ABSTRACT
This study aimed to determine the benefits and correlated mechanisms of pulmonary artery denervation (PADN) for heart failure (HF) pulmonary hypertension (PH). PH secondary to HF is associated with poor clinical outcomes because there is no proper therapy for it. PADN showed improved outcomes for patients with HF-PH. However, the underlying mechanisms remain unknown. Supracoronary aortic banding (SAB) was used to create HF-PH models. Sprague-Dawley rats were randomly assigned to control, SAB, sham, SAB with PADN, and SAB without PADN groups. Surgical (longitudinally damaging vessel nerves) and chemical (10% phenol applied to the surface of nerves) PADN was performed for animals in the SAB with PADN group. Morphological, echocardiographic, hemodynamic, and protein expression changes were measured four weeks thereafter. Adrenergic receptor (AR) expressions of pulmonary arteries from four HF-PH patients and four patients without PH were measured. Ten HF-PH patients who underwent PADN were followed-up for six months. SAB-induced HF-PH was achieved by 50% of animals. Surgical and chemical PADN was associated with significant improvements in pulmonary artery muscularization, hemodynamics, and right ventricular functions. In pulmonary arterial specimens from HF-PH patients, ß2-AR and α1A/B-AR, as well as eNOS, were downregulated and α1D-AR was upregulated compared to those from patients without PH. PADN led to a mean increase of 84 m during the 6-min walk distance for HF-PH patients at six-month follow-up. HF-PH was characterized by downregulated ß2-AR, α1A-AR, and α1B-AR and by upregulated α1D-AR. PADN is associated with significant improvements in hemodynamics and pulmonary artery remodeling.
ABSTRACT
Objective To investigate the role of RhoA /Rho-kinase pathway in rat models of left heart disease-as-sociated pulmonary hypertension ( PH-LHD) .Methods Twenty male SD rats (3-4 week-old, 90-100 g) were randomly divided into two groups (10 rats in each group):the group C ( control group) with sham operation, and group H ( pulmo-nary arterial hypertension) .The rat model of left heart disease-associated pulmonary hypertension was established by supra-coronary aortic banding in the group H, and the sham surgery was applied for the rats in the group C ( The titanium clip was fixed at the mediastinal tissue adjacent to the artery rather than the ascending aorta).On day 60 after the operation, the cardiac functions, including right ventricular systolic pressure and pulmonary artery pressure were evaluated.After that, all rats were sacrificed and treated with cardiopulmonary lavage in vivo until the lung became white.Then the left lung tissues were fixed in 4%paraformaldehyde for pathological observation while the right lung tissues were frozen for mRNA detec-tion.Results Compared with the group C, both ventricular systolic pressure and pulmonary artery pressure in the group H were increased significantly (P<0.01).Pathological data demonstrated that the pulmonary artery walls in H group were much thicker than that in the group C.Moreover, vascular wall hypertrophy index in the group H was increased greatly compared with that in the group C (P<0.01).QPCR data showed that mRNA levels of Rho kinase, RhoA and ET-A R in the group H were up-regulated compared with the group C ( P<0.01) .Conclusions Rat model of left heart disease-asso-ciated pulmonary arterial hypertension can be successfully established by supracoronary aortic banding.Rho-kinase-media-ted pathway may contribute to the pathogenesis and progress of left heart disease-associated pulmonary arterial hypertension.
