Litcius/Paper detail

Mechanistic insights into robust cardiac IKs potassium channel activation by aromatic polyunsaturated fatty acid analogues

Briana M Bohannon, Jessica J. Jowais, Leif Nyberg, Vanessa Olivier-Meo, Valentina Corradi, D. Peter Tieleman, Sara I. Liin, H. Peter Larsson

2023eLife13 citationsDOIOpen Access PDF

Abstract

Voltage-gated potassium (K V ) channels are important regulators of cellular excitability and control action potential repolarization in the heart and brain. K V channel mutations lead to disordered cellular excitability. Loss-of-function mutations, for example, result in membrane hyperexcitability, a characteristic of epilepsy and cardiac arrhythmias. Interventions intended to restore K V channel function have strong therapeutic potential in such disorders. Polyunsaturated fatty acids (PUFAs) and PUFA analogues comprise a class of K V channel activators with potential applications in the treatment of arrhythmogenic disorders such as long QT syndrome (LQTS). LQTS is caused by a loss-of-function of the cardiac I Ks channel – a tetrameric potassium channel complex formed by K V 7.1 and associated KCNE1 protein subunits. We have discovered a set of aromatic PUFA analogues that produce robust activation of the cardiac I Ks channel, and a unique feature of these PUFA analogues is an aromatic, tyrosine head group. We determine the mechanisms through which tyrosine PUFA analogues exert strong activating effects on the I Ks channel by generating modified aromatic head groups designed to probe cation–pi interactions, hydrogen bonding, and ionic interactions. We found that tyrosine PUFA analogues do not activate the I Ks channel through cation–pi interactions, but instead do so through a combination of hydrogen bonding and ionic interactions.

Topics & Concepts

Polyunsaturated fatty acidPotassium channelChemistryIon channelLong QT syndromePotassium channel blockerTyrosineBiochemistryStereochemistryBiophysicsFatty acidInternal medicineBiologyMedicineQT intervalReceptorCardiac electrophysiology and arrhythmiasIon channel regulation and functionMass Spectrometry Techniques and Applications