Literature DB >> 32645368

Systematic Discovery of Short Linear Motifs Decodes Calcineurin Phosphatase Signaling.

Callie P Wigington1, Jagoree Roy1, Nikhil P Damle1, Vikash K Yadav2, Cecilia Blikstad2, Eduard Resch3, Cassandra J Wong4, Douglas R Mackay5, Jennifer T Wang1, Izabella Krystkowiak6, Devin A Bradburn1, Eirini Tsekitsidou1, Su Hyun Hong7, Malika Amyn Kaderali7, Shou-Ling Xu7, Tim Stearns1, Anne-Claude Gingras8, Katharine S Ullman5, Ylva Ivarsson2, Norman E Davey9, Martha S Cyert10.   

Abstract

Short linear motifs (SLiMs) drive dynamic protein-protein interactions essential for signaling, but sequence degeneracy and low binding affinities make them difficult to identify. We harnessed unbiased systematic approaches for SLiM discovery to elucidate the regulatory network of calcineurin (CN)/PP2B, the Ca2+-activated phosphatase that recognizes LxVP and PxIxIT motifs. In vitro proteome-wide detection of CN-binding peptides, in vivo SLiM-dependent proximity labeling, and in silico modeling of motif determinants uncovered unanticipated CN interactors, including NOTCH1, which we establish as a CN substrate. Unexpectedly, CN shows SLiM-dependent proximity to centrosomal and nuclear pore complex (NPC) proteins-structures where Ca2+ signaling is largely uncharacterized. CN dephosphorylates human and yeast NPC proteins and promotes accumulation of a nuclear transport reporter, suggesting conserved NPC regulation by CN. The CN network assembled here provides a resource to investigate Ca2+ and CN signaling and demonstrates synergy between experimental and computational methods, establishing a blueprint for examining SLiM-based networks.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  NPC; Notch1; ProP-PD; SLiM; Short Linear Motif; calcineurin; calcium signaling; centrosome; in silico motif discovery; nuclear pore complex; protein phosphatase; proteomic peptide phage display; proximity-dependent biotinylation

Mesh:

Substances:

Year:  2020        PMID: 32645368      PMCID: PMC7416808          DOI: 10.1016/j.molcel.2020.06.029

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  120 in total

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