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51.
B Jung H Obinata S Galvani K Mendelson BS Ding A Skoura B Kinzel V Brinkmann S Rafii T Evans T Hla 《Developmental cell》2012,23(3):600-610
During angiogenesis, nascent vascular sprouts fuse to form vascular networks, enabling efficient circulation. Mechanisms that stabilize the vascular plexus are not well understood. Sphingosine 1-phosphate (S1P) is a blood-borne lipid mediator implicated in the regulation of vascular and immune systems. Here we describe a mechanism by which the G protein-coupled S1P receptor-1 (S1P(1)) stabilizes the primary vascular network. A gradient of S1P(1) expression from the mature regions of the vascular network to the growing vascular front was observed. In the absence of endothelial S1P(1), adherens junctions are destabilized, barrier function is breached, and flow is perturbed, resulting in abnormal vascular hypersprouting. Interestingly, S1P(1) responds to S1P?as well as laminar shear stress to transduce flow-mediated signaling in endothelial cells both in?vitro and in?vivo. These data demonstrate that blood flow and circulating S1P activate endothelial S1P(1) to stabilize blood vessels in development and homeostasis. 相似文献
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Li MH Sanchez T Pappalardo A Lynch KR Hla T Ferrer F 《Molecular cancer research : MCR》2008,6(10):1649-1656
Connective tissue growth factor (CTGF), a member of the CCN family of secreted matricellular proteins, regulates fibrosis, angiogenesis, cell proliferation, apoptosis, tumor growth, and metastasis. However, the role of CTGF and its regulation mechanism in Wilms' tumor remains largely unknown. We found that the bioactive lipid sphingosine-1-phosphate (S1P) induced CTGF expression in a concentration- and time-dependent manner in a Wilms' tumor cell line (WiT49), whereas FTY720-phosphate, an S1P analogue that binds all S1P receptors except S1P2, did not. Further, the specific S1P2 antagonist JTE-013 completely inhibited S1P-induced CTGF expression, whereas the S1P1 antagonist VPC44116 did not, indicating that this effect was mediated by S1P2. This was confirmed by adenoviral transduction of S1P2 in WiT49 cells, which showed that overexpression of S1P2 increased the expression of CTGF. Induction of CTGF by S1P was sensitive to ROCK inhibitor Y-27632 and c-Jun NH2-terminal kinase inhibitor SP600125, suggesting the requirement of RhoA/ROCK and c-Jun NH2-terminal kinase pathways for S1P-induced CTGF expression. Interestingly, the expression levels of CTGF were decreased in 8 of 10 Wilms' tumor tissues compared with matched normal tissues by quantitative real-time PCR and Western blot analysis. In vitro, human recombinant CTGF significantly inhibited the proliferation of WiT49 cells. In addition, overexpression of CTGF resulted in significant inhibition of WiT49 cell growth. Taken together, these data suggest that CTGF protein induced by S1P2 might act as a growth inhibitor in Wilms' tumor. 相似文献
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C B Siegall S Epstein E Speir T Hla R Forough T Maciag D J Fitzgerald I Pastan 《FASEB journal》1991,5(13):2843-2849
Chimeric proteins composed of acidic fibroblast growth factor (acidic FGF) and several forms of Pseudomonas exotoxin (PE) that cannot bind to the PE receptor have been produced in Escherichia coli by expressing chimeric genes in which DNA encoding acidic FGF is fused to various mutant forms of PE. These acidic FGF-PE fusion proteins were found to be cytotoxic to a variety of tumor cell lines including hepatocellular (PLC/PRF/5 and HEPG2), prostatic (LNCaP), colon (HT29), and breast (MCF-7) carcinomas at concentrations of 1-70 ng/ml. The cytotoxic effects of acidic FGF-PE were FGF-receptor specific as demonstrated by competition with excess acidic FGF and by showing that acidic FGF-PE bound to the FGF receptor with the same affinity as acidic FGF. Furthermore, the cell-killing activity of acidic FGF-PE was toxin-mediated, as an acidic FGF-PE mutant, which does not possess ADP-ribosylation activity, failed to kill cells. These findings demonstrate that acidic FGF-PE is a potent cytotoxic molecule that can be targeted to FGF receptor-bearing cells. Because acidic FGF is a potent angiogenic molecule, cytotoxic acidic FGF-PE chimeras may have utility as anti-angiogenic agents. These molecules could be helpful in determining the functional role of FGF receptors in cellular processes. 相似文献
56.
Endothelial cell (EC) migration has an important role in angiogenesis. Sphingosine-1 phosphate (S1P) stimulates EC migration via activation of Gi proteins. In this study, we characterized a mouse guanine nucleotide exchange factor (GEF) P-Rex2b for its regulation by Gbetagamma and PI3K and its role in S1P-induced Rac1 activation and cell migration in ECs. We found that co-expression of Gbetagamma or an active form of PI3K (PI3K(AC)) with P-Rex2b increased the SRE.Luciferase (SRE.L) reporter gene activity that can be stimulated by the Rho family of small GTPases including Rac1. Co-expression with P-Rex2b of Gbetagamma and PI3K(AC) or wild type PI3Kgamma that can be activated by Gbetagamma led to further increases in the reporter gene activity. Together with the finding that co-expression of Gbetagamma and/or PI3K(AC) increased the levels of active Rac1, we conclude that P-Rex2b is a Rac GEF that can be regulated by Gbetagamma and PI3K. Additionally, we demonstrated that Gbetagamma interacted with P-Rex2b, probably through P-Rex2b sequences at the PH domain and that the DEP and PDZ domains of P-Rex2b exerted an inhibitory effect on P-Rex2b's activity because their deletion increased the SER.L reporter gene activity. Furthermore, we found that P-Rex2b is involved in S1P-induced Rac1 activation and cell migration in ECs because siRNA-mediated suppression of P-Rex2b expression in ECs-diminished Rac1 activation and cell migration in response to S1P. Therefore, P-Rex2b is a physiologically significant Rac1 GEF that has an important role in the regulation of EC migration. 相似文献
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Michael ter Braak Kerstin Danneberg Karin Lichte Kerstin Liphardt Nicholas T. Ktistakis Stuart M. Pitson Timothy Hla Karl H. Jakobs Dagmar Meyer zu Heringdorf 《Biochimica et Biophysica Acta (BBA)/Molecular and Cell Biology of Lipids》2009,1791(5):357-370
Sphingosine-1-phosphate (S1P), formed by sphingosine kinases (SphKs), regulates cellular proliferation and migration by acting as an agonist at specific receptors or intracellularly. Since S1P's effects are probably dependent on subcellular localization of its formation and degradation, we have studied the influence of G protein-coupled receptors on the localization of SphK1. Activation of Gq-coupled receptors induced a profound, rapid (half-life 3–5 s) and long-lasting (> 2 h) translocation of SphK1 to the plasma membrane. This was mimicked by expression of constitutively active G protein α-subunits specifically of the Gq family. Classical Gq signalling pathways, or phosphorylation at Ser225, phospholipase D and Ca2+/calmodulin were not involved in M3 receptor-induced SphK1 translocation in HEK-293 cells. Translocation was associated with S1P receptor internalization, which was dependent on catalytic activity of SphK1 and S1P receptor binding and thus resulted from S1P receptor cross-activation. It is concluded that SphK1 is an important effector of Gq-coupled receptors, linking them via cross-activation of S1P receptors to Gi and G12/13 signalling pathways. 相似文献
60.
Karen Mendelson Tomasz Zygmunt Jesús Torres-Vázquez Todd Evans Timothy Hla 《The Journal of biological chemistry》2013,288(4):2143-2156
Sphingosine 1-phosphate (S1P) binds G-protein-coupled receptors (S1P1–5) to regulate a multitude of physiological effects, especially those in the vascular and immune systems. S1P receptors in the vascular system have been characterized primarily in mammals. Here, we report that the S1P receptors and metabolic enzymes are conserved in the genome of zebrafish Danio rerio. Bioinformatic analysis identified seven S1P receptor-like sequences in the zebrafish genome, including duplicated orthologs of receptors 3 and 5. Sphingolipidomic analysis detected erythrocyte and plasma S1P as well as high plasma ceramides and sphingosine. Morpholino-mediated knockdown of s1pr1 causes global and pericardial edema, loss of blood circulation, and vascular defects characterized by both reduced vascularization in intersegmental vessels, decreased proliferation of intersegmental and axial vessels, and hypersprouting in the caudal vein plexus. The s1pr2 gene was previously characterized as a regulator of cell migration and heart development, but its role in angiogenesis is not known. However, when expression of both s1pr1 and s1pr2 is suppressed, severely reduced vascular development of the intersegmental vessels was observed with doses of the s1pr1 morpholino that alone did not cause any discernible vascular defects, suggesting that s1pr1 and s1pr2 function cooperatively to regulate vascular development in zebrafish. Similarly, the S1P transporter, spns2, also cooperated with s1pr1. We propose that extracellular S1P acts through vascular S1P receptors to regulate vascular development. 相似文献