The structural flexibility of the shank1 PDZ domain is important for its binding to different ligands

The PDZ domain of the shank protein interacts with numerous cell membrane receptors and cytosolic proteins via the loosely defined binding motif X-(Ser/Thr)-X-Φ-COOH (Φ represents hydrophobic residues) at the carboxyl terminus of its target protein. This enables shank to serve as a membrane-associated scaffold for the assembly of signaling complexes. As the list of proteins that bind to the shank PDZ domain grows, it is not immediately clear what structural element(s) mediate this domain’s target specificity or the plasticity required to bind its different targets. Here, we have determined the crystal structure of the shank1 PDZ in complex with the βPIX C-terminal pentapeptide (642–646, DETNL) at 2.3 Å resolution and modeled shank1 PDZ binding to selected pentapeptide ligands. The resulting structures revealed a large hydrophobic pocket within the PDZ domain that can accommodate a variety of ligand residues at the P(0) position. A H-bond between His735 and Ser/Thr at the P(−2) position is invariant throughout the model structures. In addition, we identified multiple PDZ domain residues that are able to form H-bonds and salt bridges with an incoming target protein. Overall, our study provides a new level of understanding of the specificity and structural plasticity of the shank PDZ domain.

► The crystal structure of the shank1 PDZ domain in complex with the βPIX C-terminal pentapeptide (642-DETNL-646) was determined at a resolution of 2.3 Å.
► Various target peptides that are reported to bind to the shank PDZ domain were modeled into the crystal structure to better understand the binding plasticity of the PDZ domain.
► Recognition of multiple target proteins by shank PDZ domain can be explained by characteristics of its unique binding surface.