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1. Allosteric changes in protein stability and dynamics as pathogenic mechanism for calmodulin variants not affecting Ca 2+ coordinating residues.

Author

Holler CV, Petersson NM, Brohus M, Niemelä MA, Iversen ED, Overgaard MT, Iwaï H, and Wimmer R

Subjects

Humans, Mutation genetics, Arrhythmias, Cardiac, Protein Stability, Protein Binding, Calmodulin metabolism, Calcium metabolism

Abstract

Mutations in the small, calcium-sensing, protein calmodulin cause cardiac arrhythmia and can ultimately prove lethal. Here, we report the impact of the G113R variant on the structure and dynamics of the calmodulin molecule, both in the presence and in the absence of calcium. We show that the mutation introduces minor changes into the structure of calmodulin and that it changes the thermostability and thus the degree of foldedness at human body temperature. The mutation also severely impacts the intramolecular mobility of calmodulin, especially in the apo form. Glycine 113 acts as an alpha-helical C-capping residue in both apo/ - and Ca 2+ /calmodulin, but its exchange to arginine has very different effects on the apo and Ca 2+ forms. The majority of arrhythmogenic calmodulin variants identified affects residues in the Ca 2+ coordinating loops of the two C-domain EF-Hands, causing a 'direct impact on Ca 2+ binding'. However, G113R lies outside a Ca 2+ coordinating loop and acts differently and more similar to the previously characterized arrhythmogenic N53I. Therefore, we suggest that altered apo/CaM dynamics may be a novel general disease mechanism, defining low-calcium target affinity - or Ca 2+ binding kinetics - critical for timely coordination of essential ion-channels in the excitation-contraction cycle., Competing Interests: Declaration of Competing Interest MTO acted as expert witness for the defense in the 2022/2023 Inquiry into the convictions of Kathlen Megan Folbigg (https://2022folbigginquiry.dcj.nsw.gov.au/). CVH, NMP and HI are employees of private companies., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024