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Novel Human Chaperone Mechanisms Counteracting Protein Misfolding and Aggregation in the Cellcore

CHARM · Horizon Europe grant · 2025-01-01–2029-12-31

EC contribution

€1,999,318

Total cost

€1,999,318

Beneficiaries

1
About the data

Source: CORDIS (official EU open data), Horizon Europe. Framework HORIZON · call ERC-2024-COG · scheme HORIZON-ERC · topic ERC-2024-COG. CORDIS record →

Objective

MolecuMolecular chaperones are vital for maintaining proteostasis by protecting our cells from the deleterious effects of protein misfolding and aggregation. The diverse ~50-chaperone J-domain protein (JDP, Hsp40) family acts as cells first line of defense, binding and remodeling non-natively folded proteins and facilitating their transfer to downstream chaperones. Recent discoveries from our lab have shown that JDP function is far more complex than previously described - identifying both a novel mode of regulation by which DNAJB1 coordinates amyloid disaggregation, and a new mechanism by which class A JDPs recognize destabilized proteins. Based on these findings and the sheer diversity of human JDPs, we propose that these chaperones employ many additional, yet-to-be-discovered mechanisms to carry out their vital cellular roles. Obtaining a structural and functional understanding of these chaperones is further crucial, as mutations in JDPs have been linked to many pathologies, including myopathies, neurodegenerative diseases, and metabolic disorders. Here we aim to uncover these novel JDP functional mechanisms, determine their role in addressing diverse proteomic challenges, and characterize how their malfunction leads to disease. Study of JDPs has proven challenging due to the dynamic nature of these chaperones, their transient interactions with clients, and the instability of misfolded proteins. The advanced methyl-TROSY NMR techniques used in my lab are, however, ideally suited for such large and dynamic systems. Furthermore, we have developed new NMR and biophysical assays allowing the monitoring of chaperone interactions with misfolded and aggregation-prone substrates in real time.Using these approaches, this project will unveil the structures and functional mechanisms of the diverse human JDPs, introducing fundamental new concepts into the chaperone field and paving the way for therapeutic strategies targeting protein misfolding and aggregation diseases.

Beneficiaries (1)

OrganisationCountryRoleEC contributionSME
WEIZMANN INSTITUTE OF SCIENCE IL coordinator €1,999,318

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