Ectopic expression of Cdk8 induces eccentric hypertrophy and heart failure
Duane D. Hall, Jessica M. Ponce, Biyi Chen, Kathryn M. Spitler, Adrianne Alexia, Gavin Y. Oudit, Long-Sheng Song, Chad E. Grueter
Duane D. Hall, Jessica M. Ponce, Biyi Chen, Kathryn M. Spitler, Adrianne Alexia, Gavin Y. Oudit, Long-Sheng Song, Chad E. Grueter
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Research Article Cardiology

Ectopic expression of Cdk8 induces eccentric hypertrophy and heart failure

Abstract

Widespread changes in cardiac gene expression occur during heart failure, yet the mechanisms responsible for coordinating these changes remain poorly understood. The Mediator complex represents a nodal point for modulating transcription by bridging chromatin-bound transcription factors with RNA polymerase II activity; it is reversibly regulated by its cyclin-dependent kinase 8 (Cdk8) kinase submodule. Here, we identified increased Cdk8 protein expression in human failing heart explants and determined the consequence of this increase in cardiac-specific Cdk8-expressing mice. Transgenic Cdk8 overexpression resulted in progressive dilated cardiomyopathy, heart failure, and premature lethality. Prior to functional decline, left ventricular cardiomyocytes were dramatically elongated, with disorganized transverse tubules and dysfunctional calcium handling. RNA sequencing results showed that myofilament gene isoforms not typically expressed in adult cardiomyocytes were enriched, while oxidative phosphorylation and fatty acid biosynthesis genes were downregulated. Interestingly, candidate upstream transcription factor expression levels and MAPK signaling pathways thought to determine cardiomyocyte size remained relatively unaffected, suggesting that Cdk8 functions within a novel growth regulatory pathway. Our findings show that manipulating cardiac gene expression through increased Cdk8 levels is detrimental to the heart by establishing a transcriptional program that induces pathological remodeling and eccentric hypertrophy culminating in heart failure.

Authors

Duane D. Hall, Jessica M. Ponce, Biyi Chen, Kathryn M. Spitler, Adrianne Alexia, Gavin Y. Oudit, Long-Sheng Song, Chad E. Grueter

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Figure 5

Evaluation of MAPK signaling in Cdk8-transgenic hearts.

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Evaluation of MAPK signaling in Cdk8-transgenic hearts. Discordant diffe...
Discordant differences in MAPK protein levels and activation between Cdk8-transgenic lines fail to explain the eccentric cardiomyocyte morphology and dilated phenotype from Cdk8 overexpression. (A and B) Example immunoblot (A) and summary data (B) of total and phosphorylated Erk5 levels normalized to Coomassie stain in 3-week-old WT (gray), Tg8a (magenta), and Tg8b (cyan) ventricular lysates. *P < 0.05 vs. WT, 1-way ANOVA with Tukey’s multiple comparisons test, n = 4–8 from 2–3 experiments. (CE) Example capillary electrophoresis electropherograms (C) and lane views (D), with summary quantification (E) of total and phosphorylated/total MAPK levels in 3-week-old WT, Tg8a, and Tg8b ventricular lysates. *P < 0.05 vs. WT, 1-way ANOVA with Tukey’s multiple comparisons test, n = 3–5 from 2–3 experiments. (F and G) Capillary electrophoresis lane views (F) and summary data (G) of fractionated ventricular samples from 3-week-old WT and Tg8a hearts. Gapdh and RNA Pol-II indicate cytosolic and nuclear fractionation efficiencies, respectively. No significant differences between WT and Tg8a. Two-way ANOVA with Sidak’s multiple comparisons test, n = 4–6 from 2–3 experiments.