1. Arrhythmogenic cardiomyopathy related DSG2 mutations affect desmosomal cadherin binding kinetics
- Author
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Hendrik Milting, Dario Anselmetti, Volker Walhorn, Jana Davina Debus, Raimund Kerkhoff, Mareike Dieding, and Anna Gaertner-Rommel
- Subjects
0301 basic medicine ,Fibrosarcoma ,Mutant ,lcsh:Medicine ,Article ,03 medical and health sciences ,0302 clinical medicine ,Cell Adhesion ,Tumor Cells, Cultured ,Cadherin binding ,Humans ,Cell adhesion ,lcsh:Science ,Desmoglein 2 ,Multidisciplinary ,Cadherin ,Chemistry ,lcsh:R ,Wild type ,Arrhythmias, Cardiac ,Desmosomes ,Molecular biology ,Recombinant Proteins ,Receptor–ligand kinetics ,Cell biology ,Kinetics ,030104 developmental biology ,Mutation ,HT1080 ,lcsh:Q ,Cardiomyopathies ,030217 neurology & neurosurgery ,Intracellular - Abstract
Cadherins are calcium dependent adhesion proteins that establish the intercellular mechanical contact by bridging the gap to adjacent cells. Desmoglein-2 (Dsg2) is a specific cadherin of the cell-cell contact in cardiac desmosomes. Mutations in the DSG2-gene are regarded to cause arrhythmogenic (right ventricular) cardiomyopathy (ARVC) which is a rare but severe heart muscle disease. The molecular pathomechanisms of the vast majority of DSG2 mutations, however, are unknown. Here, we investigated the homophilic binding of wildtype Dsg2 and two mutations which are associated with ARVC. Using single molecule force spectroscopy and applying Jarzynski’s equality we determined the kinetics and thermodynamics of Dsg2 homophilic binding. Notably, the free energy landscape of Dsg2 dimerization exposes a high activation barrier which is in line with the proposed strand-swapping binding motif. Although the binding motif is not directly affected by the mutations the binding kinetics differ significantly from the wildtype. Furthermore, we applied a dispase based cell dissociation assay using HT1080 cell lines over expressing Dsg2 wildtype and mutants, respectively. Our molecular and cellular results consistently demonstrate that Dsg2 mutations can heavily affect homophilic Dsg2 interactions. Furthermore, the full thermodynamic and kinetic description of Dsg2 dimerization provides a consistent model of the so far discussed homophilic cadherin binding.
- Published
- 2017