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Query: EC:2.7.10.1 (
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95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Halting tumor growth by interfering with tumor-induced angiogenesis is an attractive therapeutic approach. Such treatments include humanized antibodies blocking the activity of vascular endothelial growth factor (VEGF)-A (bevacizumab), soluble VEGF receptor (VEGFR) constructs (VEGF-Trap), or small-molecule inhibitors of VEGFR signaling, including PTK787/ZK222584 (
PTK
/ZK), sorafenib, and sunitinib.
PTK
/ZK has been shown previously to specifically block VEGF-induced phosphorylation of VEGFR-1, -2 and -3 and thereby to inhibit endothelial cell proliferation, differentiation, and tumor angiogenesis. We have investigated the effect of
PTK
/ZK on tumor angiogenesis and tumor lymphangiogenesis using the Rip1Tag2 transgenic mouse model of pancreatic beta cell carcinogenesis. In Rip1Tag2 mice, tumor angiogenesis is predominantly mediated by VEGF-A, and as expected,
PTK
/ZK efficiently impaired tumor blood vessel angiogenesis and tumor growth. Double-transgenic Rip1Tag2;Rip1VEGF-C and Rip1Tag2;Rip1VEGF-D mice not only exhibit VEGF-A-dependent blood vessel angiogenesis but also tumor lymphangiogenesis induced by the transgenic expression of
VEGF-C
or -D. In these mouse models,
PTK
/ZK also repressed tumor blood vessel angiogenesis and tumor growth yet failed to affect tumor lymphangiogenesis and lymphogenic metastasis. Adenoviral delivery of soluble VEGFR-3 also did not prevent tumor lymphangiogenesis in these mice. In contrast, spontaneous tumor lymphangiogenesis, as observed by the stochastic expression of
VEGF-C
and -D in tumors of neural cell adhesion molecule-deficient Rip1Tag2 mice, was repressed by
PTK
/ZK and soluble VEGFR-3. The results indicate that the time of onset and the levels of
VEGF-C
/D expression may be critical variables in efficiently repressing tumor lymphangiogenesis and that pathways other than VEGFR signaling may be involved in tumor lymphangiogenesis.
...
PMID:Differential effects of the vascular endothelial growth factor receptor inhibitor PTK787/ZK222584 on tumor angiogenesis and tumor lymphangiogenesis. 1913 13
Adipose tissue-derived stem cells (ADSC) are isolated from the stromal vascular fraction (SVF) of adipose tissue and considered an excellent cell source for regenerative medicine. During the isolation and propagation of several human ADSC cell lines, we observed the emergence of an unusual cell line designated HADSC-6. Although initially fibroblast-like as typical ADSC are, HADSC-6 cells became homogeneously cuboid in shape, had very little cytoplasm, and formed aggregates with capsule-like boundary. Proliferation assay showed that HADSC-6 grew much faster than typical HADSC cell lines, such as HADSC-20. Immunocytochemistry showed that HADSC-6 did not express endothelial markers CD31 and vWF, and matrigel tube formation assay showed that it was unable to form endothelial-like tube structures. However, LDL uptake, a reliable endothelial marker, was positively identified. Chromosomal analysis showed that HADSC-6 cells were hypertriploid, and soft agar colony formation assay showed that they were able to proliferate and form large colonies in an anchorage-independent manner. However, tumorigenicity test showed that HADSC-6 was unable to form tumors in athymic mice. RT-PCR analysis showed that both HADSC-6 and HADSC-20 expressed VEGF-A, VEGF-B, VEGF-D, and
VEGFR1
but not
VEGFR2
or
VEGFR3
.
VEGF-C
, however, was expressed at a high level in HADSC-20 but undetectable in HADSC-6. In the IGF system, IGF-1 was abundantly expressed in HADSC-20 but marginally detectable in HADSC-6, and IGF-1R was abundantly expressed in HADSC-6 but not detectable in HADSC-20. In the FGF system, bFGF was abundantly expressed in HADSC-20 but marginally detectable in HADSC-6, and
FGFR1
was abundantly expressed in both. Taken together, these results suggested that HADSC-6 cells were spontaneously transformed from the endothelium; therefore, they were further compared to previously published data of four naturally occurring human angiosarcoma cell lines. The results showed that the established angiosarcoma cell lines exhibit considerable variations among themselves and HADSC-6 displayed most of these variable characteristics.
...
PMID:Identification of an aberrant cell line among human adipose tissue-derived stem cell isolates. 1928 77
The aim of the study was to investigate the expression of angio- and lymphangiogenic molecules (vascular endothelial growth factors VEGF and
VEGF-C
and their receptors Flt-1,
KDR
, and Flt-4) in non-Hodgkin lymphomas (NHL) treated in the pre-rituximab era. Pre-therapeutic lymph-node biopsies from 155 patients with NHL (64 follicular lymphomas (FLs), 47 de novo diffuse large B-cell lymphomas (DLBCL) and 44 peripheral T-cell lymphomas (PTCL)) were stained by in situ hybridization and immunohistochemistry. Tumor cell expression of VEGF,
VEGF-C
and their receptors was detected in most of the analyzed biopsies. In FL, diffuse intratumoral VEGF staining correlated with shorter overall survival (OS) (p = 0.008) and diffuse
KDR
staining was associated with a higher risk of histologic transformation (p = 0.05). In DLBCL, high
KDR
expression predicted poor treatment response (p = 0.03) and had a significant adverse impact on OS (p < 0.001). In PTCL, diffuse tissue distribution of VEGF mRNA correlated with an unfavorable 5-year OS (p = 0.004).
...
PMID:Expression level, tissue distribution pattern, and prognostic impact of vascular endothelial growth factors VEGF and VEGF-C and their receptors Flt-1, KDR, and Flt-4 in different subtypes of non-Hodgkin lymphomas. 1970 53
The vascular endothelial growth factors are key mediators of angiogenesis and are also related to several physiological processes such as monocyte chemotaxis, dendritic cell development, hematopoietic stem cell survival, and many others. PlGF, VEGF, VEGFB,
VEGFC
and VEGFD were identified as members of the vascular endothelial growth factor family. They act by differential activation of three receptors: Flt-1,
KDR
and Flt-4. PlGF and VEGFB only activate Flt-1. VEGF activates both Flt-1 and
KDR
.
VEGFC
and VEGFD activate
KDR
and Flt-4. The available three dimensional structures of VEGF and PlGF, in complex with the domain-2 of Flt-1, show that both proteins bind in a very similar way to Flt-1 receptor. Here we construct the three dimensional model of the domain-2 of
KDR
receptor using the same domain of Flt-1 as template. We also construct the model complexes VEGF/
KDR
, VEGFB/Flt-1, VEGFB/
KDR
and PlGF/
KDR
. Molecular dynamics simulations with explicit solvent are carried out on eleven molecular systems: unbound VEGF, VEGF/Flt-1(D2), VEGF/
KDR
(D2), unbound PlGF, PlGF/Flt-1(D2), PlGF/
KDR
(D2), unbound VEGFB, VEGFB/Flt-1(D2), VEGFB/
KDR
(D2), unbound Flt-1(D2) and unbound
KDR
(D2). We analyze protein-protein interactions, shape complementarity, charge complementarity and hydrogen bonds. As a coarse estimation of the desolvation penalties, we assume a correlation to the number of hydrogen bonds with solvent molecules that are lost upon complex formation. The results herein are consistent with the experimental selectivity profile (VEGF being able to activate both Flt-1 and
KDR
receptors while VEGFB and PlGF being only able to activate Flt-1), and provide a collection of evidences sustaining the complementarity of polar interactions as the main responsible for protein recognition and selectivity.
...
PMID:Investigating the differential activation of vascular endothelial growth factor (VEGF) receptors. 1973 78
Emerging evidence indicates that the tight communication between vascular endothelial cells and mural cells using platelet-derived growth factor (PDGF)-BB is essential for capillary stabilization during the angiogenic process. However, little is known about the related regulator that determines PDGF-BB expression. Using murine models of therapeutic neovascularization, we here show that a typical lymphangiogenic factor, vascular endothelial growth factor (VEGF)-C, is an essential regulator determining PDGF-BB expression for vascular stabilization via a paracrine mode of action. The blockade of VEGF type 3 receptor (
VEGFR3
) using neutralizing antibody AFL-4 abrogated FGF-2-mediated limb salvage and blood flow recovery in severely ischemic hindlimb. Interestingly, inhibition of
VEGFR3
activity not only diminished lymphangiogenesis, but induced marked dilatation of capillary vessels, showing mural cell dissociation. In these mice,
VEGF-C
and PDGF-B were upregulated in the later phase after induced ischemia, on day 7, when exogenous FGF-2 expression had already declined, and blockade of
VEGFR3
or PDGF-BB activities diminished PDGF-B or
VEGF-C
expression, respectively. These results clearly indicate that
VEGF-C
is a critical mediator, not only for lymphangiogenesis, but also for capillary stabilization, the essential molecular mechanism of communication between endothelial cells and mural cells during neovascularization.
...
PMID:VEGF-C regulates lymphangiogenesis and capillary stability by regulation of PDGF-B. 1973 56
Angiogenesis, lymphangiogenesis and vascular maturation occur on a regular, physiological basis in human endometrium. These processes form part of a continuum of vascular remodelling involving numerous regulatory factors. Key factors include vascular endothelial growth factor (VEGF)A,
VEGFC
and VEGFD, and their associated receptors
VEGFR1
,
VEGFR2
and
VEGFR3
. A second group of vascular regulatory proteins belongs to the angiopoietin (ANG)-
TIE
system. Although members of the VEGF family and the ANG-
TIE
system are represented in the endometrium, our understanding of how these different molecules interact to regulate remodelling of the blood and lymphatic vasculature present in the endometrium is still limited. A review of the current information is provided.
...
PMID:Regulation of endometrial vascular remodelling: role of the vascular endothelial growth factor family and the angiopoietin-TIE signalling system. 1975 82
To date, there have been no detailed studies on the lymphatic system in the primate corpus luteum (CL); early reports suggested that the presence of this "secondary circulation" in luteal tissue is species-dependant. Therefore, studies were designed to determine if (a) lymphatic vessels exist, and (b) recently discovered lymphangiogenic factors and their receptor are expressed in the macaque CL during the menstrual cycle. Immunohistochemistry (IHC) detected the lymphatic endothelial cell marker, lymphatic vessel endothelial hyaluronan receptor 1 (LYVE1), in some endothelial cells and vessels within the ovarian stroma and theca layer of preovulatory follicles and in the CL. Dual fluorescent IHC demonstrated that LYVE1 co-localized with another lymphatic endothelial cell marker D2-40, but a blood vascular endothelial cell marker (von Willebrand Factor, VWF) was in different cells. The numbers and staining intensity of LYVE1-positive cells in the CL appeared to increase from early to mid luteal phase, and remained elevated thereafter. RT-PCR detected cDNA fragments for mRNAs encoding
VEGFC
, FIGF, and their receptor
FLT4
in CL. Real-time PCR analyses revealed similar patterns of
VEGFC
and
FLT4
expression during the luteal lifespan; mRNA levels increased (p < 0.05) from early to mid luteal phase and decreased (p < 0.05) by late luteal phase. In contrast, FIGF levels were elevated initially, declined (p < 0.05) at mid luteal phase, and then increased (p < 0.05) to very late luteal phase. The data strongly suggest that lymphatic vessels are present in the primate CL, and that the
VEGFC
/FIGF-
FLT4
system regulates lymphangiogenesis and luteal structure-function during the menstrual cycle.
...
PMID:Existence of the lymphatic system in the primate corpus luteum. 1977 4
Numerous past studies have suggested a critical role of the paracrine effect between tumor vascular endothelial growth factor (VEGF)-C and lymphatic FLT-4 in solid tumor-associated lymphangiogenesis. In contrast, the pathophysiological role of tumor cell-associated FLT-4 in tumor progression remains to be elucidated. Here, we investigated this role using a tumor implantation model. SAS cells, an oral squamous carcinoma cell line expressing both
VEGF-C
and FLT-4 but neither FLK-1/
KDR
nor VEGF-D were adopted for experiments. Stable transformants of dominant-negative (dn) SAS cells were established in which the cytoplasmic domain-deleted FLT-4 was exogenously overexpressed, which can lead to inactivation of endogenous FLT-4 through competitive antagonism and is associated with down-activation of endogenous FLT-4-related intracellular signals. In vitro and in vivo proliferation assays showed lower proliferative activity of dn-SAS cells. An immunohistochemical study revealed that the tumor lymphangiogenesis was significantly suppressed, and the level of human
VEGF-C
mRNA was significantly lower in dn-SAS cell-derived tumor tissues. Moreover, in vitro studies demonstrated that the significant suppression of
VEGF-C
and VEGF-A expression was evident in dn-SAS cells or wild-type SAS cells treated with either the FLT-4 kinase inhibitor MAZ51 or the inhibitor of FLT-4-related signals. These findings together suggested that the
VEGF-C
/FLT-4 autocrine loop in tumor cells was a potential enhancer system to promote cancer progression, and FLT-4 in tumor tissue might become an effective target for cancer therapy.
...
PMID:Autocrine loop between vascular endothelial growth factor (VEGF)-C and VEGF receptor-3 positively regulates tumor-associated lymphangiogenesis in oral squamoid cancer cells. 1977 39
Locoregional recurrence is the most common failure pattern in patients with head and neck squamous cell carcinoma (HNSCC). We retrospectively identified 41 HNSCC patients with locoregional relapse and used kinetic reverse transcription-polymerase chain reaction (kRT-PCR) in order to study fresh-frozen tumour messenger RNA (mRNA) levels of the Human Epidermal growth factor family members HER1-4, the Vascular Endothelial Growth Factors (VEGFs) A, B, C, D, and their receptors
VEGFR1
, 2, 3. High
VEGF-C
and
VEGFR3
tumour mRNA expression correlated with relapse beyond the primary locus (neck nodes or soft tissues, P < .05). Tumours with regional nodal involvement at diagnosis more often exhibited high transcriptional activity of
VEGFR1
and
VEGFR3
at the time of relapse (P < .05). At a median follow-up of 52 months from the time of locoregional recurrence, patients with high
VEGF-C
tumours at relapse had significantly poorer postrelapse progression-free survival (R-PFS, 5 versus 47 months, log-rank P = .052) and a trend for inferior postrelapse overall survival (R-OS, 22 versus 44 months, log-rank P = .076) in comparison to low
VEGF-C
tumours. Similar association with dismal outcome was seen for its receptor,
VEGFR3
tumoural mRNA levels (log-rank P = .060). In contrast, suppressed tumour transcription of VEGF-D was associated with poorer post-relapse survival, though statistical significance was not reached. Active transcription of the
VEGF-C
/
VEGFR3
axis in recurrent HNSCC is associated with failure at neck soft tissues/lymph nodes and inferior survival post-relapse.
...
PMID:Transcriptional activity of human epidermal growth factor receptor family and angiogenesis effectors in locoregionally recurrent head and neck squamous cell carcinoma and correlation with patient outcome. 1983 Feb 44
The VEGF family of angiogenic ligands consists of VEGFA, VEGFB,
VEGFC
, VEGFD and placenta growth factor, PlGF. These growth factors bind in an overlapping pattern to three receptor tyrosine kinases, denoted
VEGFR1
,
VEGFR2
and
VEGFR3
. Originally, VEGFA (the prototype VEGF) was described as a master regulator of vascular endothelial cell biology in vitro and in vivo, transducing its effect through
VEGFR2
. VEGFA, VEGFB and PlGF bind to
VEGFR1
, which is a negative regulator of endothelial cell function at least during embryogenesis.
VEGFC
and VEGFD were identified as lymphatic endothelial factors, acting via
VEGFR3
. With time, the very clear distinction between the roles of the VEGF ligands in angiogenesis/lymphangiogenesis has given way for a more complex pattern. It seems that the biology of the different
VEGFR2
and
VEGFR3
ligands overlaps quite extensively and that both receptor types contribute to angiogenesis as well as lymphangiogenesis. This paradigm shift in our understanding is due to the access to more sophisticated reagents and techniques revealing dynamic and plastic expression of ligands and receptors in different physiological and pathological conditions. Moreover, knowledge on the important role of VEGF coreceptors, the neuropilins, in regulating the responsiveness to VEGF has changed our perception on the mechanism of VEGF signal transduction. This review will primarily focus on the properties of VEGR3, its signal transduction and the resulting biology.
...
PMID:VEGF-mediated signal transduction in lymphatic endothelial cells. 2000 75
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