Cell Reports (Apr 2019)

Active Protein Neddylation or Ubiquitylation Is Dispensable for Stress Granule Dynamics

  • Sebastian Markmiller,
  • Amit Fulzele,
  • Reneé Higgins,
  • Marilyn Leonard,
  • Gene W. Yeo,
  • Eric J. Bennett

Journal volume & issue
Vol. 27, no. 5
pp. 1356 – 1363.e3

Abstract

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Summary: Stress granule (SG) formation is frequently accompanied by ubiquitin proteasome system (UPS) impairment and ubiquitylated protein accumulation. SGs, ubiquitin, and UPS components co-localize, but the relationship between the ubiquitin pathway and SGs has not been systematically characterized. We utilize pharmacological inhibition of either the ubiquitin- or NEDD8-activating enzyme (UAE or NAE) to probe whether active ubiquitylation or neddylation modulate SG dynamics. We show that UAE inhibition results in rapid loss of global protein ubiquitylation using ubiquitin-specific proteomics. Critically, inhibiting neither UAE nor NAE significantly affected SG formation or disassembly, indicating that active protein ubiquitylation or neddylation is dispensable for SG dynamics. Using antibodies with varying preference for free ubiquitin or polyubiquitin and fluorescently tagged ubiquitin variants in combination with UAE inhibition, we show that SGs co-localize primarily with unconjugated ubiquitin rather than polyubiquitylated proteins. These findings clarify the role of ubiquitin in SG biology and suggest that free ubiquitin may alter SG protein interactions. : Protein ubiquitylation has been implicated in pathways by which cellular stress induces the formation of stress granules (SGs) and affects protein homeostasis through the ubiquitin proteasome system. Markmiller et al. show that ubiquitylation is dispensable for SG dynamics and that SGs co-localize primarily with free ubiquitin rather than polyubiquitylated proteins. Keywords: ubiquitin, stress granule, Nedd8, oxidative stress, sodium arsenite, protein homeostasis, centrosome, proteasome, protein aggregation, neurodegeneration