The loss of cellular proteostasis through aberrant stress granule formation is implicated in neurodegenerative diseases. Stress granules are formed by biomolecular condensation involving protein-protein and protein-RNA interactions. These assemblies are protective, but can rigidify, leading to amyloid-like fibril formation, a hallmark of the disease pathology. Key proteins dictating stress granule formation and disassembly, such as TDP43, contain low-complexity (LC) domains that drive fibril formation. HSPB8, a small heat shock protein, plays a critical role modulating stress granule fluidity, preventing aggregation and promoting degradation of misfolded proteins. We examined the interaction between HSPB8 and the TDP43 LC using thioflavin T (ThT) and fluorescence polarization (FP) aggregation assays, fluorescence microscopy and photobleaching experiments, and crosslinking mass spectrometry (XL-MS). Our results indicate that HSPB8 delays TDP43 LC aggregation through domain-specific interactions with fibril nucleating species, without affecting fibril elongation rates. These findings provide mechanistic insight into how ATP-independent chaperones mediate LC domain aggregation and provide a basis for investigating how the TDP43 LC subverts chaperone activity in neurodegenerative disease.
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| http://dx.doi.org/10.1101/2025.01.28.635368 | DOI Listing |
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