Analysis of the binding site architecture of monoclonal antibodies to morphine by using competitive ligand binding and molecular modeling.

The structural features of mAb directed against the opiate morphine were analyzed by using competitive ligand analog-binding studies, examination of the V region amino acid sequence, and computer-aided molecular modeling of the fragment V region. The antibody response in BALB/c mice to morphine is relatively restricted, in that all of the mAb examined in this study contained the same lambda L chain and very similar H chain V regions. A three-dimensional model of the antimorphine-binding site was constructed by using computational and graphic display techniques. Each of the six complementary-determining regions was constructed by using fragment replacement methods employing canonical loop conformations of known "parent" structures. Experimental competitive ligand-binding data and theoretical modeling suggest that a charged glutamate residue at position H:50 and aromatic side chains of residues H:33W, H:47W, H:58F, H:95W, H:101iY, and L:91W are key features in ionic and hydrophobic interactions with the ligand. This study represents the first use of theoretical and experimental modeling techniques to describe the Ag-binding site of a mouse fragment V region containing a lambda L chain.