Selective enrichment and characterization of high affinity ligands from collections of random peptides on filamentous phage

Abstract

Large collections of random peptides can be expressed on the N-terminus of the pIII protein of filamentous phage and screened for binding to antibodies and other receptors. In our previous work with a monoclonal antibody (3E7) (Cwirla et al., Proc. Natl. Acad. Sci. USA 87, 6378–6382, 1990), we showed that a high proportion of the selected peptides had relatively low affinity ( K d 's > 1 μm). Here we describe conditions for selective enrichment of phage expressing high affinity peptides. This is done by allowing the phage to interact with a low concentration of 3E7 Fab followed by extensive washing to allow dissociation of phage-bearing peptides with low affinity. These affinity selection conditions were applied to the pool of phage previously selected using a high concentration of IgG. A phage clone with the known high affinity ligand YGGFL ( K d 7.1 n m) and several other closely related peptides were isolated. The dissociation rate of 125I-3E7 Fab from several phage clones approximated that of phage expressing YGGFL. A good correlation was found between the dissociation rate of the peptides found on phage and the equilibrium binding constants of chemically synthesized peptides. The strategy of using a low concentration of receptor and extensive washing to select phagebearing high affinity peptides, combined with assays to determine the specificity and relative affinity of peptides on isolated phage clones, should be generally applicable in using the peptides-on-phage system for discovery of high affinity receptor ligands.