Functional significance of the discordance between transcriptional profile and left ventricular structure/function during reverse remodeling
Veli K. Topkara, Kari T. Chambers, Kai-Chien Yang, Huei-Ping Tzeng, Sarah Evans, Carla Weinheimer, Attila Kovacs, Jeffrey Robbins, Philip Barger, Douglas L. Mann
Veli K. Topkara, Kari T. Chambers, Kai-Chien Yang, Huei-Ping Tzeng, Sarah Evans, Carla Weinheimer, Attila Kovacs, Jeffrey Robbins, Philip Barger, Douglas L. Mann
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Research Article Cardiology

Functional significance of the discordance between transcriptional profile and left ventricular structure/function during reverse remodeling

Abstract

To elucidate the mechanisms for reverse LV remodeling, we generated a conditional (doxycycline [dox] off) transgenic mouse tetracycline transactivating factor–TRAF2 (tTA-TRAF2) that develops a dilated heart failure (HF) phenotype upon expression of a proinflammatory transgene, TNF receptor–associated factor 2 (TRAF2), and complete normalization of LV structure and function when the transgene is suppressed. tTA-TRAF2 mice developed a significant increase in LV dimension with decreased contractile function, which was completely normalized in the tTA-TRAF2 mice fed dox for 4 weeks (tTA-TRAF2dox4W). Normalization of LV structure and function was accompanied by partial normalization (~60%) of gene expression associated with incident HF. Similar findings were observed in patients with dilated cardiomyopathy who underwent reverse LV remodeling following mechanical circulatory support. Persistence of the HF gene program was associated with an exaggerated hypertrophic response and increased mortality in tTA-TRAF2dox4W mice following transaortic constriction (TAC). These effects were no longer observed following TAC in tTA-TRAF2dox8W, wherein there was a more complete (88%) reversal of the incident HF genes. These results demonstrate that reverse LV remodeling is associated with improvements in cardiac myocyte biology; however, the persistence of the abnormal HF gene program may be maladaptive following perturbations in hemodynamic loading conditions.

Authors

Veli K. Topkara, Kari T. Chambers, Kai-Chien Yang, Huei-Ping Tzeng, Sarah Evans, Carla Weinheimer, Attila Kovacs, Jeffrey Robbins, Philip Barger, Douglas L. Mann

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Figure 1

Characterization of tTA-TRAF2 mice.

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Characterization of tTA-TRAF2 mice. (A) tTA-TRAF2 mice and LM controls w...
(A) tTA-TRAF2 mice and LM controls were followed up to 8 weeks of age and were then randomized to receive doxycycline in the drinking water or no doxycycline for 4 weeks. (B) Photographs of whole hearts and sagittal sections of LM, tTA-TRAF2, LMdox4W, and tTA-TRAF2dox4W mouse hearts at 12 weeks of age. (C) Heart weight–to–body weight ratio (HW/BW). (D) Left ventricular end-diastolic diameter (LVEDD).(E) LV fractional shortening percent (FS%). (F) LV wall thickness (LVWTh). (G) r/h ratio of LM, tTA-TRAF2, LMdox4W, and tTA-TRAF2dox4W at 12 weeks of age (n = 6 mice/group). (H) Representative transmission electron micrographs from 12-week LM, tTA-TRAF2, LMdox4W, and tTA-TRAF2dox4W mice at ×10,000 and ×20,000 magnification. Protein aggregates are enclosed by the circle. Statistical analysis was performed using 2-way ANOVA with Tukey post-hoc analysis. (*P ≤ 0.05 compared with LM control.) LM, littermate; LMdox4W, LM mouse fed doxycycline for 4 weeks; r/h ratio, radius/wall thickness.