Dierk Thomas scite author profile

Background-Antiarrhythmic management of atrial fibrillation (AF) remains a major clinical challenge. Mechanismbased approaches to AF therapy are sought to increase effectiveness and to provide individualized patient care. K 2P 3.1 (TASK-1 [tandem of P domains in a weak inward-rectifying K + channel-related acid-sensitive K + channel-1]) 2-poredomain K + (K 2P ) channels have been implicated in action potential regulation in animal models. However, their role in the pathophysiology and treatment of paroxysmal and chronic patients with AF is unknown. Methods and Results-Right and left atrial tissue was obtained from patients with paroxysmal or chronic AF and from control subjects in sinus rhythm. Ion channel expression was analyzed by quantitative real-time polymerase chain reaction and Western blot. Membrane currents and action potentials were recorded using voltage-and current-clamp techniques. K 2P 3.1 subunits exhibited predominantly atrial expression, and atrial K 2P 3.1 transcript levels were highest among functional K 2P channels. K 2P 3.1 mRNA and protein levels were increased in chronic AF. Enhancement of corresponding currents in the right atrium resulted in shortened action potential duration at 90% of repolarization (APD 90 ) compared with patients in sinus rhythm. In contrast, K 2P 3.1 expression was not significantly affected in subjects with paroxysmal AF. Pharmacological K 2P 3.1 inhibition prolonged APD 90 in atrial myocytes from patients with chronic AF to values observed among control subjects in sinus rhythm. Conclusions-Enhancement of atrium-selective K 2P 3.1 currents contributes to APD shortening in patients with chronic AF, and K 2P 3.1 channel inhibition reverses AF-related APD shortening. These results highlight the potential of K 2P 3.1 as a novel drug target for mechanism-based AF therapy.

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The influence of surgical technique on early posttransplant atrial fibrillation — comparison of biatrial, bicaval, and total orthotopic heart transplantation

Rivinius¹,

Helmschrott²,

Ruhparwar³

et al. 2017

TCRM

140

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PurposeEarly posttransplant atrial fibrillation (AF) has been associated with worse clinical outcomes after heart transplantation (HTX). The type of surgical technique may constitute a relevant risk factor for AF.Patients and methodsThis retrospective single-center study included 530 adult patients. Patients were stratified by surgical technique (biatrial, bicaval, or total orthotopic HTX) and early posttransplant heart rhythm (AF or sinus rhythm). Univariate and multivariate analyses were performed to evaluate risk factors for AF.ResultsA total of 161 patients received biatrial HTX (30.4%), 115 bicaval HTX (21.7%), and 254 total orthotopic HTX (47.9%). Sixty-one of 530 patients developed early posttransplant AF (11.5%). Patients with AF showed a statistically inferior 5-year survival compared to those with sinus rhythm (P<0.0001). Total orthotopic HTX had the lowest rate of AF (total orthotopic HTX [6.3%], bicaval HTX [14.8%], biatrial HTX [17.4%], P=0.0012). Multivariate analysis showed pretransplant valvular heart disease (P=0.0372), posttransplant enlarged left atrium (P=0.0066), posttransplant mitral regurgitation (P=0.0370), and non-total orthotopic HTX (P=0.0112) as risk factors for AF.ConclusionEarly posttransplant AF was associated with increased mortality (P<0.0001). Total orthotopic HTX showed the lowest rate of AF compared to biatrial or bicaval HTX (P=0.0012).

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Alternative Translation Initiation in Rat Brain Yields K2P2.1 Potassium Channels Permeable to Sodium

Thomas

Plant

Wilkens

et al. 2008

Neuron

132

139

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K(2P) channels mediate potassium background currents essential to central nervous system function, controlling excitability by stabilizing membrane potential below firing threshold and expediting repolarization. Here, we show that alternative translation initiation (ATI) regulates function of K(2P)2.1 (TREK-1) via an unexpected strategy. Full-length K(2P)2.1 and an isoform lacking the first 56 residues of the intracellular N terminus (K(2P)2.1Delta1-56) are produced differentially in a regional and developmental manner in the rat central nervous system, the latter passing sodium under physiological conditions leading to membrane depolarization. Control of ion selectivity via ATI is proposed to be a natural, epigenetic mechanism for spatial and temporal regulation of neuronal excitability.

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Dierk Thomas

Upregulation of K _2P 3.1 K ⁺ Current Causes Action Potential Shortening in Patients With Chronic Atrial Fibrillation

The influence of surgical technique on early posttransplant atrial fibrillation — comparison of biatrial, bicaval, and total orthotopic heart transplantation

Alternative Translation Initiation in Rat Brain Yields K2P2.1 Potassium Channels Permeable to Sodium

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Dierk Thomas

Upregulation of K 2P 3.1 K + Current Causes Action Potential Shortening in Patients With Chronic Atrial Fibrillation

The influence of surgical technique on early posttransplant atrial fibrillation &mdash; comparison of biatrial, bicaval, and total orthotopic heart transplantation

Alternative Translation Initiation in Rat Brain Yields K2P2.1 Potassium Channels Permeable to Sodium

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Upregulation of K _2P 3.1 K ⁺ Current Causes Action Potential Shortening in Patients With Chronic Atrial Fibrillation

The influence of surgical technique on early posttransplant atrial fibrillation — comparison of biatrial, bicaval, and total orthotopic heart transplantation