Fiedler, U. et al. Angiopoietin-2 sensitizes endothelial cells to TNF- and has a crucial role in the induction of inflammation. Nature Med. 12, 235-239
Humboldt-Universität zu Berlin, Berlín, Berlin, Germany Nature Medicine
(Impact Factor: 27.36).
03/2006; 12(2):235-9. DOI: 10.1038/nm1351
The angiopoietins Ang-1 and Ang-2 have been identified as ligands of the receptor tyrosine kinase Tie-2 (refs. 1,2). Paracrine Ang-1-mediated activation of Tie-2 acts as a regulator of vessel maturation and vascular quiescence. In turn, the antagonistic ligand Ang-2 acts by an autocrine mechanism and is stored in endothelial Weibel-Palade bodies from where it can be rapidly released upon stimulation. The rapid release of Ang-2 implies functions of the angiopoietin-Tie system beyond its established role during vascular morphogenesis as a regulator of rapid vascular responses. Here we show that mice deficient in Ang-2 (encoded by the gene Angpt2) cannot elicit an inflammatory response in thioglycollate-induced or Staphylococcus aureus-induced peritonitis, or in the dorsal skinfold chamber model. Recombinant Ang-2 restores the inflammation defect in Angpt2(-/-) mice. Intravital microscopy showed normal TNF-alpha-induced leukocyte rolling in the vasculature of Angpt2(-/-)mice, but rolling cells did not firmly adhere to activated endothelium. Cellular experiments showed that Ang-2 promotes adhesion by sensitizing endothelial cells toward TNF-alpha and modulating TNF-alpha-induced expression of endothelial cell adhesion molecules. Together, these findings identify Ang-2 as an autocrine regulator of endothelial cell inflammatory responses. Ang-2 thereby acts as a switch of vascular responsiveness exerting a permissive role for the activities of proinflammatory cytokines.
Figures in this publication
Available from: Pao-Hsien Chu
- "Angiopoietin (Ang)-1, Ang-2, and their endothelial cell-specific tyrosine kinase receptor, Tie-2, interact with vascular endothelial growth factor (VEGF) to mediate endothelial activation . Binding of the agonist Ang-1 to the Tie-2 receptor promotes vessel integrity, inhibits vascular permeability, and suppresses inflammatory response . "
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Patients with acute myocardial infarction (AMI) are frequently complicated with major cardiovascular events (MACEs). Endothelial dysfunction has been found to be involved in pathogenesis of AMI, but its role in development of MACEs after AMI is not clearly investigated. This study aimed to determine whether the plasma markers of endothelial dysfunction could serve as independent predictors for MACEs in patients with AMI.
This prospective study was conducted from March 2010 to July 2012 and enrolled consecutive 132 patients with acute ST elevation myocardial infarction (STEMI) receiving primary percutaneous coronary intervention (PCI). Plasma levels of thrombomodulin (TM), von Willebrand factor (vWF), angiopoietin (Ang)-1, Ang-2, Tie-2, and vascular endothelial growth factor (VEGF) were measured on day 1 of AMI. The development of MACEs at 1-year follow-up was recorded.
Patients with STEMI who developed MACEs had increased heart rate on admission (86±24 vs. 74±20bpm, p=0.006), lower left ventricular ejection fraction (LVEF) (49.0±12.4 vs. 57.2±12.4%, p=0.002), and higher incidence of multivessel disease (66.7% vs. 42.2%, p=0.018) comparing with those without MACEs. Plasma level of Ang-1 was lower in patients with MACEs than in those without (21,165±16,281 vs. 31,411±21,593pg/mL, p=0.018). In multivariate analysis, Ang-1 level<median value (OR 2.977, 95% CI 1.16-7.63, p=0.023), LVEF (OR 0.958, 95% CI 0.92-0.99, p=0.022) and multivessel disease (OR 3.013, 95% CI 1.19-7.60, p=0.019) independently predicted 1-year MACEs.
Decreased plasma Ang-1 levels on admission, LVEF and multivessel disease independently predicted the development of 1-year MACEs in patients with STEMI. These results suggest that endothelial dysfunction may play an important role in mediating MACEs in patients with STEMI.
Available from: Wei Zheng
- "To validate the results obtained with the ANG2-blocking antibody, we also analyzed the initial lymphatics in Ang2 gene-deleted (À/À) mice (Gale et al. 2002; Fiedler et al. 2006). In agreement with the results of the blocking antibody experiment, the zipper-to-button junctional transformation was also reduced in the diaphragm of Ang2 "
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ABSTRACT: Primitive lymphatic vessels are remodeled into functionally specialized initial and collecting lymphatics during development. Lymphatic endothelial cell (LEC) junctions in initial lymphatics transform from a zipper-like to a button-like pattern during collecting vessel development, but what regulates this process is largely unknown. Angiopoietin 2 (Ang2) deficiency leads to abnormal lymphatic vessels. Here we found that an ANG2-blocking antibody inhibited embryonic lymphangiogenesis, whereas endothelium-specific ANG2 overexpression induced lymphatic hyperplasia. ANG2 inhibition blocked VE-cadherin phosphorylation at tyrosine residue 685 and the concomitant formation of button-like junctions in initial lymphatics. The defective junctions were associated with impaired lymph uptake. In collecting lymphatics, adherens junctions were disrupted, and the vessels leaked upon ANG2 blockade or gene deletion. ANG2 inhibition also suppressed the onset of lymphatic valve formation and subsequent valve maturation. These data identify ANG2 as the first essential regulator of the functionally important interendothelial cell-cell junctions that form during lymphatic development.
Available from: PubMed Central
- "Ang-2 is an antagonist of Ang-1, which can interfere with tie-2 receptor activation and signaling, leading to decreased endothelial and pericyte cell survival but also to increased endothelial cell activation (8, 9). Recently, the anti-inflammatory activity of Ang-1 has been explained by decreasing the responsiveness of endothelial cell to TNFα (10). Furthermore, inflammatory cytokines such as TNF has been linked to pericyte apoptosis and inhibition of TNF reduced pericyte ghost formation with decreased acellular capillary formation caused by type 1 and type 2 diabetes (11). "
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ABSTRACT: Retinopathies in human and animal models have shown to occur through loss of pericytes resulting in edema formation, excessive immature retinal angiogenesis, and neuronal apoptosis eventually leading to blindness. In recent years, the concept of regenerating terminally differentiated organs with a cell-based therapy has evolved. The cells used in these approaches are diverse and include tissue-specific endogenous stem cells, endothelial progenitor (EPC), embryonic stem cells, induced pluripotent stem cells (iPSC) and mesenchymal stem cells (MSC). Recently, MSC derived from the stromal fraction of adipose tissue have been shown to possess pluripotent differentiation potential in vitro. These adipose stromal cells (ASC) have been differentiated in a number of laboratories to osteogenic, myogenic, vascular, and adipocytic cell phenotypes. In vivo, ASC have been shown to have functional and phenotypic overlap with pericytes lining microvessels in adipose tissues. Furthermore, these cells either in paracrine mode or physical proximity with endothelial cells, promoted angiogenesis, improved ischemia-reperfusion, protected from myocardial infarction, and were neuroprotective. Owing to the easy isolation procedure and abundant supply, fat-derived ASC are a more preferred source of autologous mesenchymal cells compared to bone marrow MSC. In this review, we present evidence that these readily available ASC from minimally invasive liposuction will facilitate translation of ASC research into patients with retinal diseases in the near future.
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