RT Journal Article
SR Electronic
T1 Choice of PP1 catalytic subunit affects neither requirement for G-actin nor insensitivity to Sephin1 of PPP1R15A-regulated eIF2αP dephosphorylation
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 228809
DO 10.1101/228809
A1 Ana Crespillo-Casado
A1 Zander Claes
A1 Meng S. Choy
A1 Wolfgang Peti
A1 Mathieu Bollen
A1 David Ron
YR 2018
UL http://biorxiv.org/content/early/2018/02/07/228809.abstract
AB The integrated stress response (ISR) is regulated by kinases that phosphorylate the α subunit of translation initiation factor 2 and phosphatases that dephosphorylate it. Genetic and biochemical observations indicate that the eIF2αP-directed holophosphatase - a therapeutic target in diseases of protein misfolding - is comprised of a regulatory, PPP1R15, and a catalytic, Protein Phosphatase 1 (PP1) subunit. In mammals, there are two isoforms of the regulatory subunit, PPP1R15A and PPP1R15B, with overlapping roles in promoting the essential function of eIF2αP dephosphorylation. However, conflicting reports have appeared regarding the requirement for an additional co-factor, G-actin, in enabling substrate-specific de-phosphorylation by PPP1R15-containing PP1 holoenzymes. An additional concern relates to the sensitivity of the PPP1R15A-containing PP1 holoenzyme to the [(ochlorobenzylidene)amino]guanidines (Sephin1 or Guanabenz), small molecule proteostasis modulators. It has been suggested that the source and method of purification of the PP1 catalytic subunit and the presence or absence of an N-terminal repeat-containing region in the PPP1R15A regulatory subunit might influence both the requirement for G-actin by the eIF2αP-directed holophosphatase and its sensitivity to inhibitors. Here we report that in the absence of G-actin, PPP1R15A regulatory subunits were unable to accelerate eIF2αP dephosphorylation beyond that affected by a catalytic subunit alone, whether PPP1R15A regulatory subunit had or lacked the N-terminal repeat-containing region and whether paired with native PP1 purified from rabbit muscle, or recombinant PP1 expressed in and purified from bacteria. Furthermore, none of the PPP1R15A-containing PP1c holophosphatases were inhibited by Sephin1 or Guanabenz.