, S.G. Rhee, and E.R. Stadtman, 1980, Proc. Nat. Acad. Sci. USA77, 7410–7414). By means of ¹²⁵I-labeled anti-AMP antibodies and double immunoprecipitation techniques, in which rabbit antiserum to sheep IgG or anti-GS antibodies were used to precipitate soluble immune complexes, it was demonstrated that under optimal conditions, both the soluble and insoluble immune complexes obtained with either GS₆^? or GS₁₂^? contain 0.5 mol antibody/mol adenylylated subunit. In agreement with the lattice theory of immuno-precipitation, soluble immune complexes are formed in antibody excess. Scatchard plots of binding data indicate that under conditions of antibody excess, one antibody molecule is bound to each AMP moiety of GS₁₂^?, whereas GS₆^? binds a maximum of only 0.68 antibody molecule/adenylylated subunit. We propose that with some species of GS₆^?, the distribution of adenylylated subunits favors monogamous interactions of the bivalent antibody with two subunits within the same GS molecule and thereby leads to the formation of small, soluble, immune complexes. Other explanations are considered. Only 30% of the antibody population that recognizes unconjugated 5′-AMP binds to the AMP moiety of adenylylated GS. Anti-AMP antiserum can be fractionated on a GS₁₂^?-Sepharose matrix into two subpopulations of antibody with strikingly different immunoprecipitation characteristics. Conversely, species of GS with various states of adenylylation ranging from 0 to 8 were separated from a GS₆^? preparation by means of affinity chromatography on an anti-AMP antibody-Sepharose matrix. Under optimal conditions, antibodies purified by affinity chromatography precipitated a smaller fraction of a GS₆^? preparation than did unfractionated antiserum. Competence of the purified antibody was nearly restored to that of the unfractionated serum by the addition of an enhancement factor present in the IgG fraction of nonimmune serum. The enhancement factor was not required for complete precipitation of GS^?₁₂ by purified antibodies. Contrary to most antibody-antigen reactions, immunoprecipitation of GS₆^? with anti-AMP antibodies is greater at 30 °C than at 4 °C.