Proximity proteomics reveals OTUD6B regulation of stress granule dynamics through coalescence with VCP/p97
Dian Yang, Yichao Liu, Yueshun Hong, Enming Miao, Peng Wang, Yuming Sun, Lina Zhou, Shuyan Liu, Yingqiu Zhang, Hongqiang Qin, Mingliang Ye, Han Liu

TL;DR
This study identifies OTUD6B as a key regulator of stress granule dynamics, showing it works with VCP/p97 to control their formation and disassembly.
Contribution
The study reveals OTUD6B's novel role in stress granule regulation through its interaction with VCP/p97.
Findings
OTUD6B localizes to stress granules and regulates their assembly and clearance.
OTUD6B interacts with VCP/p97, a key disassembly factor, through disordered regions.
OTUD6B enhances VCP/p97-dependent stress granule coalescence and clearance.
Abstract
Stress granules (SGs) are membrane-less organelles formed through liquid-liquid phase separation of proteins and RNAs, serving as temporary repositories for biomacromolecules to protect cells under stress conditions. Impaired SG disassembly is closely implicated in neurodegenerative diseases and aging, yet the mechanisms regulating SG dynamics are incompletely investigated. The constituents of heterogenous SGs are complicated and broadly categorized as core and shell components. In contrary to the relatively stable core components, our understanding of the diverse SG shell is deficient. By combining interactomic and proximity proteomic approaches, we reveal that the deubiquitinating enzyme OTUD6B is associated with SG-related functions. Immunofluorescence assays showed that OTUD6B localized to SGs, as well as regulated their early assembly and clearance, partially dependent on its…
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Taxonomy
TopicsRNA Research and Splicing · Nuclear Structure and Function · Genetic Neurodegenerative Diseases
