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Aberrant TMPRSS6-Protease Regulation of Disease Mutant HCN4-KCNE1 Channel Complex Depends on the KCNE1-G38S Polymorphism.

Created on 10 Jul 2026

Authors

David Linhoff, Minay Mertens, Ricarda Zimmermann, Stefan Peischard, Christoph Brenker, Thomas Budde, Sven Meuth, Christos Gatsogiannis, Annika Lüttjohann, Liudmila Sosulina, Jürgen Hescheler, Nathalie Strutz-Seebohm, Guiscard Seebohm

Published in

Archiv der Pharmazie. Volume 359. Issue 6. Pages e70303.

Abstract

The sinoatrial node pacemaker channel HCN4 plays a central role in cardiac automaticity, and disease-associated variants can predispose to atrial arrhythmias. Here, we investigated the functional interplay between the HCN4 variant P883R and the potassium channel β-subunit KCNE1, focusing on the common atrial fibrillation-associated KCNE1 variant G38S and its regulation by the iron-induced serine protease TMPRSS6. Electrophysiological analyses revealed that HCN4-P883R decreases net HCN4 currents If, consistent with impaired automaticity. Co-expression of KCNE1, either wild-type or polymorphic KCNE1-G38S, restored functional properties of the mutant channel, indicating that KCNE1 is a key modulator of HCN4 activity. Importantly, TMPRSS6-mediated proteolytic processing of KCNE1 reduced HCN4 currents, whereas HCN4 expressed alone was insensitive to TMPRSS6, identifying KCNE1 as the direct regulatory target. Notably, KCNE1-G38S altered the HCN4-KCNE1 complex to TMPRSS6-dependent downregulation, resulting in a reduced suppression of HCN4-P883R-mediated currents compared with wild-type KCNE1. Mechanistically, differential TMPRSS6 cleavage depended on the membrane positioning of the KCNE1-32RRSPRSS38 motif. These findings reveal a protease-dependent buffering mechanism that counteracts HCN4 loss-of-function and establish TMPRSS6 as a molecular switch controlling pacemaker activity in a KCNE1 genotype-dependent manner. This dynamic regulatory framework may contribute to the phenotypic variability of sinoatrial node dysfunction and atrial fibrillation.

PMID:
42424558
Bibliographic data and abstract were imported from PubMed on 10 Jul 2026.

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