右心室压力超负荷小鼠模型中的双心室重构。

Biventricular remodeling in murine models of right ventricular pressure overload.

机构信息

Molecular Cardiology Research Institute, Tufts University School of Medicine, Boston, Massachusetts, USA.

出版信息

PLoS One. 2013 Jul 30;8(7):e70802. doi: 10.1371/journal.pone.0070802. Print 2013.

DOI:10.1371/journal.pone.0070802

PMID:23936252

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3728304/

Abstract

UNLABELLED

Right ventricular (RV) failure is a major cause of mortality in acute or chronic lung disease and left heart failure. The objective of this study was to demonstrate a percutaneous approach to study biventricular hemodynamics in murine models of primary and secondary RV pressure overload (RVPO) and further explore biventricular expression of two key proteins that regulate cardiac remodeling: calcineurin and transforming growth factor beta 1 (TGFβ1).

METHODS

Adult, male mice underwent constriction of the pulmonary artery or thoracic aorta as models of primary and secondary RVPO, respectively. Conductance catheterization was performed followed by tissue analysis for changes in myocyte hypertrophy and fibrosis.

RESULTS

Both primary and secondary RVPO decreased biventricular stroke work however RV instantaneous peak pressure (dP/dtmax) and end-systolic elastance (Ees) were preserved in both groups compared to controls. In contrast, left ventricular (LV) dP/dtmax and LV-Ees were unchanged by primary, but reduced in the secondary RVPO group. The ratio of RV:LV ventriculo-arterial coupling was increased in primary and reduced in secondary RVPO. Primary and secondary RVPO increased RV mass, while LV mass decreased in primary and increased in the secondary RVPO groups. RV fibrosis and hypertrophy were increased in both groups, while LV fibrosis and hypertrophy were increased in secondary RVPO only. RV calcineurin expression was increased in both groups, while LV expression increased in secondary RVPO only. Biventricular TGFβ1 expression was increased in both groups.

CONCLUSION

These data identify distinct effects of primary and secondary RVPO on biventricular structure, function, and expression of key remodeling pathways.

摘要

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右心室（RV）衰竭是急性或慢性肺部疾病和左心衰竭导致死亡的主要原因。本研究的目的是证明一种经皮方法，用于研究原发性和继发性 RV 压力超负荷（RVPO）的鼠模型中的双心室血液动力学，并进一步探讨调节心脏重构的两个关键蛋白：钙调神经磷酸酶和转化生长因子β 1（TGFβ1）在双心室中的表达。

方法

成年雄性小鼠接受肺动脉或胸主动脉缩窄作为原发性和继发性 RVPO 的模型。进行导管插入术，随后进行心肌分析，以检测心肌肥厚和纤维化的变化。

结果

原发性和继发性 RVPO 均降低了双心室每搏功，但与对照组相比，两组的 RV 瞬间峰值压力（dP/dtmax）和收缩末期弹性（Ees）均得以保留。相比之下，原发性 RVPO 对左心室（LV）的 dP/dtmax 和 LV-Ees 没有影响，但继发性 RVPO 组的 LV-Ees 降低。RV：LV 心室动脉偶联的比值在原发性 RVPO 中增加，而在继发性 RVPO 中降低。原发性和继发性 RVPO 均增加 RV 质量，而 LV 质量在原发性 RVPO 中降低，在继发性 RVPO 中增加。RV 纤维化和肥厚在两组中均增加，而 LV 纤维化和肥厚仅在继发性 RVPO 中增加。RV 钙调神经磷酸酶表达在两组中均增加，而 LV 表达仅在继发性 RVPO 中增加。双心室 TGFβ1 表达在两组中均增加。

结论

这些数据确定了原发性和继发性 RVPO 对双心室结构、功能和关键重构途径表达的不同影响。

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右心室压力超负荷小鼠模型中的双心室重构。

Biventricular remodeling in murine models of right ventricular pressure overload.

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METHODS

RESULTS

CONCLUSION

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