Endothelial cell integrins and COX-2: mediators and therapeutic targets of tumor angiogenesis

2004 ◽  
Vol 1654 (1) ◽  
pp. 51-67 ◽  
Author(s):  
Curzio Rüegg ◽  
Olivier Dormond ◽  
Agnese Mariotti
Keyword(s):  
Endothelial Cell ◽  
Tumor Angiogenesis ◽  
Therapeutic Targets ◽  
Cox 2

Regulation of endothelial cell integrin function and angiogenesis by COX-2, cAMP and Protein Kinase A

2003 ◽  
Vol 90 (10) ◽  
pp. 577-585 ◽  
Author(s):  
Olivier Dormond ◽  
Curzio Rüegg
Keyword(s):  
Endothelial Cells ◽  
Cell Migration ◽  
Endothelial Cell ◽  
Protein Kinase ◽  
Protein Kinase A ◽  
Tumor Angiogenesis ◽  
Endothelial Cell Migration ◽  
Cox 2 ◽  
Cox 2 Inhibitors ◽  
Kinase A

SummaryAngiogenesis, the development of new blood vessels from preexisting vessels, is a key step in tumor growth, invasion and metastasis formation. Inhibition of tumor angiogenesis is considered as an attractive approach to suppress cancer progression and spreading. Adhesion receptors of the integrin family promote tumor angiogenesis by mediating cell migration, proliferation and survival of angiogenic endothelial cells. Integrins up regulated and highly expressed on neovascular endothelial cells, such as αVβ3 and α5β1, have been considered as relevant targets for anti-angiogenic therapies. Small molecular integrin antagonists or blocking antibodies suppress angiogenesis and tumor progression in many animal models, and some of them are currently being tested in cancer clinical trials as anti-angiogenic agents. COX-2 inhibitors exert anti-cancer effects, at least in part, by inhibiting tumor angiogenesis. We have recently shown that COX-2 inhibitors suppress endothelial cell migration and angiogenesis by preventing αVβ3-mediated and cAMP/PKA-dependent activation of the small GTPases Rac and Cdc42. Here we will review the evidence for the involvement of vascular integrins in mediating angiogenesis and the role of COX-2 metabolites in modulating the cAMP/Protein Kinase A pathway and αVβ3-dependent Rac activation in endothelial cells.The pulication was partially financed by Serono Foundation for the Advancement of Medical Sience.Part of this paper was originally presented at the 2nd International Workshop on New Therapeutic Targets in Vascular Biology from February 6–9, 2003 in Geneva, Switzerland.

Intracisternal administration of transforming growth factor-β evokes fever through the induction of cyclooxygenase-2 in brain endothelial cells

2008 ◽  
Vol 294 (1) ◽  
pp. R266-R275 ◽  
Author(s):  
Shigenobu Matsumura ◽  
Tetsuro Shibakusa ◽  
Teppei Fujikawa ◽  
Hiroyuki Yamada ◽  
Kiyoshi Matsumura ◽  
...  
Keyword(s):  
Endothelial Cells ◽  
Endothelial Cell ◽  
Growth Factor ◽  
Proinflammatory Cytokines ◽  
Transforming Growth Factor ◽  
Transforming Growth Factor Β ◽  
Cyclooxygenase 2 ◽  
Dependent Manner ◽  
Cox 2 ◽  
Β Receptor

Transforming growth factor-β (TGF-β), a pleiotropic cytokine, regulates cell proliferation, differentiation, and apoptosis, and plays a key role in development and tissue homeostasis. TGF-β functions as an anti-inflammatory cytokine because it suppresses microglia and B-lymphocyte functions, as well as the production of proinflammatory cytokines. However, we previously demonstrated that the intracisternal administration of TGF-β induces fever like that produced by proinflammatory cytokines. In this study, we investigated the mechanism of TGF-β-induced fever. The intracisternal administration of TGF-β increased body temperature in a dose-dependent manner. Pretreatment with cyclooxygenase-2 (COX-2)-selective inhibitor significantly suppressed TGF-β-induced fever. COX-2 is known as one of the rate-limiting enzymes of the PGE2 synthesis pathway, suggesting that fever induced by TGF-β is COX-2 and PGE2 dependent. TGF-β increased PGE2 levels in cerebrospinal fluid and increased the expression of COX-2 in the brain. Double immunostaining of COX-2 and von Willebrand factor (vWF, an endothelial cell marker) revealed that COX-2-expressing cells were mainly endothelial cells. Although not all COX-2-immunoreactive cells express TGF-β receptor, some COX-2-immunoreactive cells express activin receptor-like kinase-1 (ALK-1, an endothelial cell-specific TGF-β receptor), suggesting that TGF-β directly or indirectly acts on endothelial cells to induce COX-2 expression. These findings suggest a novel function of TGF-β as a proinflammatory cytokine in the central nervous system.

scholarly journals EP2, a receptor for PGE2, regulates tumor angiogenesis through direct effects on endothelial cell motility and survival

Oncogene ◽  
2006 ◽  
Vol 25 (53) ◽  
pp. 7019-7028 ◽  
Author(s):  
M Kamiyama ◽  
A Pozzi ◽  
L Yang ◽  
L M DeBusk ◽  
R M Breyer ◽  
...  
Keyword(s):  
Endothelial Cell ◽  
Cell Motility ◽  
Tumor Angiogenesis ◽  
Direct Effects

The process of endothelial cell migration during tumor angiogenesis

2013 ◽  
Vol 58 (33) ◽  
pp. 3381-3389
Author(s):  
YuLin LI ◽  
LiSha LI ◽  
Xiao SONG ◽  
Man LU ◽  
MeiYu SUN
Keyword(s):  
Cell Migration ◽  
Endothelial Cell ◽  
Tumor Angiogenesis ◽  
Endothelial Cell Migration

A phase II pilot trial of low dose, continuous infusion, or “metronomic”, paclitaxel and oral celecoxib in patients with metastatic melanoma

2006 ◽  
Vol 24 (18_suppl) ◽  
pp. 8010-8010
Author(s):  
D. F. McDermott ◽  
D. C. Cho ◽  
J. R. Merchan ◽  
R. S. Bhatt ◽  
V. Seery ◽  
...  
Keyword(s):  
Continuous Infusion ◽  
Metastatic Melanoma ◽  
Disease Progression ◽  
Tumor Angiogenesis ◽  
Low Dose ◽  
Tumor Response ◽  
Systemic Disease ◽  
Cox 2 ◽  
Grade 3 ◽  
Cox 2 Inhibitors

8010 Background: In patients (pts) with metastatic melanoma (MM), tumor angiogenesis has been associated with tumor progression and survival (Ugurel et al, JCO 19:577). Microtubule and cyclooxygenase (COX)-2 inhibitors, both alone and in combination, have been shown to have inhibitory effects on endothelial cells and tumor angiogenesis both in vitro and in vivo (Merchan et al, Int J Ca 113:490. Jones et al, Nat Med 5:1418). We tested the safety and efficacy of a regimen involving low dose, continuous infusion (CIV) paclitaxel and oral celecoxib in pts with MM. Methods: Pts received paclitaxel 10mg/m2 for 96 hours weekly by CIV and Celecoxib 400 mg po/bid. Systemic tumor response was assessed at 6 wk intervals (1 cycle (C)). Pts without unacceptable toxicity or clinically significant disease progression (PD) received additional cycles. Pts exhibiting PD after C 2 relative to end of C 1 were removed from study. Pts on anticoagulants, with recent MI or untreated brain metastases were ineligible. Results: 20 pts (12 M/ 8 F), median age 55 (range 44–65), ECOG PS 0/1/2 (5/13/2), M1a/M1b/M1c: 1/1/18 (90%), and prior systemic therapy regimens 0/1/2/3+: 1/7/5/7 were enrolled in the protocol. Sites of systemic disease included: lung (13 pts), LN (14), soft tissue (13), liver (9), bone (4), brain (6), other (11). 3 pts came of study prior to treatment with rapid disease progression. Treatment related grade 3–4 toxicities included line related (LR) bacteremia (3 pts), LR DVT (3 pts), LR PE (3). There were no grade 3–4 toxicities attributed to paclitaxel or celecoxib. No pt exhibited a major tumor response; 6/20 (30%) pts had stable disease for 17, 18, 18, 18+, 30+, 60 wks. Median TTP was 6 wks (range 3- 60); median overall survival was 6 months (range 1–29). Conclusions: Low-dose, CIV paclitaxel and oral celecoxib leads to disease stabilization in a significant portion of previously treated pts with MM. This suggests a role for combination anti-angiogenic therapy in MM. The incidence of LR toxicities indicates that alternative microtubule inhibitors, such as oral taxanes, should be considered in combination with COX-2 inhibitors for future studies. Results of biomarker studies will be presented at the meeting. Supported by Pfizer Inc. and NIH R21 CA097730. [Table: see text]

I B Kinase-  Regulates Endothelial Cell Motility and Tumor Angiogenesis

2008 ◽  
Vol 68 (24) ◽  
pp. 10223-10228 ◽  
Author(s):  
L. M. DeBusk ◽  
P. P. Massion ◽  
P. C. Lin
Keyword(s):  
Endothelial Cell ◽  
Cell Motility ◽  
Tumor Angiogenesis
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