A thermodynamic ligand binding study of the third PDZ domain (PDZ3) from the mammalian neuronal protein PSD-95.

Published

Journal Article

The thermodynamic parameters associated with the binding of several series of linear peptides to the third PDZ domain (PDZ3) of the postsynaptic density 95 protein (PSD-95) have been measured using isothermal titration calorimetry (ITC). Two strategies were pursued in developing these binding ligands: (1) systematic N-terminal truncation of sequences derived from the C-terminal regions of identified PDZ3-binding proteins (CRIPT, neuroligin-1, and citron) and (2) selective mutation of specific positions within a consensus hexapeptide (KKETEV) known to bind PDZ3. Each synthetically prepared peptide was used to titrate PDZ3, which yielded the changes in Gibbs free energy (DeltaG), enthalpy (DeltaH), and entropy (TDeltaS) for the binding event. Selected peptides were subjected to additional analysis, which entailed (1) measuring the change in heat capacity (DeltaCp) upon association, to assess the character of the binding interface, and (2) constructing thermodynamic double mutant cycles, to determine the presence of cooperative effects. From the first series, the CRIPT protein proved to be the better source for higher affinity sequences. From the second series, enhanced binding was associated with peptides that closely adhered to the established motif for class I PDZ domain C-termini, X-(T/S)-X-(V/I/L), and more specifically to a narrower motif of X-T-X-V. Further, in both series a length of six residues was necessary and sufficient to capture maximal affinity. In addition, there were significant influences upon binding by modifying the abutting "X" positions. The cumulative results provide greater detail into the specific nature of ligand binding to PDZ3 and will assist in the development of selective molecular probes for the study of this and structurally homologous PDZ domains.

Full Text

Duke Authors

Cited Authors

  • Saro, D; Li, T; Rupasinghe, C; Paredes, A; Caspers, N; Spaller, MR

Published Date

  • May 3, 2007

Published In

Volume / Issue

  • 46 / 21

Start / End Page

  • 6340 - 6352

PubMed ID

  • 17474715

Pubmed Central ID

  • 17474715

Electronic International Standard Serial Number (EISSN)

  • 1520-4995

International Standard Serial Number (ISSN)

  • 0006-2960

Digital Object Identifier (DOI)

  • 10.1021/bi062088k

Language

  • eng