Division of Cardiovascular Medicine, Department of Internal Medicine, University of Iowa Carver College of Medicine, Iowa City, IA 52242, USA.
Hypertension. 2012 Feb;59(2):355-62. doi: 10.1161/HYPERTENSIONAHA.111.180968. Epub 2011 Dec 27.
Right ventricular (RV) failure (RVF) is the main cause of death in patients with pulmonary artery hypertension (PAH). Sildenafil, a phosphodiesterase type 5 inhibitor, was approved recently for treatment of PAH patients. However, the mechanisms underlying RV contractile malfunction and the benefits of sildenafil on RV function are not well understood. We aimed to investigate the following: (1) the ultrastructural and excitation-contraction coupling alterations underlying PAH-induced RVF; (2) whether the ultrastructural changes are reversible; and (3) the mechanisms underlying the therapeutic benefits of sildenafil in PAH-RVF. We used a single injection of monocrotaline in Wistar rats to induce pulmonary vascular proliferation, which led to PAH and RVF. RV myocytes displayed severe transverse (T)-tubule loss and disorganization, as well as blunted and dys-synchronous sarcoplasmic reticulum Ca(2+) release. Sildenafil prevented and reversed the monocrotaline-induced PAH and LV filling impairment. Early intervention with sildenafil prevented RV hypertrophy and the development of RVF, T-tubule remodeling, and Ca(2+) handling dysfunction. Although late treatment with sildenafil did not reverse RV hypertrophy in animals with established RVF, RV systolic function was improved. Furthermore, late intervention partially reversed both the impairment of myocyte T-tubule integrity and Ca(2+) handling protein and sarcoplasmic reticulum Ca(2+) release function in monocrotaline-treated rats. In conclusion, PAH-induced increase in RV afterload causes severe T-tubule remodeling and Ca(2+) handling dysfunction in RV myocytes, leading to RV contractile failure. Sildenafil prevents and partially reverses ultrastructural, molecular, and functional remodeling of failing RV myocytes. Reversal of pathological T-tubule remodeling, although incomplete, is achievable without the regression of RV hypertrophy.
右心室(RV)衰竭(RVF)是肺动脉高压(PAH)患者死亡的主要原因。磷酸二酯酶 5 抑制剂西地那非最近被批准用于治疗 PAH 患者。然而,RV 收缩功能障碍的机制以及西地那非对 RV 功能的益处尚不清楚。我们旨在研究以下内容:(1)PAH 引起的 RVF 的超微结构和兴奋-收缩偶联改变;(2)超微结构变化是否可逆;(3)西地那非在 PAH-RVF 中的治疗益处的机制。我们使用单次注射野百合碱在 Wistar 大鼠中诱导肺血管增殖,导致 PAH 和 RVF。RV 心肌细胞显示严重的横(T)-小管丢失和组织紊乱,以及减弱和不同步的肌浆网 Ca(2+)释放。西地那非预防和逆转野百合碱引起的 PAH 和 LV 充盈障碍。早期干预西地那非可预防 RV 肥大和 RVF、T 小管重塑以及 Ca(2+)处理功能障碍的发展。尽管晚期治疗西地那非不能逆转已发生 RVF 的动物的 RV 肥大,但 RV 收缩功能得到改善。此外,晚期干预部分逆转了野百合碱处理大鼠的心肌细胞 T 小管完整性和 Ca(2+)处理蛋白以及肌浆网 Ca(2+)释放功能的损害。总之,PAH 引起的 RV 后负荷增加导致 RV 心肌细胞严重的 T 小管重塑和 Ca(2+)处理功能障碍,导致 RV 收缩功能衰竭。西地那非可预防和部分逆转衰竭的 RV 心肌细胞的超微结构、分子和功能重塑。尽管不完全,但病理性 T 小管重塑的逆转是可行的,而 RV 肥大没有消退。