Mechanisms of angiogenesis and their use in the inhibition of tumor growth and metastasis.
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There is a constant requirement for vascular supply in solid tumors. Tumor-associated neovascularization allows the tumor cells to express their critical growth advantage. Axillary lymph node status is the most important prognostic factor in operable breast cancer, and experimental and clinical evidence suggests that the process of metastasis is also angiogenesis-dependent. Various angiogenic growth factors and cytokines induce neovascularization in tumors, namely members of the vascular endothelial growth factor (VEGF) and angiopoietin (Ang) gene families. A strong correlation has been found between VEGF expression and increased tumor microvasculature, malignancy, and metastasis in breast cancer. Anti-angiogenic therapy approaches offer a new promising anti-cancer strategy and a remarkably diverse group of over 20 such drugs is currently undergoing evaluation in clinical trials. (+info)
The cytoplasmic domain of the ligand ephrinB2 is required for vascular morphogenesis but not cranial neural crest migration.
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The transmembrane ligand ephrinB2 and its cognate Eph receptor tyrosine kinases are important regulators of vascular morphogenesis. EphrinB2 may have an active signaling role, resulting in bi-directional signal transduction downstream of both ephrinB2 and Eph receptors. To separate the ligand and receptor-like functions of ephrinB2 in mice, we replaced the endogenous gene by cDNAs encoding either carboxyterminally truncated (ephrinB2(DeltaC)) or, as a control, full-length ligand (ephrinB2(WT)). While homozygous ephrinB2(WT/WT) animals were viable and fertile, loss of the ephrinB2 cytoplasmic domain resulted in midgestation lethality similar to ephrinB2 null mutants (ephrinB2(KO)). The truncated ligand was sufficient to restore guidance of migrating cranial neural crest cells, but ephrinB2(DeltaC/DeltaC) embryos showed defects in vasculogenesis and angiogenesis very similar to those observed in ephrinB2(KO/KO) animals. Our results indicate distinct requirements of functions mediated by the ephrinB carboxyterminus for developmental processes in the vertebrate embryo. (+info)
Biological action of angiopoietin-2 in a fibrin matrix model of angiogenesis is associated with activation of Tie2.
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The endothelial cell (EC) specific tyrosine kinase receptor, Tie2, interacts with at least two ligands, angiopoietin-1 (Ang1) and angiopoietin-2 (Ang2). Ang1 stimulates Tie2 receptor autophosphorylation, while Ang2 has been reported to inhibit Ang1-induced Tie2 receptor autophosphorylation. We studied the effects of Ang1 and Ang2 in an in vitro model of angiogenesis. Human ECs (HUVEC), cultured on 3-D fibrin matrices, were treated with conditioned media (CM) from stably transfected cells expressing human Ang1 or Ang2, or with purified recombinant proteins. EC tube formation was measured as a differentiation index (DI), calculated as the ratio of total tube length over residual of EC monolayer. CM from Ang1 overexpressing A10 SMC or HEK293T cells induced profound HUVEC differentiation, resulting in the formation of extensive capillary-like tubes within 48 h (DI: 24.58+/-5.91 and 19.13+/-7.86, respectively) vs. control (DI: 2.73+/-1.68 and 2.15+/-1.45, respectively, both P<0.001). Interestingly, CM from two independent cell lines overexpressing Ang2 also produced a significant increase in EC differentiation (DI: 9.22+/-3.00 and 9.72+/-4.84, both P<0.005 vs. control) although the degree of angiogenesis was significantly less then that seen with Ang1. Addition of Ang1* (a genetically engineered variant of naturally occurring Ang1) or Ang2 also resulted in dose dependent increases in DI, which were blocked by an excess of soluble Tie2 receptor (20 microg/ml). Both Ang1* and Ang2 induced modest increases in [3H]thymidine incorporation into HUVECs (20 and 26%, respectively), which were inhibited by excess soluble Tie2. Although Ang2 was unable to induce significant Tie2 receptor phosphorylation during a 5-min exposure, a 24-h pretreatment with Ang2, followed by brief re-exposure, produced Tie2 phosphorylation in HUVEC comparable to that produced by Ang1*. These results demonstrate for the first time that Ang2 may have a direct role in stimulating Tie2 receptor signaling and inducing in vitro angiogenesis. Our findings suggest that the physiological role of Ang2 is more complex than previously recognized: acting alternately to promote or blunt Tie2 receptor signaling in endothelial cells, depending on local conditions. (+info)
A combinatorial role of angiopoietin-1 and orphan receptor TIE1 pathways in establishing vascular polarity during angiogenesis.
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Vascular polarity is a fundamental feature of angiogenesis and left-right asymmetry of the vascular network. Contrary to this importance, the molecular basis of vascular polarity is completely unknown. In this report, we show that the combinatorial function of angiopoietin-1 and the orphan receptor TIE1 is critical specifically for the development of the right-hand side venous system but is dispensable for the left-hand side venous system. Furthermore, our current finding reveals the existence of a distinct genetic program for the establishment of the right-hand side and left-hand side vascular networks well before the network asymmetry becomes morphologically discernible. (+info)
The angiopoietin-tie2 system in coronary artery endothelium prevents oxidized low-density lipoprotein-induced apoptosis.
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OBJECTIVES: A healthy, intact coronary artery endothelium is important because most common coronary artery diseases result from loss of endothelial integrity. In this study, we explored the biological significance of the angiopoietin-Tie2 system in porcine coronary artery. METHODS: Cultured porcine coronary artery endothelial cells and explanted coronary arteries were used. RESULTS: Immunohistochemical analyses indicated that Ang1 is selectively expressed in vascular muscular cells, whereas angiopoietin-2 (Ang2) and Tie2 are selectively expressed in endothelial cells. Accordingly, Ang1 mRNA is mainly expressed in cultured porcine coronary artery vascular smooth muscle cells, whereas Ang2 and Tie2 mRNAs are mainly expressed in cultured porcine coronary artery endothelial cells (PCAECs). Ang1 (200 ng/ml) induced Tie2 phosphorylation, while Ang2 (200 ng/ml) did not produce Tie2 phosphorylation. Ang1 increased the survival of cultured PCAECs during apoptosis induced by oxidized low-density lipoprotein (OxLDL). This survival effect was does-dependent and PI. Furthermore, Ang1 also protected endothelial cells of explanted coronary artery against OxLDL-induced apoptosis artery. CONCLUSION: These results suggest that adult coronary artery contains Ang1-Tie2 components that enhance endothelial cell survival to help maintain the normal integrity of the coronary artery endothelium. (+info)
The effects of angiopoietin-1 and -2 on tumor growth and angiogenesis in human colon cancer.
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Angiopoietin (Ang) 1 and Ang-2 are important regulators of endothelial cell survival. Current models suggest that an increase in Ang-2 expression in endothelial cells leads to initiation of angiogenesis. We stably transfected HT29 colon cancer cells with cDNA constructs for Ang-1 or -2 or with vector alone, injected the cells s.c. into nude mice, and assessed tumor growth. Immunohistochemical analyses confirmed sustained increases of Ang-1 and -2 in the tumors. The tumors produced by the Ang-2-transfected cells were larger than the tumors produced in the other groups; those tumors also had higher vessel counts and proliferative indices than tumors in the other groups. Tumors produced by the Ang-1 transfectants had fewer vessels and lower tumor cell proliferative indices than tumors in the other groups. These data suggest that imbalances between Ang-1 and -2 that result in a net gain of Ang-2 activity lead to enhanced tumor angiogenesis and growth. (+info)
Angiotensin II induces expression of the Tie2 receptor ligand, angiopoietin-2, in bovine retinal endothelial cells.
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Recent studies have shown that angiopoietins (Angs) and their receptor, Tie2, play a role in vascular integrity and neovascularization. The renin-angiotensin system has been hypothesized to contribute to the development of diabetic retinopathy. In this study, we investigated the effect of angiotensin II (AII) on Ang1 and Ang2 expression in cultured bovine retinal endothelial cells (BRECs). AII stimulated Ang2 but not Ang1 mRNA expression in a dose- and time-dependent manner. This response was inhibited completely by angiotensin type 1 receptor (AT1) antagonist. AII increased the transcription of Ang2 mRNA, but did not change the half-life. Protein kinase C (PKC) inhibitor completely inhibited AII-induced Ang2 expression, and the mitogen-activated protein kinase (MAPK) inhibitor also inhibited it by 69.4+/-15.6%. In addition, we confirmed the upregulation of Ang2 in an AII-induced in vivo rat corneal neovascularization model. These data suggest that AII stimulates Ang2 expression through AT1 receptor-mediated PKC and MAPK pathways in BREC, and AII may play a novel role in retinal neovascularization. (+info)
Expression of angiopoietin-1 in human glioblastomas regulates tumor-induced angiogenesis: in vivo and in vitro studies.
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To define a role for the angiopoietin/Tie2 system in astrocytoma angiogenesis, we examined the expression of angiopoietin-1 (Ang1) and angiopoietin-2 (Ang2) in these tumors by immunohistochemistry and in situ hybridization. Furthermore, we studied in vitro the effects elicited by glioblastoma cell-secreted Ang1 or by recombinant Ang1 on functions of endothelial cells (ECs). Our observations of astrocytomas show that a stage-specific induction of angiopoietins occurs and is correlated with angiogenic phases of different intensity. Ang1 expression was found in a few astrocytes scattered in the tumor at all stages of astrocytoma progression. In blood vessels, Ang1 mRNA increased progressively in high-grade glioblastomas, in which the number of vessels was higher than in low-grade tumors. Ang2 was detected in tumor cells and in ECs in high-grade astrocytomas, whereas its expression was negligible in low-grade tumors. Coculture of glioblastoma cell lines producing Ang1 with endothelium demonstrated a key role of this ligand in the control of EC network organization. We found that recombinant Ang1 in vitro induces EC spreading and reorganization of the cell monolayer into cordlike structures. These results suggest that Ang1 directly acts on ECs by modulating cell-cell and cell-matrix associations and promoting the differentiation phase of angiogenesis. (+info)