Identification of a novel calpain inhibitor using phage display

Calpains are calcium- and thiol-dependent proteases that cleave a variety of intracellular substrates. Overactivation of the calpains has been implicated in a number of diseases and conditions such as ischemic stroke indicating a need for the development of calpain inhibitors. A major problem with current calpain inhibitors has been specific targeting to calpain. To identify highly specific calpain interacting peptides, we developed a peptide-phage library screening method based on the calcium-dependent conformation change associated with calpain activation. A phage-peptide library representing greater than 2 billion expressed 12-mers was incubated with calpain I in the presence of calcium. The calcium-dependent bound phage was then eluted by addition of EGTA. After four rounds of selection we found a conserved 5-mer sequence represented by LSEAL. Synthetic LSEAL inhibited τ-calpain interaction and in vitro proteolysis of τ- and α-synuclein by calpains. Deletion of the portion of the τ protein containing a homologous sequence to LSEAL resulted in decreased calpain-mediated τ degradation. These data suggest that these peptides may represent novel calpastatin mimetics.