The two-pore domain potassium channel TREK-1 mediates cardiac fibrosis and diastolic dysfunction
Dennis M. Abraham, … , Matthew J. Wolf, Howard A. Rockman
Dennis M. Abraham, … , Matthew J. Wolf, Howard A. Rockman
Published August 28, 2018
Citation Information: J Clin Invest. 2018;128(11):4843-4855. https://doi.org/10.1172/JCI95945.
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Research Article Cardiology Muscle biology

The two-pore domain potassium channel TREK-1 mediates cardiac fibrosis and diastolic dysfunction

Abstract

Cardiac two-pore domain potassium channels (K2P) exist in organisms from Drosophila to humans; however, their role in cardiac function is not known. We identified a K2P gene, CG8713 (sandman), in a Drosophila genetic screen and show that sandman is critical to cardiac function. Mice lacking an ortholog of sandman, TWIK-related potassium channel (TREK-1, also known Kcnk2), exhibit exaggerated pressure overload–induced concentric hypertrophy and alterations in fetal gene expression, yet retain preserved systolic and diastolic cardiac function. While cardiomyocyte-specific deletion of TREK-1 in response to in vivo pressure overload resulted in cardiac dysfunction, TREK-1 deletion in fibroblasts prevented deterioration in cardiac function. The absence of pressure overload–induced dysfunction in TREK-1–KO mice was associated with diminished cardiac fibrosis and reduced activation of JNK in cardiomyocytes and fibroblasts. These findings indicate a central role for cardiac fibroblast TREK-1 in the pathogenesis of pressure overload–induced cardiac dysfunction and serve as a conceptual basis for its inhibition as a potential therapy.

Authors

Dennis M. Abraham, Teresa E. Lee, Lewis J. Watson, Lan Mao, Gurangad Chandok, Hong-Gang Wang, Stephan Frangakis, Geoffrey S. Pitt, Svati H. Shah, Matthew J. Wolf, Howard A. Rockman

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Figure 1

Sandman is critical for Drosophila cardiac function.

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Sandman is critical for Drosophila cardiac function. (A) Schematic of D...
(A) Schematic of Drosophila genetic screen. Genetic deletion of a segment between cytologic bands 44A and 44B of chromosome 2R, Df(2R)Exel7094, resulted in enlarged cardiac dimensions and diminished cardiac function by OCT. Adjacent genomic deletions Df(2R)Exel6055 and Df(2R)Exel7095 have normal cardiac dimensions, thereby identifying a genomic segment spanning 13 genes as the candidate interval. (B) Representative 1 second OCT recordings from w1118, genomic deletion (Df[2R]Exel7094), P-element single-gene disruption of sandman (PBac{RB}sandman e00867), sandman overexpressed ubiquitously (actin>sandman), sandman overexpressed in cardiac tissue (tinC>sandman) or ubiquitously (actin>sandman), or in the context of the genomic deletion Df(2R)Exel7094 (Df(2R)Exel7094; actin>sandman and Df(2R)Exel7094; tinC>sandman). Scale bar: 125 μm. (C) Average end diastolic dimensions (EDD) and (D) average end systolic dimensions (ESD) reveal marked enlargement and resultant decrease in (E) average fractional shortening (FS) in Df(2R)Exel7094 and PBac{RB}sandman e00867 in comparison with w1118. The ubiquitous and cardiac-specific overexpression of sandman in the context of Df(2R)Exel7094 (Df(2R)Exel7094; actin>sandman and Df(2R)Exel7094; tinC>sandman, respectively) results in rescue of cardiac dimensions in comparison with Df(2R)Exel7094 and PBac{RB}sandman e00867. Statistical comparisons made using 1-way ANOVA with Bonferroni’s test for multiple comparisons. *P < 0.0001 versus w1118; P < 0.0001 versus Df(2R)Exel7094 and PBac{RB}sandman e00867.