医学
下调和上调
PEDF公司
平滑肌
内科学
肺动脉
心肌细胞
内分泌学
心脏病学
细胞生物学
血管生成
生物化学
基因
化学
生物
作者
Chiaki Goten,Soichiro Usui,Oto Inoue,S Takashima,Kenji Sakata,Masashi Takamura
标识
DOI:10.1093/eurheartj/ehae666.2161
摘要
Abstract Background Pulmonary arterial hypertension (PAH) is a disease with poor prognosis that causes right heart failure due to progressive pulmonary artery remodeling. Although existing pulmonary vasodilators contribute to pulmonary artery reverse remodeling by reducing share stress, the development of therapeutic agents that directly target pulmonary vascular remodeling is desired. Nerve growth factor receptor (Ngfr) is involved in the inflammatory reaction and repair process of damaged tissues. We have previously reported that Ngfr-positive cells are increased in the peripheral blood (PB) of PAH patients and are associated with disease progression. We also found that Ngfr inhibited the pathogenetic progression of pulmonary hypertension in a model of hypoxia-induced pulmonary hypertension. However, it remains unclear how Ngfr positive cells are involved in the pathology of PAH. Purpose In this study, we investigate how Ngfr-positive cells affect the pathogenesis of PAH. Methods & Results To evaluate the localization of Ngfr-positive cells in lung tissue, WT mice (C57BL/6) transplanted with bone marrow (BM) of GFP-Tg mice were kept under hypoxia for 3 weeks to create hypoxia-induced pulmonary hypertension (PH) model. Immunostaining of lung tissue sections indicated that double positive cells (Ngfr+GFP+) were present in the interstitial tissue around the small pulmonary artery. To examine the cellular characteristics of Ngfr-positive cells, RNA sequencing of Ngfr-positive and Ngfr-negative cells in PB was performed. Significantly 78 genes were upregulated in Ngfr-positive cells, including 11 secreted proteins. Among these, we focused on pigment epithelium-derived factor (PEDF), a secreted protein involved in angiogenesis. PEDF mRNA expression was decreased in the lung of Ngfr-KO mice compared to WT mice. We next examined the effect of PEDF on pulmonary artery smooth muscle cells (PASMCs). Platelet-derived growth factor (PDGF)-induced cell proliferation of PASMC was inhibited by PEDF stimulation. Furthermore, PEDF stimulation significantly inhibited PDGF-induced mRNA expressions of TNF and MMP9 in PASMCs. Conclusion In this study, we show that PEDF expression is upregulated in Ngfr-positive cells and that PEDF inhibits PDGF-induced hPASMC proliferation, suggesting that NGFR-positive cells may suppress pulmonary vascular remodeling through PEDF-mediated paracrine effects. PEDF might be a new therapeutic target for PH.
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