HspB1 and Hsc70 chaperones engage distinct tau species and have different inhibitory effects on amyloid formation

Baughman, Hannah E.R.; Clouser, Amanda F.; Klevit, Rachel E.; Nath, Abhinav

doi:10.1074/jbc.m117.803411

Cited by 79 publications

(100 citation statements)

References 59 publications

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“…This study showed that Hsp70 slows down the nucleation process of tau, stabilises oligomeric species and inhibits their growth into fibrils . Similar findings were made in a second study, comparing the action of Hsp70 and a second chaperone, HspB1, on K18 and full‐length tau aggregation using FCS and NMR .…”

Section: Tau Oligomers and Filamentssupporting

confidence: 80%

Shedding light on aberrant interactions – a review of modern tools for studying protein aggregates

et al. 2018

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The link between protein aggregation and neurodegenerative disease is well established. However, given the heterogeneity of species formed during the aggregation process, it is difficult to delineate details of the molecular events involved in generating pathological aggregates from those producing soluble monomers. As aberrant aggregates are possible pharmacological targets for the treatment of neurodegenerative diseases, the need to observe and characterise soluble oligomers has pushed traditional biophysical techniques to their limits, leading to the development of a plethora of new tools capable of detecting soluble oligomers with high precision and specificity. In this review, we discuss a range of modern biophysical techniques that have been developed to study protein aggregation, and give an overview of how they have been used to understand, in detail, the aberrant aggregation of amyloidogenic proteins associated with the two most common neurodegenerative disorders, Alzheimer's disease and Parkinson's disease.

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Section: Tau Oligomers and Filamentssupporting

confidence: 80%

Shedding light on aberrant interactions – a review of modern tools for studying protein aggregates

et al. 2018

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“…A 3.4-Å resolution cryo-electron microscopy structure of the common protofilament core of tau filaments purified from an individual with Alzheimer’s disease (PDB ID 5O3L) shows a 306-VQI-308 motif at the start of the first ordered beta sheet [60]. Recent NMR data revealed HspB1 to interact with this region of tau, consistent with binding of substrate IXI/V motifs to sHsp β4/β8 pockets [61]. In such a mechanism of sHsp chaperone action, activity towards these fibril-forming sequences will be modulated by the structural dynamics of both sHsp assembly and the substrate.…”

Section: Discussionmentioning

confidence: 82%

Terminal Regions Confer Plasticity to the Tetrameric Assembly of Human HspB2 and HspB3

Clark

Egberts

Kondrat

et al. 2018

Journal of Molecular Biology

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Heterogeneity in small heat shock proteins (sHsps) spans multiple spatiotemporal regimes—from fast fluctuations of part of the protein, to conformational variability of tertiary structure, plasticity of the interfaces, and polydispersity of the inter-converting, and co-assembling oligomers. This heterogeneity and dynamic nature of sHsps has significantly hindered their structural characterization. Atomic coordinates are particularly lacking for vertebrate sHsps, where most available structures are of extensively truncated homomers. sHsps play important roles in maintaining protein levels in the cell and therefore in organismal health and disease. HspB2 and HspB3 are vertebrate sHsps that are found co-assembled in neuromuscular cells, and variants thereof are associated with disease. Here, we present the structure of human HspB2/B3, which crystallized as a hetero-tetramer in a 3:1 ratio. In the HspB2/B3 tetramer, the four α-crystallin domains (ACDs) assemble into a flattened tetrahedron which is pierced by two non-intersecting approximate dyads. Assembly is mediated by flexible “nuts and bolts” involving IXI/V motifs from terminal regions filling ACD pockets. Parts of the N-terminal region bind in an unfolded conformation into the anti-parallel shared ACD dimer grooves. Tracts of the terminal regions are not resolved, most likely due to their disorder in the crystal lattice. This first structure of a full-length human sHsp heteromer reveals the heterogeneous interactions of the terminal regions and suggests a plasticity that is important for the cytoprotective functions of sHsps.

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“…It is possible that the same mechanism for rapid, promiscuous recognition of binding partners by IDPs is responsible for the heightened activity of partially unfolded chaperones. Recent reports have indicated that HSP27 interacts with substrates αsynuclein and Tau in a dynamic, transient manner 64,65 with CSPs induced by Tau binding identified in the β6 + 7 strand of cHSP27 65 . Interestingly, many of the residues that are unfolded in the HSP27 monomer are charged or polar (Fig.…”

Section: Discussionmentioning

confidence: 99%

Local unfolding of the HSP27 monomer regulates chaperone activity

et al. 2019

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The small heat-shock protein HSP27 is a redox-sensitive molecular chaperone that is expressed throughout the human body. Here, we describe redox-induced changes to the structure, dynamics, and function of HSP27 and its conserved α-crystallin domain (ACD). While HSP27 assembles into oligomers, we show that the monomers formed upon reduction are highly active chaperones in vitro, but are susceptible to self-aggregation. By using relaxation dispersion and high-pressure nuclear magnetic resonance (NMR) spectroscopy, we observe that the pair of β-strands that mediate dimerisation partially unfold in the monomer. We note that numerous HSP27 mutations associated with inherited neuropathies cluster to this dynamic region. High levels of sequence conservation in ACDs from mammalian sHSPs suggest that the exposed, disordered interface present in free monomers or oligomeric subunits may be a general, functional feature of sHSPs.

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HspB1 and Hsc70 chaperones engage distinct tau species and have different inhibitory effects on amyloid formation

Cited by 79 publications

References 59 publications

Shedding light on aberrant interactions – a review of modern tools for studying protein aggregates

Shedding light on aberrant interactions – a review of modern tools for studying protein aggregates

Terminal Regions Confer Plasticity to the Tetrameric Assembly of Human HspB2 and HspB3

Local unfolding of the HSP27 monomer regulates chaperone activity

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