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Query: EC:2.7.10.1 (
ERK
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95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angiogenesis, the sprouting of new blood vessels from pre-existing ones, and the permeability of blood vessels are regulated by vascular endothelial growth factor (VEGF) via its two known receptors Flt1 (VEGFR-1) and
KDR
/Flk-1 (VEGFR-2). The Flt4 receptor tyrosine kinase is related to the VEGF receptors, but does not bind VEGF and its expression becomes restricted mainly to lymphatic endothelia during development. In this study, we have purified the Flt4 ligand,
VEGF-C
, and cloned its cDNA from human prostatic carcinoma cells. While
VEGF-C
is homologous to other members of the VEGF/platelet derived growth factor (PDGF) family, its C-terminal half contains extra cysteine-rich motifs characteristic of a protein component of silk produced by the larval salivary glands of the midge, Chironomus tentans.
VEGF-C
is proteolytically processed, binds Flt4, which we rename as VEGFR-3 and induces tyrosine autophosphorylation of VEGFR-3 and VEGFR-2. In addition,
VEGF-C
stimulated the migration of bovine capillary endothelial cells in collagen gel.
VEGF-C
is thus a novel regulator of endothelia, and its effects may extend beyond the lymphatic system, where Flt4 is expressed.
...
PMID:A novel vascular endothelial growth factor, VEGF-C, is a ligand for the Flt4 (VEGFR-3) and KDR (VEGFR-2) receptor tyrosine kinases. 861
Vascular endothelial cell growth factors (VEGF) are key modulators of endothelial cell growth and function. The class III receptor tyrosine kinases
KDR
and Flt-1 are high affinity receptors for VEGF, while Flt-4 is a receptor for the recently identified
VEGF-C
. We have examined the expression of flt-1, flt-4 and
KDR
in human microvascular and large vessel endothelial cells and in a variety of other cell types in vitro. Endothelial cells proliferated and exhibited increased procoagulant activity in response to VEGF. Flt-1, flt-4 and
KDR
were detected in both freshly isolated endothelial cells, and in sparse and confluent endothelial cell cultures by RT-PCR. Attempts to modulate receptor expression by culturing cells at reduced oxygen tensions (2%) did not induce consistent changes in flt-1, flt-4 or
KDR
expression. Incubation with tumor-conditioned medium or co-culture of endothelial cells with a range of breast and small cell lung carcinoma cell lines did not reproducibly alter receptor mRNA expression. However, flt-1, flt-4 and
KDR
transcript levels were enhanced following treatment with tetradecanoylphorbol acetate.
...
PMID:Coexpression of flt-1, flt-4 and KDR in freshly isolated and cultured human endothelial cells. 863 24
The vascular endothelial growth factor family has recently been expanded by the isolation of two new VEGF-related factors, VEGF-B and
VEGF-C
. The physiological functions of these factors are largely unknown. Here we report the cloning and characterization of mouse
VEGF-C
, which is produced as a disulfide-linked dimer of 415 amino acid residue polypeptides, sharing an 85% identity with the human
VEGF-C
amino acid sequence. The recombinant mouse
VEGF-C
protein was secreted from transfected cells as VEGFR-3 (Flt4) binding polypeptides of 30-32x10(3) Mr and 22-23x10(3) Mr which preferentially stimulated the autophosphorylation of VEGFR-3 in comparison with VEGFR-2 (
KDR
). In in situ hybridization, mouse
VEGF-C
mRNA expression was detected in mesenchymal cells of postimplantation mouse embryos, particularly in the regions where the lymphatic vessels undergo sprouting from embryonic veins, such as the perimetanephric, axillary and jugular regions. In addition, the developing mesenterium, which is rich in lymphatic vessels, showed strong
VEGF-C
expression.
VEGF-C
was also highly expressed in adult mouse lung, heart and kidney, where VEGFR-3 was also prominent. The pattern of expression of
VEGF-C
in relation to its major receptor VEGFR-3 during the sprouting of the lymphatic endothelium in embryos suggests a paracrine mode of action and that one of the functions of
VEGF-C
may be in the regulation of angiogenesis of the lymphatic vasculature.
...
PMID:VEGF-C receptor binding and pattern of expression with VEGFR-3 suggests a role in lymphatic vascular development. 901 4
Flt4 is a
receptor protein tyrosine kinase
that is expressed in the adult lymphatic endothelium and high endothelial venules. We have used a BIAcore assay to identify rodent and human cell conditioned media containing the ligand of Flt4 (
Flt4-L
). Receptor-based affinity chromatography was used to purify this growth factor, followed by amino acid sequencing and molecular cloning of the murine cDNA, the orthologue of human vascular endothelial growth factor-C and vascular endothelial growth factor related protein. The murine flt4-L gene was localized to chromosome 8 and demonstrated to be widely expressed.
Flt4-L
was found to have a hydrophobic signal sequence and a pro-peptide-like sequence that is removed to generate the mature N-terminus. In addition, the C-terminal region of
Flt4-L
has four repeats of a cysteine-rich motif that is presumably also proteolytically processed to generate the 21000 Mr polypeptide subunit of the
Flt4-L
homodimer. Recombinant
Flt4-L
activated Flt4 as judged by induction of tyrosyl phosphorylation, and induced mitogenesis in vitro of lymphatic endothelial cells.
...
PMID:Characterization of murine Flt4 ligand/VEGF-C. 924 16
FLT4
represents a recently cloned member of class III receptor tyrosine kinases which include receptors for the angiogenic growth factor VEGF, namely
FLT1
and
KDR
. The ligand of
FLT4
has been identified as
VEGF-C
which shares sequence homology with VEGF and P1GF. In the adult
FLT4
shows a restricted expression pattern that is limited to lymphatic endothelia and endothelia of some high endothelial venules (HEV).
FLT4
has also been detected in some tumor cell lines including the hematopoietic line HEL. We therefore investigated expression of
FLT4
and its ligand
VEGF-C
in fresh samples from patients with AML. Using a sensitive PCR method we detected
FLT4
m-RNA in 15 of 41 patients with de novo AML at diagnosis or relapse and in three of 12 patients with secondary AML.
FLT4
expression was confirmed by immunocytochemistry in a subgroup of the studied patient population.
FLT4
was also found in leukemic cell line U937, but not TF-1 and KG1a.
VEGF-C
expression was found in leukemic samples of four of seven
FLT4
-positive and four of six
FLT4
-negative patients. U937 cells also produced
VEGF-C
m-RNA. Interestingly,
FLT4
expression was not detected in bone marrow samples of 15 normal volunteer donors or in CD34-positive cells from three additional donors. Possible autocrine and paracrine growth stimulation of leukemic blasts by
VEGF-C
is currently being investigated in our laboratory.
...
PMID:Expression of FLT4 and its ligand VEGF-C in acute myeloid leukemia. 926 75
VEGF-C
is a recently discovered secreted polypeptide related to the angiogenic mitogen VEGF. We have isolated the quail
VEGF-C
cDNA and shown that its protein product is secreted from transfected cells and interacts with the avian
VEGFR3
and
VEGFR2
. In situ hybridization shows that quail
VEGF-C
mRNA is strongly expressed in regions destined to be rich in lymphatic vessels, particularly the mesenteries, mesocardium and myotome, in the region surrounding the jugular veins, and in the kidney. These expression sites are similar to those observed in the mouse embryo (E. Kukk, A. Lymboussaki, S. Taira, A. Kaipainen, M. Jeltsch, V. Joukov and K. Alitalo, 1996, Development 122, 3829-3837). We have observed
VEGFR3
-positive endothelial cells in proximity to most of the
VEGF-C
-expressing sites, suggesting functional relationships between this receptor-ligand couple. The comparison of the VEGF and
VEGFR2
knockout phenotypes had suggested the existence of another ligand for
VEGFR2
. We therefore investigated the effect of
VEGF-C
on
VEGFR2
-positive cells isolated from the posterior mesoderm of gastrulating embryos. We have recently shown that VEGF binding triggers endothelial differentiation of these cells, whereas hemopoietic differentiation appears to be mediated by binding of a so far unidentified
VEGFR2
ligand. We show here that
VEGF-C
also triggers endothelial differentiation of these cells, presumably via
VEGFR2
. These results indicate that VEGF and
VEGF-C
can act in a redundant manner via
VEGFR2
. In conclusion,
VEGF-C
appears to act during two different developmental phases, one early in posterior mesodermal
VEGFR2
-positive endothelial cell precursors which are negative for
VEGFR3
and one later in regions rich in lymphatic vessels at a time when endothelial cells express both
VEGFR2
and
VEGFR3
.
...
PMID:Avian VEGF-C: cloning, embryonic expression pattern and stimulation of the differentiation of VEGFR2-expressing endothelial cell precursors. 943 94
The vascular endothelial growth factor (VEGF) and the
VEGF-C
promote growth of blood vessels and lymphatic vessels, respectively. VEGF activates the endothelial VEGF receptors (VEGFR) 1 and 2, and
VEGF-C
activates VEGFR-3 and VEGFR-2. Both VEGF and
VEGF-C
are also potent vascular permeability factors. Here we have analyzed the receptor binding and activating properties of several cysteine mutants of
VEGF-C
including those (Cys156 and Cys165), which in other platelet-derived growth factor/VEGF family members mediate interchain disulfide bonding. Surprisingly, we found that the recombinant mature
VEGF-C
in which Cys156 was replaced by a Ser residue is a selective agonist of VEGFR-3. This mutant, designated DeltaNDeltaC156S, binds and activates VEGFR-3 but neither binds VEGFR-2 nor activates its autophosphorylation or downstream signaling to the
ERK
/MAPK pathway. Unlike
VEGF-C
, DeltaNDeltaC156S neither induces vascular permeability in vivo nor stimulates migration of bovine capillary endothelial cells in culture. These data point out the critical role of VEGFR-2-mediated signal transduction for the vascular permeability activity of
VEGF-C
and strongly suggest that the redundant biological effects of VEGF and
VEGF-C
depend on binding and activation of VEGFR-2. The DeltaNDeltaC156S mutant may provide a valuable tool for the analysis of
VEGF-C
effects mediated selectively via VEGFR-3. The ability of DeltaNDeltaC156S to form homodimers also emphasizes differences in the structural requirements for VEGF and
VEGF-C
dimerization.
...
PMID:A recombinant mutant vascular endothelial growth factor-C that has lost vascular endothelial growth factor receptor-2 binding, activation, and vascular permeability activities. 950 53
Vascular endothelial growth factor (VEGF) is a prime regulator of normal and pathological angiogenesis. Three related endothelial cell growth factors, VEGF-B,
VEGF-C
, and VEGF-D were recently cloned. We have here studied the regulation of
VEGF-C
, a lymphatic endothelial growth factor, by angiogenic proinflammatory cytokines. Interleukin (IL)-1beta induced a concentration- and a time-dependent increase in
VEGF-C
, but not in VEGF-B, mRNA steady-state levels in human lung fibroblasts. The increase in
VEGF-C
mRNA levels was mainly due to increased transcription rather than elevated mRNA stability as detected by the nuclear run-on method and by following mRNA decay in the presence of an inhibitor of transcription, respectively. In contrast, angiopoietin-1 mRNA, encoding the ligand for the endothelial-specific Tek/Tie-2 receptor, was down-regulated by IL-1beta. Tumor necrosis factor-alpha and IL-1alpha also elevated
VEGF-C
mRNA steady-state levels, whereas the IL-1 receptor antagonist and dexamethasone inhibited the effect of IL-1beta. Experiments with cycloheximide indicated that the effect of IL-1beta was independent of protein synthesis. Hypoxia, which is an important inducer of VEGF expression, had no effect on VEGF-B or
VEGF-C
mRNA levels. IL-1beta and tumor necrosis factor-alpha also stimulated the production of
VEGF-C
protein by the fibroblasts. Cytokines and growth factors have previously been shown to down-regulate VEGF receptors in vascular endothelial cells. We found that the mRNA for the VEGF- and
VEGF-C
-binding VEGFR-2 (
KDR
/Flk-1) was stimulated by IL-1beta in human umbilical vein endothelial cells, whereas the mRNA levels of VEGFR-1 (Flt-1) and VEGFR-3 (Flt-4) were not altered. Our data suggest that in addition to VEGF,
VEGF-C
may also serve as an endothelial stimulus at sites of cytokine activation. In particular, these results raise the possibility that certain proinflammatory cytokines regulate the lymphatic vessels indirectly via
VEGF-C
.
...
PMID:Proinflammatory cytokines regulate expression of the lymphatic endothelial mitogen vascular endothelial growth factor-C. 952 52
Hereditary or primary lymphedema is a developmental disorder of the lymphatic system which leads to a disabling and disfiguring swelling of the extremities. Hereditary lymphedema generally shows an autosomal dominant pattern of inheritance with reduced penetrance, variable expression and variable age at onset. Three multigeneration families demonstrating the phenotype of hereditary lymphedema segregating as an autosomal dominant trait with incomplete penetrance were genotyped for 366 autosomal markers. Linkage analysis yielded a two-point LOD score of 6.1 at straight theta = 0. 0 for marker D5S1354 and a maximum multipoint LOD score of 8.8 at marker D5S1354 located at chromosome 5q34-q35. Linkage analysis in two additional families using markers from the linked region showed one family consistent for linkage to distal chromosome 5. In the second family, linkage to 5q was excluded for all markers in the region with LOD scores Z < -2.0. The
vascular endothelial growth factor C
receptor (
FLT4
) was mapped to the linked region, and partial sequence analysis identified a G-->A transition at nucleotide position 3360 of the
FLT4
cDNA, predicting a leucine for proline substitution at residue 1126 of the mature receptor in one nuclear family. This study localizes a gene for primary lymphedema to distal chromosome 5q, identifies a plausible candidate gene in the linked region, and provides evidence for a second, unlinked locus for primary lymphedema.
...
PMID:Hereditary lymphedema: evidence for linkage and genetic heterogeneity. 981 24
Experimental evidence has shown, both in vitro and in animal models, that neoplastic growth and subsequent metastasis formation depend on the tumor's ability to induce an angiogenic switch. This requires a change in the balance of angiogenic stimulators and inhibitors. To assess the potential role of angiogenesis factors in human thyroid tumor growth and spread, we analyzed their expression by semiquantitative RT-PCR and immunohistochemistry in normal thyroid tissues, benign lesions, and different thyroid carcinomas. Compared to normal tissues, in thyroid neoplasias we observed a consistent increase in vascular endothelial growth factor (VEGF),
VEGF-C
, and angiopoietin-2 and in their tyrosine kinase receptors
KDR
, Flt-4, and Tek. In particular, we report the overexpression of angiopoietin-2 and VEGF in thyroid tumor progression from a prevascular to a vascular phase. In fact, we found a strong association between tumor size and high levels of VEGF and angiopoietin-2. Furthermore, our results show an increased expression of
VEGF-C
in lymph node invasive thyroid tumors and, on the other hand, a decrease of thrombospondin-1, an angioinhibitory factor, in thyroid malignancies capable of hematic spread. These results suggest that, in human thyroid tumors, angiogenesis factors seem involved in neoplastic growth and aggressiveness. Moreover, our findings are in keeping with a recent hypothesis that in the presence of VEGF, angiopoietin-2 may collaborate at the front of invading vascular sprouts, serving as an initial angiogenic signal that accompanies tumor growth.
...
PMID:Expression of angiogenesis stimulators and inhibitors in human thyroid tumors and correlation with clinical pathological features. 1059 26
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