Structural basis for the regulatory role of the PPxY motifs in the thioredoxin-interacting protein TXNIP.

Thioredoxin interacting protein (TXNIP) negatively regulates the antioxidative activity of thioredoxin, and participates in pleiotropic cellular processes. Its deregulation is linked to various human diseases including diabetes, acute myeloid leukemia and cardiovascular diseases. The E3 ubiquitin ligase Itch polyubiquitinates TXNIP to promote its degradation via the ubiquitin proteasome pathway, and this Itch-mediated poly-ubiquitination of TXNIP is dependent on the interaction of the four WW domains of Itch with the two PPxY motifs of TXNIP. However, the molecular mechanism of this interaction of TXNIP with Itch remains elusive. In this study, we found that each of the four WW domains of Itch exhibited different binding affinities to TXNIP, while multivalent engagement between the four WW domains of Itch and the two PPxY motifs of TXNIP resulted in their strong binding avidity. Our structural analyses demonstrated that the third and fourth WW domains of Itch were able to recognize both PPxY motifs of TXNIP simultaneously, supporting a multivalent binding mode between Itch and TXNIP. Interestingly, phosphorylation status on the tyrosine residue of the PPxY motifs of TXNIP serves as a molecular switch in its choice of binding partners and thereby downstream biological signaling outcomes. Phosphorylation of this tyrosine residue of TXNIP diminished the binding capability of PPxY motifs of TXNIP to Itch, whereas this phosphorylation is a prerequisite to the binding activity of TXNIP to SH2 domain containing protein SHP2 and their roles in stabilizing the phosphorylation and activation of CSK.