Single-molecule visualisation of human Hsp70-driven conformational remodelling during stress
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The Hsp70 chaperone system plays a central role in the folding of nascent polypeptides and in preventing protein misfolding and aggregation during cellular stress. However, the precise mechanism by which the human Hsp70, HspA8, remodels the conformations of individual chemically misfolded clients remains unclear. Moreover, it is unknown whether this mechanism differs from that used by Hsp70 to engage clients during heat stress to preserve native function. To address these questions, we report here the use of single-molecule fluorescence resonance energy transfer (smFRET) to temporally interrogate how the human Hsp70 system regulates the conformation of a heat-sensitive client protein, firefly luciferase (Fluc), following chemical denaturation and during heat stress. We find that Hsp70 recognises both chemically denatured and heat-induced misfolded states of Fluc and resolves them by conformational expansion. Release from a Hsp70-bound state, a process driven by the nucleotide exchange factor, Hsp110, guides Fluc toward productive folding trajectories that would otherwise be unlikely to occur spontaneously following collapse from a conformationally unfolded state. Moreover, we demonstrate that both temperature and the conformational state of misfolded Fluc dictate the ability of HspA8 to meaningfully resolve non-native structure within the protein. Collectively, this work provides direct visualisation of the mechanisms by which Hsp70 modulates client conformations under diverse stress conditions to preserve proteome integrity.