Anjira S Ambade, Mario Naranjo, Tijana Tuhy, Rose Yu, Mery Marimoutou, Allen D Everett, Larissa A Shimoda, Stefan L Zimmerman, Ilton M Cubero Salazar, Catherine E Simpson, Ryan J Tedford, Steven Hsu, Paul M Hassoun, Rachel L Damico
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This study used serum samples from patients with Group I PAH and plasma and tissue samples derived from the Sugen/hypoxia rat pulmonary hypertension model to define associations between <i>COL18A1</i>/ES and disease development, including hemodynamics, right ventricle (RV) remodeling, and RV dysfunction. Using cardiac magnetic resonance imaging and advanced hemodynamic assessments with pressure-volume loops in patients with PAH to assess RV-pulmonary arterial coupling, we observed a strong relationship between circulating ES levels and metrics of RV structure and function. Specifically, RV mass and the ventricular mass index were positively associated with ES, whereas RV ejection fraction and RV-pulmonary arterial coupling were inversely associated with ES levels. Our animal data demonstrate that the development of pulmonary hypertension is associated with increased <i>COL18A1</i>/ES in the heart as well as the lungs. Disease-associated increases in <i>COL18A1</i> mRNA and protein were most pronounced in the RV compared with the left ventricle and lung. <i>COL18A1</i> expression in the RV was strongly associated with disease-associated changes in RV mass, fibrosis, and myocardial capillary density. 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引用次数: 0
摘要
大量研究表明,肺动脉高压(PAH)患者体内内ostatin(ES)会升高,ES 是一种强效的血管收缩肽,来源于 XVIII 型胶原 alpha 1 链,由 COL18A1 编码。重要的是,ES 的升高一直与成人和儿童 PAH 的血液动力学改变、不良功能状态和不良预后有关。这项研究使用了 I 组 PAH 患者的血清样本和来自 Sugen/慢性缺氧(SuHx)大鼠肺动脉高压(PH)模型的血浆和组织样本,以确定 COL18A1/ES 与疾病发展(包括血液动力学、右心室重塑和右心室功能障碍)之间的关系。我们利用心脏磁共振(CMR)成像和先进的血流动力学评估技术,对 PAH 患者进行压力-容积(PV)环路评估,以评估 RV-肺动脉(PA)耦合,观察到循环 ES 水平与 RV 结构和功能指标之间存在密切关系。具体来说,RV 质量和心室质量指数(VMI)与 ES 呈正相关,而 RV 射血分数和 RV-PA 耦合与 ES 水平呈反相关。我们的动物实验数据表明,PH 的发生与心脏和肺中 COL18A1/ES 的增加有关。与左心室(LV)和肺相比,COL18A1 mRNA和蛋白质在RV中的疾病相关增加最为明显。COL18A1在RV中的表达与RV质量、纤维化和心肌毛细血管密度的疾病相关变化密切相关。这些研究结果表明,COL18A1/ES 在 RV 疾病发展的早期就会增加,并表明 COL18A1/ES 与 PAH 病理 RV 功能障碍有关。
Collagen 18A1/Endostatin Expression in the Progression of Right Ventricular Remodeling and Dysfunction in Pulmonary Arterial Hypertension.
Numerous studies have demonstrated that endostatin (ES), a potent angiostatic peptide derived from collagen type XVIII α 1 chain and encoded by COL18A1, is elevated in pulmonary arterial hypertension (PAH). It is important to note that elevated ES has consistently been associated with altered hemodynamics, poor functional status, and adverse outcomes in adult and pediatric PAH. This study used serum samples from patients with Group I PAH and plasma and tissue samples derived from the Sugen/hypoxia rat pulmonary hypertension model to define associations between COL18A1/ES and disease development, including hemodynamics, right ventricle (RV) remodeling, and RV dysfunction. Using cardiac magnetic resonance imaging and advanced hemodynamic assessments with pressure-volume loops in patients with PAH to assess RV-pulmonary arterial coupling, we observed a strong relationship between circulating ES levels and metrics of RV structure and function. Specifically, RV mass and the ventricular mass index were positively associated with ES, whereas RV ejection fraction and RV-pulmonary arterial coupling were inversely associated with ES levels. Our animal data demonstrate that the development of pulmonary hypertension is associated with increased COL18A1/ES in the heart as well as the lungs. Disease-associated increases in COL18A1 mRNA and protein were most pronounced in the RV compared with the left ventricle and lung. COL18A1 expression in the RV was strongly associated with disease-associated changes in RV mass, fibrosis, and myocardial capillary density. These findings indicate that COL18A1/ES increases early in disease development in the RV and implicates COL18A1/ES in pathologic RV dysfunction in PAH.
期刊介绍:
The American Journal of Respiratory Cell and Molecular Biology publishes papers that report significant and original observations in the area of pulmonary biology. The focus of the Journal includes, but is not limited to, cellular, biochemical, molecular, developmental, genetic, and immunologic studies of lung cells and molecules.