Hypoxia-induced pulmonary hypertension in calf right ventricle

Right ventricular (RV) failure is the major determinant of outcome in pulmonary hypertension (PH). Calves exposed to 2-wks environmental hypoxia develop severe PH and unlike rodents, chronic hypoxia-induced PH in this species can lead to right heart failure. We therefore sought to examine the molecular and structural changes in the RV in calves with hypoxia-induced PH, hypothesizing that we could identify mechanisms underlying compensated physiological function in the face of developing severe PH. Calves were exposed to 14d of hypobaric hypoxia (PB=430 mm Hg, equivalent to 4570m elevation, n=29) or ambient normoxia (1525m, n=25). Cardiopulmonary function was evaluated by right heart catheterization and pressure volume loops. Molecular and cellular determinants of RV remodeling were analyzed by cDNA microarrays, RealTime PCR, proteomics and immunochemistry. Hypoxic exposure induced robust PH, with increased RV contractile performance and preserved cardiac output, yet evidence of dysregulated RV-pulmonary artery mechanical coupling consistent with advanced PH. Analysis of gene expression revealed cellular processes associated with structural remodeling, cell signaling, and survival. We further identified specific clusters of gene expression associated with (i) hypertrophic gene expression and pro-survival mechanotransduction through YAP-TAZ signaling, (ii) ECM remodeling, (iii) inflammatory cell activation and (iv) angiogenesis. A potential transcriptomic signature of cardiac fibroblasts in RV remodeling was detected. Proteomic and immunohistochemical analysis confirmed RV myocyte hypertrophy, together with localization of ECM remodeling, inflammatory cell activation, and endothelial cell proliferation within the RV interstitium. In conclusion, hypoxia and hemodynamic load initiate coordinated processes of protective and compensatory RV remodeling to withstand the progression of PH. Age-matched male Holstein dairy calves were exposed to 14d hypobaric hypoxia (PH, 4570m equivalent, n=5) compared to ambient normoxic controls (CO, 1525m, n=5). RV tissue was collected and analyzed by Affymetrix Bovine GeneChip cDNA oligonucleotide microarrays