Abstract
The co-chaperone HspBP1 interacts with members of the hsp70 family, but also provides chaperone-independent functions. We report here novel biological properties of HspBP1 that are relevant to the formation of cytoplasmic stress granules (SGs). SG assembly is a conserved reaction to environmental or pathological insults and part of the cellular stress response. Our study reveals that HspBP1 (1) is an integral SG constituent, and (2) a regulator of SG assembly. Oxidative stress relocates HspBP1 to SGs, where it co-localizes with granule marker proteins and polyA-RNA. Mass spectrometry and co-immunoprecipitation identified novel HspBP1-binding partners that are critical for SG biology. Specifically, HspBP1 associates with the SG proteins G3BP1, HuR and TIA-1/TIAR. HspBP1 also interacts with polyA-RNA in vivo and binds directly RNA homopolymers in vitro. Multiple lines of evidence and single-granule analyses demonstrate that HspBP1 is crucial for SG biogenesis. Thus, HspBP1 knockdown interferes with stress-induced SG assembly. By contrast, HspBP1 overexpression promotes SG formation in the absence of stress. Notably, the hsp70-binding domains of HspBP1 regulate SG production in unstressed cells. Taken together, we identified novel HspBP1 activities that control SG formation. These features expand HspBP1’s role in the cellular stress response and provide new mechanistic insights into SG biogenesis.
Highlights
Molecular chaperones and their binding partners regulate cellular proteostasis under all growth conditions
Since G3BP1 serves as a SG-nucleating protein, we evaluated its relationship to HspBP1 at different stages of SG formation and disassembly
Chaperones and their binding partners are essential for proteostasis
Summary
Molecular chaperones and their binding partners regulate cellular proteostasis under all growth conditions. The activities of heat shock proteins are indispensable [1,2,3]. Members of the hsp family and their co-chaperones promote stress survival and stimulate the recovery from cellular insults [2]. The proteostasis network is comprised of a large number of chaperones and their co-factors. This network is dynamic and adjusts to changes in cell physiology [4,5]. Hsp family members are pillars of the chaperone network and protect cells against proteotoxic insults [6]
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