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Mechanosensitive Gene Regulation by Myocardin-Related Transcription Factors Is Required for Cardiomyocyte Integrity in Load-Induced Ventricular Hypertrophy

Trembley, Michael A. ; Quijada, Pearl ; Agullo-Pascual, Esperanza ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2018

In: Circulation Vol. 138, No. 17 ( 2018-10-23), p. 1864-1878

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In: Circulation, Ovid Technologies (Wolters Kluwer Health), Vol. 138, No. 17 ( 2018-10-23), p. 1864-1878

Abstract: Hypertrophic cardiomyocyte growth and dysfunction accompany various forms of heart disease. The mechanisms responsible for transcriptional changes that affect cardiac physiology and the transition to heart failure are not well understood. The intercalated disc (ID) is a specialized intercellular junction coupling cardiomyocyte force transmission and propagation of electrical activity. The ID is gaining attention as a mechanosensitive signaling hub and hotspot for causative mutations in cardiomyopathy. Methods: Transmission electron microscopy, confocal microscopy, and single-molecule localization microscopy were used to examine changes in ID structure and protein localization in the murine and human heart. We conducted detailed cardiac functional assessment and transcriptional profiling of mice lacking myocardin-related transcription factor (MRTF)-A and MRTF-B specifically in adult cardiomyocytes to evaluate the role of mechanosensitive regulation of gene expression in load-induced ventricular remodeling. Results: We found that MRTFs localize to IDs in the healthy human heart and accumulate in the nucleus in heart failure. Although mice lacking MRTFs in adult cardiomyocytes display normal cardiac physiology at baseline, pressure overload leads to rapid heart failure characterized by sarcomere disarray, ID disintegration, chamber dilation and wall thinning, cardiac functional decline, and partially penetrant acute lethality. Transcriptional profiling reveals a program of actin cytoskeleton and cardiomyocyte adhesion genes driven by MRTFs during pressure overload. Indeed, conspicuous remodeling of gap junctions at IDs identified by single-molecule localization microscopy may partially stem from a reduction in Mapre1 expression, which we show is a direct mechanosensitive MRTF target. Conclusions: Our study describes a novel paradigm in which MRTFs control an acute mechanosensitive signaling circuit that coordinates cross-talk between the actin and microtubule cytoskeleton and maintains ID integrity and cardiomyocyte homeostasis in heart disease.

Type of Medium: Online Resource

ISSN: 0009-7322 , 1524-4539

URL: Article

DOI: 10.1161/CIRCULATIONAHA.117.031788

Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2018

detail.hit.zdb_id: 1466401-X

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Substrate-dependent and cyclophilin D-independent regulation of mitochondrial flashes in skeletal and cardiac muscle

Wei-LaPierre, Lan ; Ainbinder, Alina ; Tylock, Kevin M. ; [et al.]

Elsevier BV ; 2019

In: Archives of Biochemistry and Biophysics Vol. 665 ( 2019-04), p. 122-131

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In: Archives of Biochemistry and Biophysics, Elsevier BV, Vol. 665 ( 2019-04), p. 122-131

Type of Medium: Online Resource

ISSN: 0003-9861

URL: Article

DOI: 10.1016/j.abb.2019.03.003

RVK:

WA 15000

Language: English

Publisher: Elsevier BV

Publication Date: 2019

detail.hit.zdb_id: 1461378-5

SSG: 12

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Biophysical mechanisms for QRS- and QTc-interval prolongation in mice with cardiac expression of expanded CUG-repeat RNA

Tylock, Kevin M. ; Auerbach, David S. ; Tang, Zhen Zhi ; [et al.]

Rockefeller University Press ; 2020

In: Journal of General Physiology Vol. 152, No. 2 ( 2020-02-03)

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In: Journal of General Physiology, Rockefeller University Press, Vol. 152, No. 2 ( 2020-02-03)

Abstract: Myotonic dystrophy type 1 (DM1), the most common form of muscular dystrophy in adults, results from the expression of toxic gain-of-function transcripts containing expanded CUG-repeats. DM1 patients experience cardiac electrophysiological defects, including prolonged PR-, QRS-, and QT-intervals, that increase susceptibility to sudden cardiac death (SCD). However, the specific biophysical and molecular mechanisms that underlie the electrocardiograph (ECG) abnormalities and SCD in DM1 are unclear. Here, we addressed this issue using a novel transgenic mouse model that exhibits robust cardiac expression of expanded CUG-repeat RNA (LC15 mice). ECG measurements in conscious LC15 mice revealed significantly prolonged QRS- and corrected QT-intervals, but a normal PR-interval. Although spontaneous arrhythmias were not observed in conscious LC15 mice under nonchallenged conditions, acute administration of the sodium channel blocker flecainide prolonged the QRS-interval and unveiled an increased susceptibility to lethal ventricular arrhythmias. Current clamp measurements in ventricular myocytes from LC15 mice revealed significantly reduced action potential upstroke velocity at physiological pacing (9 Hz) and prolonged action potential duration at all stimulation rates (1–9 Hz). Voltage clamp experiments revealed significant rightward shifts in the voltage dependence of sodium channel activation and steady-state inactivation, as well as a marked reduction in outward potassium current density. Together, these findings indicate that expression of expanded CUG-repeat RNA in the murine heart results in reduced sodium and potassium channel activity that results in QRS- and QT-interval prolongation, respectively.

Type of Medium: Online Resource

ISSN: 0022-1295 , 1540-7748

URL: Article

DOI: 10.1085/jgp.201912450

Language: English

Publisher: Rockefeller University Press

Publication Date: 2020

detail.hit.zdb_id: 1477246-2

SSG: 12

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