Abstract-Vascular remodeling, rather than vasoconstriction, is believed to account for high vascular resistance in severe pulmonary arterial hypertension (PAH). We have found previously that acute Rho kinase inhibition nearly normalizes PAH in chronically hypoxic rats that have no occlusive neointimal lesions. Here we examined whether Rho kinase-mediated vasoconstriction was also important in a rat model of severe occlusive PAH. Adult rats were exposed to chronic hypoxia (Ϸ10% O 2 ) after subcutaneous injection of the vascular endothelial growth factor receptor inhibitor SUGEN 5416. Hemodynamic measurements were made in anesthetized rats after 2 weeks of hypoxia (early group) and 3 weeks of hypoxia plus 2 weeks of normoxia (late group). Both groups developed PAH, with greater severity in the late group. In the early group, intravenous fasudil was more effective than intravenous bradykinin, inhaled NO, or intravenous iloprost in reducing right ventricular systolic pressure. Despite more occlusive vascular lesions, fasudil also markedly reduced right ventricular systolic pressure in late-stage rats. Blood-perfused lungs from late-stage rats showed spontaneous vasoconstriction, which was reversed partially by the endothelin A receptor blocker BQ123 and completely by fasudil or Y-27632. Phosphorylation of MYPT1, a downstream target of Rho kinase, was increased in lungs from both groups of rats, and fasudil (intravenous) reversed the increased phosphorylation in the late group. Thus, in addition to structural occlusion, Rho kinase-mediated vasoconstriction is an important component of severe PAH in SUGEN 5416/hypoxia-exposed rats, and PAH can be significantly reduced in the setting of a severely remodeled lung circulation if an unconventional vasodilator is used. S evere pulmonary arterial hypertension (PAH) in adult patients is characterized by progressive narrowing/occlusion of small pulmonary arteries, which frequently leads to right heart failure and death. 1,2 Factors thought to contribute to the formation of pulmonary vascular lesions include sustained vasoconstriction, vascular remodeling, and in situ thrombosis. However, it is now widely believed that fixed obstruction resulting from vascular remodeling is the major cause of the elevated vascular resistance in severe, progressive PAH. 3,4 Large clinical studies show that only Ϸ13% of adult PAH patients have a significant decrease in pulmonary artery pressure during acute vasodilator testing at the time of diagnosis, 5 suggesting a major fixed structural but minor reversible vasoconstrictor component in this group of pulmonary vascular diseases.Reeves et al proposed in 1986 that over time in PAH, the hypertensive component attributable to vasoconstriction decreases, whereas that attributable to fixed obstruction increases. 6 This concept cannot be tested clinically, because it is essentially impossible to obtain serial hemodynamic data and matched lung tissue samples for thorough assessment of the lung vascular morphology. At best, a single lung specimen becom...
