Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endoglin is a transmembrane accessory receptor for transforming growth factor-beta (TGF-beta) that is predominantly expressed on proliferating endothelial cells in culture and on angiogenic blood vessels in vivo. Endoglin, as well as other TGF-beta signalling components, is essential during angiogenesis. Mutations in endoglin and activin receptor-like kinase 1 (ALK1), an endothelial specific TGF-beta type I receptor, have been linked to the vascular disorder, hereditary haemorrhagic telangiectasia. However, the function of endoglin in TGF-beta/ALK signalling has remained unclear. Here we report that endoglin is required for efficient TGF-beta/ALK1 signalling, which indirectly inhibits TGF-beta/ALK5 signalling. Endothelial cells lacking endoglin do not grow because TGF-beta/ALK1 signalling is reduced and TGF-beta/ALK5 signalling is increased. Surviving cells adapt to this imbalance by downregulating ALK5 expression in order to proliferate. The ability of endoglin to promote ALK1 signalling also explains why ectopic endoglin expression in endothelial cells promotes proliferation and blocks TGF-beta-induced growth arrest by indirectly reducing TGF-beta/ALK5 signalling. Our results indicate a pivotal role for endoglin in the balance of ALK1 and ALK5 signalling to regulate endothelial cell proliferation.
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PMID:Endoglin promotes endothelial cell proliferation and TGF-beta/ALK1 signal transduction. 1538 67

Angiogenesis governs the progression of multiple myeloma (MM). Circulating endothelial cells (CECs) contribute to angiogenesis and comprise mature ECs and endothelial progenitor cells (EPCs). The present study sought to characterize CECs and their relation to disease activity and therapeutic response in 31 consecutive patients with MM. CECs, identified as CD34(+)/CD146(+)/CD105(+)/CD11b(-) cells, were 6-fold higher in patients compared to controls and correlated positively with serum M protein and beta(2)-microglobulin. Circulating EPCs displayed late colony formation/outgrowth and capillary-like network formation on matrigel; these processes were inhibited after effective thalidomide treatment. Co-expression of vascular endothelial growth factor receptor-2 (KDR) and CD133 characterized EPCs in MM, and KDR mRNA elevations correlated with M protein levels. In vitro exposure of ECs to thalidomide or its derivative CC-5013 inhibited gene expression of the receptors for transforming growth factor-beta and thrombin. Thus, elevated levels of CECs and EPCs covary with disease activity and response to thalidomide, underscoring the angiogenic aspect of MM and suggesting that angioblastlike EPCs are a pathogenic biomarker and a rational treatment target in MM. The results also highlight the anti-angiogenic properties of thalidomide and CC-5013 and further elucidate possible mechanisms of their effectiveness against MM. (Blood. 2005;105:3286-3294).
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PMID:Circulating endothelial progenitor cells in multiple myeloma: implications and significance. 1561 73

The presence of blood vessels is a prerequisite for normal development, tissue growth, and tissue repair. However, its abnormal occurrence or absence can also potentiate disease processes. Angiogenic therapies have been used to stimulate blood vessel growth in ischemic conditions such as severe end-stage peripheral vascular disease, ischemic heart disease and stroke and for inhibition of angiogenesis in tumors. The targeting and identification of novel endothelial cell (EC) markers that can ultimately be used in angiogenic strategies is an expanding field but is limited by the availability of reagents. For instance repeated injection of mouse monoclonal antibodies (Mabs) against angiogenic EC, can result in the production of autoantibodies. Therefore, these mouse Mabs cannot be used for therapeutic purposes. Phage display technology was employed in this context to select antibodies, proteins, and peptides against known or novel EC antigens. Furthermore, technologies have been developed that enable the specific targeting of epitopes on cells including the endothelium with high-affinity/avidity antibodies. The focus for these antibody targeting strategies are markers that are unique or up-regulated on angiogenic EC including the vascular endothelial growth factor receptor (VEGFR) KDR, endoglin (CD105), and the extracellular domain B (ED-B) domain of fibronectin (FN). These markers are reviewed herein.
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PMID:Antibody phage display technologies with special reference to angiogenesis. 1574 76

To explore the difference of biological characteristics between two subpopulations of adult bone marrow mesenchymal stem cells (MSC), this study was designed to observe the morphological feature and immunophenotype of the adult MSC in the ex vivo culture, the mononuclear cells isolated from normal adult bone marrow were cultured in DMEM with 10% fetal bovine serum. Cell morphology, immunophenotype and cell cycle of two different subgroups were investigated. Cells from 80% confluence were passed through a 10 microm filter, then the fillered cells were cultured in the semisolid methylcellulose medium. The results showed that (1) two different subpopulations were observed in the ex vivo culture. The fibro-like cell was called mature MSC (mMSC) and the smaller round cell was defined rapidly as MSC self-renewing cells (RS cells); (2) the average proportion of cells in G(0)/G(1) of RS cells was approximately 99%, but that of mMSCs was 90%; (3) both of the two populations were negative on the lineage-committed antigen (such as CD34, CD45, CD3, CD19, CD33, HLA-DR, CD38), while positive on the expression of CD90, CD105, C166, CD29, CD44, CD49e, CD54, CD13. However, the expression of these antigens on RS cells was weaker than that on mMSC, but CD117 and KDR were higher expressed when compared with the mMSC; (4) after 4 to 5 week semisolid culture, no hematopoietic progenitor cell colonies were observed. It is concluded that adult MSCs are heterogeneous in that distinct morphological populations exist. The RS cells appear to be the more primitive with greater potential for self-renewal and multilineage differentiation.
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PMID:[Comparative study on various subpopulations in mesenchymal stem cells of adult bone marrow]. 1574 36

Transforming growth factor beta (TGF-beta) inhibits T cell activation and alters differentiation of naive T cells into effector cells. Although four main cell-surface proteins can interact with TGF-beta, only the signaling receptors type I (TGF-betaR type I) and type II (TGF-betaR type II) have so far been described on T cells. The aim of the present study was to investigate the expression of the ancillary receptor endoglin (CD105) by T cells and its role in TGF-beta-mediated signal transduction and function. CD105 expression was analyzed on resting and activated human CD4(+) T cells by flow cytometry, western blot, immunoprecipitation, proliferation and SMAD-responsive reporter gene assays. CD4(+) T cells constitutively expressed CD105 in memory T cells and partially also in naive T cells; however, surface expression is regulated and is increased following TCR engagement, which induced serine/threonine phosphorylation of CD105. In contrast to the suppressive signal mediated by the TGF-beta, cross-linking of CD105 substantially enhanced T cell proliferation, indicating that CD105 by itself mediates signal transduction. Furthermore, CD105 cross-linking induced SMAD-independent signaling via ERK kinase phosphorylation. The present study demonstrates that CD105 is expressed on the surface by activated CD4(+) T cells and CD3 regulated by post-translational means. Furthermore, CD105 acts as a regulatory receptor, counteracting TGF-beta-mediated suppression.
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PMID:TGF-{beta} signaling of human T cells is modulated by the ancillary TGF-{beta} receptor endoglin. 1596 83

Assessment of chemosensitivity of neovessel endo-thelium associated to tumor mass is hindered by the limited availability of experimental models of actively proliferating endothelial cells. In fact, primary endothelial cells possess a limited lifespan and replicative senescence represents a major limit to their long-term culture. Moreover, non-dividing senescent cells undergo a gradual loss of phenotypic markers and become unable to respond to mitogenic stimuli. We report the generation of an immortalized human endothelial cell line by transfection of human umbilical vein endothelial cells (HUVEC) with both SV40 large/small T antigens and the catalytic subunit of human telomerase. This cell line (HUV-ST) possesses stabilized telomere length and increased proliferation rate with respect to parental cells or to cells transfected with SV40 T antigens only (HUV-S). Nevertheless, even at PD > 100 it is not tumorigenic and displays all major endothelial phenotypic markers, such as von Willebrand factor, CD31, vascular endothelial growth factor (VEGF) receptors (VEGFR1/Flt-1, VEGR2/KDR) and CD105/endoglin. HUV-ST cells are capable of organizing into tubule-like networks with branching morphology in response to appropriate stimuli and migrate upon exposure to VEGF. Interestingly, HUV-ST cells over-express the tumor endothelial marker-1/endosialin which is regarded as the most differentially expressed molecule in tumor-derived endothelium versus normal-derived endothelium. Analysis of chemosensitivity to the wide spectrum methylating agent temozolomide (TMZ), an anticancer drug more effective against actively dividing cells than against resting or slowing proliferating cells, indicated that HUV-ST cells are more susceptible to the drug with respect to HUVEC or HUV-S cells. Abrogation of poly(ADP-ribose) polymerase activity significantly enhances growth inhibition induced by TMZ. In conclusion, the immortalized human endothelial line HUV-ST represents a suitable model for studying the efficacy of anti-neovascular therapy, mimicking proliferating neovascular endothelial cells associated to the tumor mass.
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PMID:Generation of an immortalized human endothelial cell line as a model of neovascular proliferating endothelial cells to assess chemosensitivity to anticancer drugs. 1601 Apr 36

Stromal cells isolated from bone marrow (BMSCs), often referred to as mesenchymal stem cells, are currently under investigation for a variety of therapeutic applications. However, limited data are available regarding receptors that can influence their homing to and positioning within the bone marrow. In the present study, we found that second passage BMSCs express a unique set of chemokine receptors: three CC chemokine receptors (CCR1, CCR7, and CCR9) and three CXC chemokine receptors (CXCR4, CXCR5, and CXCR6). BMSCs cultured in serum-free medium secrete several chemokine ligands (CCL2, CCL4, CCL5, CCL20, CXCL12, CXCL8, and CX3CL1). The surface-expressed chemokine receptors were functional by several criteria. Stimulation of BMSCs with chemokine ligands triggers phosphorylation of the mitogen-activated protein kinase (e.g., extracellular signal-related kinase [ERK]-1 and ERK-2) and focal adhesion kinase signaling pathways. In addition, CXCL12 selectively activates signal transducer and activator of transcription (STAT)-5 whereas CCL5 activates STAT-1. In cell biologic assays, all of the chemokines tested stimulate chemotaxis of BMSCs, and CXCL12 induces cytoskeleton F-actin polymerization. Studies of culture-expanded BMSCs, for example, 12-16 passages, indicate loss of surface expression of all chemokine receptors and lack of chemotactic response to chemokines. The loss in chemokine receptor expression is accompanied by a decrease in expression of adhesion molecules (ICAM-1, ICAM-2, and vascular cell adhesion molecule 1) and CD157, while expression of CD90 and CD105 is maintained. The change in BMSC phenotype is associated with slowing of cell growth and increased spontaneous apoptosis. These findings suggest that several chemokine axes may operate in BMSC biology and may be important parameters in the validation of cultured BMSCs intended for cell therapy.
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PMID:Human bone marrow stromal cells express a distinct set of biologically functional chemokine receptors. 1625 81

Mobilization of endothelial progenitor cells has been suggested to contribute to neo-vascularization of ischemic organs. Aim of this study was to investigate whether the combination of granulocyte colony stimulating factor (G-CSF) and granulocyte-macrophage (GM)-CSF may influence the expansion of circulating KDR+ cells in patients with acute myocardial infarction (AMI). KDR+ cells significantly increased in peripheral blood of AMI patients treated with G-CSF and GM-CSF compared to untreated patients. This KDR+ cells population was CD14+ but not CD34+ or CD133+. CD14+/KDR+ cells were also obtained in vitro by culturing mononuclear cells from healthy donors in a Rotary Cell Culture System in the presence of G-CSF + GM-CSF, but not of the individual growth factors. CD14+/KDR+ cells, obtained from patients or from in vitro culture, co-expressed hematopoietic (CD45, CD14) and endothelial markers (CD31, CD105, and VE-cadherin). CD14+/KDR+, but not CD14+/KDR- cells, stimulated the organization of human microvascular endothelial cells into capillary-like structures on Matrigel both in vitro and in vivo. The combination of G-CSF and GM-CSF induced a CD14+/KDR+ cell population with potential pro-angiogenic properties.
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PMID:Combined administration of G-CSF and GM-CSF stimulates monocyte-derived pro-angiogenic cells in patients with acute myocardial infarction. 1669 75

During hematopoietic differentiation of human embryonic stem cells (hESCs), early hematopoietic progenitors arise along with endothelial cells within the CD34(+) population. Although hESC-derived hematopoietic progenitors have been previously identified by functional assays, their phenotype has not been defined. Here, using hESC differentiation in coculture with OP9 stromal cells, we demonstrate that early progenitors committed to hematopoietic development could be identified by surface expression of leukosialin (CD43). CD43 was detected on all types of emerging clonogenic progenitors before expression of CD45, persisted on differentiating hematopoietic cells, and reliably separated the hematopoietic CD34(+) population from CD34(+)CD43(-)CD31(+)KDR(+) endothelial and CD34(+)CD43(-)CD31(-)KDR(-) mesenchymal cells. Furthermore, we demonstrated that the first-appearing CD34(+)CD43(+)CD235a(+)CD41a(+/-)CD45(-) cells represent precommitted erythro-megakaryocytic progenitors. Multipotent lymphohematopoietic progenitors were generated later as CD34(+)CD43(+)CD41a(-)CD235a(-)CD45(-) cells. These cells were negative for lineage-specific markers (Lin(-)), expressed KDR, VE-cadherin, and CD105 endothelial proteins, and expressed GATA-2, GATA-3, RUNX1, C-MYB transcription factors that typify initial stages of definitive hematopoiesis originating from endothelial-like precursors. Acquisition of CD45 expression by CD34(+)CD43(+)CD45(-)Lin(-) cells was associated with progressive myeloid commitment and a decrease of B-lymphoid potential. CD34(+)CD43(+)CD45(+)Lin(-) cells were largely devoid of VE-cadherin and KDR expression and had a distinct FLT3(high)GATA3(low)RUNX1(low)PU1(high)MPO(high)IL7RA(high) gene expression profile.
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PMID:Leukosialin (CD43) defines hematopoietic progenitors in human embryonic stem cell differentiation cultures. 1675 88

The replacement of endothelium by endothelial progenitor cells (EPCs) for therapeutic use in order to ameliorate the vascular status of ischemic organs is now in the focus of vascular research. The aim of our studies was to investigate whether EPCs derived from peripheral blood mononuclear cells (PBMNCs-derived EPCs) or EPCs propagated from CD34(+) hematopoietic stem cells (HSCs-derived EPCs), both isolated from human cord blood, are able to differentiate into early mature endothelial cells (ECs) under certain in vitro conditions. We characterized both cell populations by flow cytometry, phase contrast microscopy, fluorescence microscopy and confocal laser scanning microscopy as well as ultrastructurally using transmission and scanning electron microscopy. While PBMNCs gave rise to clusters of spindle-like EPCs after few days but did not further mature under in vitro conditions, mature ECs could only be successfully propagated from a starting population of isolated HSCs. Both, PBMNCs- and HSCs-derived EPCs, took up Dil-labeled acetylated low density lipoprotein (Dil-Ac-LDL) and could be positively stained for CD31, CD105, the vascular endothelial growth factor receptor 2 (VEGFR-2, KDR) and ulex europaeus agglutinin 1 (UEA-1) at the cell surface. EPC showed surface expression of CD54 and CD106. However, only a small portion of HSCs-derived EPCs was positive for CD54 but negative for CD106. Intracellular staining for von Willebrand factor (vWF) provided a homogenous stain in PBMNC-derived EPCs while in HSCs-derived EPCs, during cultivation for 2-3 weeks, more and more a typical punctuated staining pattern related to Weibel-Palade bodies (WPBs) was visible. By phase contrast and scanning electron microscopy, an arrangement of PBMNCs-derived EPCs in cord-like structures could be demonstrated. In these formations, cells showed parallel alignment but exhibited only few cell contacts. Well-developed WPBs could never be found in PBMNCs-derived EPCs. In contrast, differentiating HSCs-derived EPCs developed adherence junctions, interdigitating junctions as well as syndesmos. During maturation, spindle-like cell types appeared with abundant WPBs as well as cobblestone-like cell types with a fewer content of these organelles. WPBs, in the spindle-like cell types displayed conspicuous shapes and were concentrated in close proximity to mitochondria-rich areas. HSCs-derived EPCs exhibited signs of high synthetic activity such as a well-developed rough endoplasmic reticulum (RER) and multiple Golgi complexes. In the trans-Golgi network (TGN), close to the Golgi complex, a new formation of WPBs could be observed. These morphological features correlated well with a high growing capacity. Although it was not possible to demonstrate the complete differentiation line from HSCs to early matured ECs by immunologic markers because of the limited number of cells available for such investigations, distinct morphologic maturation stages could be shown at light and electron microscopical levels. In conclusion, the study presented here characterizes not only the different cell populations involved in the differentiation of early EPCs into mature ECs but also the transition stage where the maturation step takes place by demonstration of the new formation of WPBs. In this respect, these investigations provide new insights into the in vitro differentiation which could have some in vivo correlation.
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PMID:Immunological and ultrastructural characterization of endothelial cell cultures differentiated from human cord blood derived endothelial progenitor cells. 1676 8


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