Site-directed mutagenesis and1H nuclear magnetic resonance of an anti-dinitrophenyl spin label antibody

Abstract

Mutagenesis and spin label difference spectroscopy are used to assign the resonances of tyrosine residues in the binding site of the anti-dinitrophenyl spin label (DNP-SL) antibody AN02. Hapten binding constants of 13 point mutants are determined. From these studies it is clear that a light chain tyrosine specifically stabilizes DNP-SL binding, perhaps by means of a hydrogen bond to the hapten. This bond is absent in the case of the diamagnetic hapten dinitrophenyl-diglycine (DNP-Gly2). AN02 mutants with ∼50 and 200-fold enhanced affinities for DNP-Gly2 are engineered. In these mutants, a single amino acid change relieves an electrostatic interaction between DNP-Gly2 and the binding site. The resulting improvement in hapten binding ability is specific to DNP-Gly2. since the affinity for DNP-SL is relatively unchanged. Evidence of conformational heterogeneity in the AN02/DNP-Gly2 complex is presented. In contrast with DNP-Gly, a ring proton of DNP-Gly2 experiences two environments on binding to AN02. It was previously shown that a light chain tyrosine (LY31) also assumes two conformations when DNP-Gly2 is bound. The simultaneous presence of multiple AN02/DNP-Gly2 complexes implies conformational isomerism of a tryptophan residue which contacts both the hapten and LY31.