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Abstract
Idiopathic pulmonary arterial hypertension (IPAH) is a complex disease associated with vascular remodeling and a proliferative disorder in pulmonary artery smooth muscle cells (PASMCs) that has been variably described as having neoplastic features. To decode the phenotype of PASMCs in IPAH, PASMCs from explanted lungs of patients with IPAH (IPAH-PASMCs) and from controls (C-PASMCs) were cultured. The IPAH-PASMCs grew faster than the controls; however, both growth curves plateaued, suggesting contact inhibition in IPAH cells. No proliferation was seen without stimulation with exogenous growth factors, suggesting that IPAH cells are incapable of self-sufficient growth. IPAH-PASMCs were more resistant to apoptosis than C-PASMCs, consistent with the increase in the Bcl2/Bax ratio. As cell replication is governed by telomere length, these parameters were assessed jointly. Compared to C-PASMCs, IPAH-PASMCs had longer telomeres, but a limited replicative capacity. Additionally, it was noted that IPAH-PASMCs had a shift in energy production from mitochondrial oxidative phosphorylation to aerobic glycolysis. As DNA damage and genomic instability are strongly implicated in IPAH development a comparative genomic hybridization was performed on genomic DNA from PASMCs which showed multiple break-points unaffected by IPAH severity. Activation of DNA damage/repair factors (γH2AX, p53, and GADD45) in response to cisplatin was measured. All proteins showed lower phosphorylation in IPAH samples than in controls, suggesting that the cells were resistant to DNA damage. Despite the cancer-like processes that are associated with end-stage IPAH-PASMCs, we identified no evidence of self-sufficient proliferation in these cells—the defining feature of neoplasia.
Highlights
Idiopathic pulmonary arterial hypertension (IPAH), a vascular disorder associated with pulmonary circulation, is characterized by pulmonary arterial obstruction, which is mostly caused by the dominant proliferation of parietal pulmonary artery smooth muscle cells (PASMCs), as well as by variability in pulmonary vasoconstriction to a lesser extent; this leads to increased pulmonary vascular resistance, right-heart failure, and can prove fatal [1,2]
The proliferation status of PASMCs was first measured in situ by proliferating cell nuclear antigen (PCNA)-immunodetection in lung tissues from control and IPAH patients (Figure 1A)
The number of PASMC nuclei positive for PCNA was higher in the distal pulmonary arteries of patients with IPAH than in controls (p < 0.01)
Summary
Idiopathic pulmonary arterial hypertension (IPAH), a vascular disorder associated with pulmonary circulation, is characterized by pulmonary arterial obstruction, which is mostly caused by the dominant proliferation of parietal pulmonary artery smooth muscle cells (PASMCs), as well as by variability in pulmonary vasoconstriction to a lesser extent; this leads to increased pulmonary vascular resistance, right-heart failure, and can prove fatal [1,2].In the past decade, several major advances have led to substantial improvements in the management of IPAH. The pathogenesis and pathobiology of IPAH is complex and there is individual heterogeneity in both the clinical trajectories of patients and the inter-relationships between endothelial cell dysfunction, smooth muscle cell growth, apoptosis resistance, and a chronic inflammatory micro-environment in their distal pulmonary arteries [4,5], the most striking cellular processes underlying the observed vascular remodeling observed in this condition are related to excessive PASMC growth and apoptosis resistance In this setting, many disease-predisposing and function-modifying characteristics of PASMCs have been identified, including oxidative stress, inflammation, and cross-talk with pulmonary endothelial cells [4,6]. It is important to identify the nature of IPAH-PASMC: cancerous or non-cancerous, to avoid wrong therapeutic strategy development and potential severe side effects of anti-cancer drugs in frail PAH patients
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