42 research outputs found

    ICAM-1 PROMOTES THE ABNORMAL ENDOTHELIAL CELLPHENOTYPE IN CHRONIC THROMBOEMBOLIC PULMONARYHYPERTENSION

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    International audienceBACKGROUND - Pulmonary endothelial cells play a key role in the pathogenesis of ChronicThromboembolic Pulmonary Hypertension (CTEPH). Increased synthesis and/or release ofIntercellular Adhesion Molecule 1 (ICAM-1) by pulmonary endothelial cells of patients withCTEPH has been recently reported, suggesting a potential role for ICAM-1 in CTEPH.METHODS - We studied pulmonary endarterectomy specimens from 172 patients with CTEPHand pulmonary artery specimens from 97 controls undergoing lobectomy for low-stage cancerwithout metastasis.RESULTS - ICAM-1 was overexpressed in vitro in isolated and cultured endothelial cells fromendarterectomy specimens. Endothelial cell (EC) growth and apoptosis resistance weresignificantly higher in CTEPH specimens than in controls (P<0.001). Both abnormalities wereabolished by pharmacological inhibition of ICAM-1 synthesis or activity. Overexpression ofICAM-1 contributed to the acquisition and maintenance of abnormal EC growth and apoptosisresistance via phosphorylation of SRC, p38 and ERK1/2 and overproduction of Survivin.Regarding the ICAM-1 E469K polymorphism, the KE heterozygote genotype was significantlymore frequent in CTEPH than in controls, but was not associated with disease severity amongpatients with CTEPH.CONCLUSIONS - ICAM-1 contributes to maintaining the abnormal endothelial cell phenotypein CTEPH

    Central Role of Dendritic Cells in Pulmonary Arterial Hypertension in Human and Mice.

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    The pathogenesis of idiopathic pulmonary arterial hypertension (IPAH) is not fully understood, but evidence is accumulating that immune dysfunction plays a significant role. We previously reported that 31-week-old Tnfaip3DNGR1-KO mice develop pulmonary hypertension (PH) symptoms. These mice harbor a targeted deletion of the TNFα-induced protein-3 (Tnfaip3) gene, encoding the NF-κB regulatory protein A20, specifically in type I conventional dendritic cells (cDC1s). Here, we studied the involvement of dendritic cells (DCs) in PH in more detail. We found various immune cells, including DCs, in the hearts of Tnfaip3DNGR1-KO mice, particularly in the right ventricle (RV). Secondly, in young Tnfaip3DNGR1-KO mice, innate immune activation through airway exposure to toll-like receptor ligands essentially did not result in elevated RV pressures, although we did observe significant RV hypertrophy. Thirdly, PH symptoms in Tnfaip3DNGR1-KO mice were not enhanced by concomitant mutation of bone morphogenetic protein receptor type 2 (Bmpr2), which is the most affected gene in PAH patients. Finally, in human IPAH lung tissue we found co-localization of DCs and CD8+ T cells, representing the main cell type activated by cDC1s. Taken together, these findings support a unique role of cDC1s in PAH pathogenesis, independent of general immune activation or a mutation in the Bmpr2 gene

    Central role of dendritic cells in pulmonary arterial hypertension in human and mice

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    The pathogenesis of idiopathic pulmonary arterial hypertension (IPAH) is not fully understood, but evidence is accumulating that immune dysfunction plays a significant role. We previously reported that 31-week-old Tnfaip3(DNGR1-KO) mice develop pulmonary hypertension (PH) symptoms. These mice harbor a targeted deletion of the TNF alpha-induced protein-3 (Tnfaip3) gene, encoding the NF-kappa B regulatory protein A20, specifically in type I conventional dendritic cells (cDC1s). Here, we studied the involvement of dendritic cells (DCs) in PH in more detail. We found various immune cells, including DCs, in the hearts of Tnfaip3(DNGR1-KO) mice, particularly in the right ventricle (RV). Secondly, in young Tnfaip3(DNGR1-KO) mice, innate immune activation through airway exposure to toll-like receptor ligands essentially did not result in elevated RV pressures, although we did observe significant RV hypertrophy. Thirdly, PH symptoms in Tnfaip3(DNGR1-KO) mice were not enhanced by concomitant mutation of bone morphogenetic protein receptor type 2 (Bmpr2), which is the most affected gene in PAH patients. Finally, in human IPAH lung tissue we found co-localization of DCs and CD8+ T cells, representing the main cell type activated by cDC1s. Taken together, these findings support a unique role of cDC1s in PAH pathogenesis, independent of general immune activation or a mutation in the Bmpr2 gene

    Iron Deficiency in Pulmonary Arterial Hypertension: A Deep Dive into the Mechanisms.

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    Pulmonary arterial hypertension (PAH) is a severe cardiovascular disease that is caused by the progressive occlusion of the distal pulmonary arteries, eventually leading to right heart failure and death. Almost 40% of patients with PAH are iron deficient. Although widely studied, the mechanisms linking between PAH and iron deficiency remain unclear. Here we review the mechanisms regulating iron homeostasis and the preclinical and clinical data available on iron deficiency in PAH. Then we discuss the potential implications of iron deficiency on the development and management of PAH
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