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Conformational dynamics modulate the catalytic activity of the molecular chaperone Hsp90

Sophie L. Mader, Abraham López, Jannis Lawatscheck, Qi Luo, Daniel A. Rutz, Ana P. Gámiz‐Hernández, Michael Sattler, Johannes Büchner, Ville R. I. Kaila

2020Nature Communications97 citationsDOIOpen Access PDF

Abstract

The heat shock protein 90 (Hsp90) is a molecular chaperone that employs the free energy of ATP hydrolysis to control the folding and activation of several client proteins in the eukaryotic cell. To elucidate how the local ATPase reaction in the active site couples to the global conformational dynamics of Hsp90, we integrate here large-scale molecular simulations with biophysical experiments. We show that the conformational switching of conserved ion pairs between the N-terminal domain, harbouring the active site, and the middle domain strongly modulates the catalytic barrier of the ATP-hydrolysis reaction by electrostatic forces. Our combined findings provide a mechanistic model for the coupling between catalysis and protein dynamics in Hsp90, and show how long-range coupling effects can modulate enzymatic activity.

Topics & Concepts

ATP hydrolysisHsp90Chaperone (clinical)Molecular dynamicsBiophysicsChemistryProtein foldingCo-chaperoneHeat shock proteinATPaseConformational changeProtein structureFolding (DSP implementation)Molecular machineActive siteCatalysisEnzymeBiochemistryBiologyNanotechnologyComputational chemistryMaterials scienceMedicineGeneEngineeringPathologyElectrical engineeringHeat shock proteins researchProtein Structure and DynamicsEnzyme Structure and Function