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)

Tissue hypoxia is a characteristic feature of malignant tumors and healing wounds, conditions that are associated with angiogenesis and with increased expression of vascular permeability factor (VPF; also called vascular endothelial growth factor, VEGF), a selective endothelial cell mitogen inducing microvascular hyperpermeability in vivo. We investigated the regulation of VPF/VEGF and its receptors by tissue hypoxia in normal human skin explants and in cultured skin cells in vitro. VPF/VEGF mRNA expression was dramatically upregulated in epidermal keratinocytes, dermal fibroblasts, and dermal microvessels after 24 h of skin organ culture. Hypoxia also enhanced the expression of VPF/VEGF in cultured epidermal keratinocytes and dermal microvascular endothelial cells (predominantly VPF/VEGF121 and VPF/VEGF165) and in dermal fibroblasts (additional upregulation of VPF/VEGF189). The expression of the VPF/VEGF receptor Flt-1 was selectively induced on dermal microvessels in skin explant cultures and in dermal endothelial cell monolayer cultures under hypoxic conditions. In contrast, the KDR receptor was downregulated by hypoxia. These results suggest that hypoxia likely regulates cutaneous angiogenesis and microvascular permeability by two distinct mechanisms: (i) Induction of VPF/VEGF in epithelial and mesenchymal cells, including endothelial cells. (ii) Differential modulation of VPF/VEGF receptor expression by microvascular endothelial cells. These mechanisms may be of importance in the pathogenesis of healing wounds and some malignant tumors that are commonly characterized by hypoxia and overexpression of VPF/VEGF.
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PMID:Hypoxia regulates the expression of vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) and its receptors in human skin. 903 22

Vascular permeability factor (VPF), also known as vascular endothelial growth factor (VEGF), is an angiogenic factor with important roles in tumor growth, wound healing, and inflammation. VPF/VEGF interacts with endothelial cells by way of two high-affinity receptor tyrosine kinases: flt-1 and KDR. The vast majority of published studies have described expression of the VPF/VEGF receptors only in endothelial cells, and the statement is frequently made that these receptors are endothelial-cell-specific. In this study, we detected mRNA for flt-1 and KDR by in situ hybridization in smooth muscle cells in sections of the wall of the uterus. To confirm these unexpected findings, smooth muscle cells from the uterus and, as a control, from the colon were isolated, characterized, and cultured. Both uterine and colonic smooth muscle cells in culture expressed VPF/VEGF, but only smooth muscle cells from the uterus expressed mRNA for flt-1 and KDR by Northern analysis and in situ hybridization. Cell culture extracts of uterine but not colonic smooth muscle cells were also positive for flt-1 by Western analysis. Moreover, cultured uterine but not clonic smooth muscle cells phosphorylated the flt-1 receptor and proliferated strongly in response to added VPF/VEGF. This is one of the first rigorous demonstrations that a normal cell type other than endothelial cells can express functional receptors for VPF/VEGF in vivo and in vitro, suggesting that VPF/VEGF may have important, previously unsuspected roles on cell types other than endothelium.
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PMID:Uterine smooth muscle cells express functional receptors (flt-1 and KDR) for vascular permeability factor/vascular endothelial growth factor. 904 61

We studied the correlation between microvessel density (MD) and gene expression of vascular endothelial growth factor (VEGF), its receptor (KDR) and basic fibroblast growth factor (bFGF) in 30 human renal cell carcinomas (RCCs). Gene expression assessed by Northern blot hybridization was quantified by a densitometer. Tissue localization of VEGF was assessed by anti VEGF-antiserum staining. MD was measured in tumor tissue sections stained for factor VIII-related antigen. VEGF gene was overexpressed in 18 (60%) of 30 RCCs. Cytoplasm of the tumor cells was stained positively for VEGF staining. Intratumoral expression of KDR gene significantly correlated with that of VEGF gene. bFGF gene expression was very weak, and no tumor overexpressed this gene. The MD in the tumors significantly correlated with the expression intensity of VEGF gene and KDR gene. These results suggest that VEGF contributes to neovascularization of RCCs through a paracrine mechanism, and could be used as a relevant indicator of angiogenesis.
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PMID:[Correlation of neovascularization and vascular endothelial growth factor in human renal cell carcinoma]. 906 73

Neonatal hemangioma is a common benign proliferation of unorganized structures containing stromal and capillary endothelial cells. We tested the hypothesis that such cell proliferation might result from the release by stromal cells of endothelial cell mitogens. Stromal cells cultured from biopsies of surgically removed life-threatening hemangiomas released an endothelial cell mitogen in vitro that was indistinguishable from vascular endothelial growth factor (VEGF) based on independent criteria such as affinity chromatography for heparin or anti-VEGF IgG and radioreceptor assay. A functional product of the KDR gene encoding a cognate VEGF receptor was also expressed by these stromal cells. Transient transfection with antisense oligonucleotides targeted on the translation initiation codon of KDR abolished its tyrosine phosphorylation and mitogenic response of neonatal hemangioma cells to VEGF, confirming the existence of an autocrine loop of proliferation. When grafted in nude mice, these stromal cells elicited an angiogenic response that was blocked by neutralizing anti-VEGF IgG. These results might provide a clue to the importance of stromal cells in the pathogeny of neonatal hemangiomas.
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PMID:Vascular endothelial growth factor confers a growth advantage in vitro and in vivo to stromal cells cultured from neonatal hemangiomas. 909 88

Angiogenesis plays a pivotal role in gastric ulcer repair. Several growth factors are involved in angiogenesis, and of these, vascular endothelial growth factor (VEGF) has received considerable attention, since it is the only factor that specifically acts on endothelial cells. However, the role of VEGF in gastric ulcer repair is not known. In the present study, we demonstrate the specific expression of VEGF at the gastric ulcer margin, using immunohistochemistry and RT-PCR. The specific receptors of VEGF, flt-1 and KDR were also detected in gastric mucosa. We further demonstrate the expression of VEGF by cultured human gastric fibroblasts which is enhanced by tumor necrosis factor-alpha. These data suggest that VEGF may play a role in angiogenesis in the process of gastric ulcer healing.
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PMID:Expression of vascular endothelial growth factor at the human gastric ulcer margin and in cultured gastric fibroblasts: a new angiogenic factor for gastric ulcer healing. 917

Human osteoblast-like cells (HOB) produce vascular endothelial growth factor (VEGF), the steady state level of which is stimulated by 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3]. As osteoblasts and endothelial cells are proximally located in skeletal tissue, we investigated the anabolic effects of 1,25-(OH)2D3 and VEGF on HOB cocultured with endothelial cells. When HOB with high alkaline phosphatase (Al-P) activity and human umbilical vein endothelial cells (HUVEC) with little activity were cultured together, Al-P activity increased, accompanied by an increase in cell number. When HOB and HUVEC were cultured separately, 1,25-(OH)2D3 did not directly stimulate [3H]thymidine incorporation into HUVEC, but stimulated it in the presence of HOB. VEGF did not directly stimulate the Al-P activity of HOB but stimulated it in the presence of HUVEC. The conditioned medium of HOB stimulated the proliferation of HUVEC, and this was partially blocked by anti-VEGF antibody. Conversely, the conditioned medium of HUVEC increased Al-P activity and [3H]thymidine incorporation into HOB, and this was partially blocked by antiinsulin-like growth factor I antibody and BQ-123, a specific antagonist of the endothelin-1 (ET-1) receptor. 1,25-(OH)2D3 stimulated the release of VEGF and ET-1 from HOB and HUVEC, respectively. Furthermore, the 1,25-(OH)2D3-induced release of VEGF was enhanced in HOB cocultured with HUVEC. A quantitative reverse transcription-PCR study revealed that genes for VEGF receptors (Flt-1 and KDR) were expressed in HUVEC, but not in HOB, and that 1,25-(OH)2D3 increased the levels of expression of VEGF receptor genes in endothelial cells only when cocultured with HOB. In summary, we demonstrated that 1,25-(OH)2D3 exerts an anabolic effect on osteoblasts by enhancing their production of VEGF, which stimulates its receptors on endothelial cells, followed by increased production of osteotropic growth factors, such as insulin-like growth factor I and ET-1. These in vitro findings suggest that the VEGF/VEGF receptor system may be involved in both bone formation and bone remodeling in vivo.
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PMID:Anabolic effects of 1,25-dihydroxyvitamin D3 on osteoblasts are enhanced by vascular endothelial growth factor produced by osteoblasts and by growth factors produced by endothelial cells. 920 40

Estrogens, which have been associated with several types of human and animal cancers, can induce tumor angiogenesis in the pituitary of Fischer 344 rats. The mechanistic details of tumor angiogenesis induction, during estrogen carcinogenesis, are still unknown. To elucidate the role of estrogen in the regulation of tumor angiogenesis in the pituitary of female rats, the density of blood vessels was analysed using factor VIII related antigen (FVIIIRAg) immunohistochemistry and the expression of vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) was examined by Western blot and immunohistochemical analysis. The expression of VEGF receptor (VEGFR-2/Flk-1/KDR) was also examined by immunohistochemistry. The results demonstrated that 17beta-estradiol (E2) induces neovascularization, as well as the growth and enlargement of blood vessels after 7 days of exposure. The high tumor angiogenic potential was associated with an elevated VEGF/VPF protein expression in the E2 exposed pituitary of ovariectomized (OVEX) rats. VEGF/VPF and FVIIIRAg immunohistochemistry and endothelial specific lectin (UEA1) binding studies, indicate that the elevation of VEGF protein expression initially occurred in both blood vessels and non-endothelial cells. After 15 days of E2 exposure, VEGF/VPF protein expression, in the non-endothelial cell population, sharply declined and was restricted to the blood vessels. The function of non-endothelial-derived VEGF is not clear. Furthermore, immunohistochemical studies demonstrated that VEGFR-2 (flk-1/KDR), expression was elevated significantly in the endothelial cells of microblood vessels after 7 days of E2 exposure. These findings suggest that over expression of VEGF and its receptor (VEGFR-2) may play an important role in the initial step of the regulation of estrogen induced tumor angiogenesis in the rat pituitary.
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PMID:Over expression of vascular endothelial growth factor and its receptor during the development of estrogen-induced rat pituitary tumors may mediate estrogen-initiated tumor angiogenesis. 921 97

Growth factors of the VEGF (vascular endothelial growth factor) family comprises 4 well characterized members that play a crucial role in the biology of blood vessels. They interact with 3 high affinity tyrosine kinase receptors (FLT1/VEGFR1, FLK1/KDR/VEGFR2, FLT4/VEGFR3). VEGF/VEGFR interactions have essential functions in blood vessel formation during development, specific phases of adult life, and in some pathological processes with neo-vascularization such as tumor growth.
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PMID:[Receptors for factors of the VEGF (Vascular Endothelial Growth Family)]. 923 64

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.
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PMID:Characterization of murine Flt4 ligand/VEGF-C. 924 16

Expression of vascular endothelial growth factor (VEGF), also known as vascular permeability factor (VPF), and its receptors Flt-1 and KDR (Flk-1 in mouse) and their localization in the human testis were analyzed by means of reverse transcriptase-polymerase chain reaction (RT-PCR), Western blotting and immunohistochemistry. VEGF mRNA was detected in the human testicular tissue and in fragments of seminiferous tubules by means of RT-PCR, while fragments of blood vessels isolated from testes were negative. Western blotting procedure using a specific VEGF antibody, revealed two protein bands corresponding to 24 and 49 kDa in the extracts prepared from the whole testis and in the seminiferous tubules while no such bands were found in isolated fragments of human testicular blood vessels. Also immunohistochemically, human testicular blood vessels show no VEGF immunoreactivity, while Leydig cells and Sertoli cells were positive. The mRNA of the VEGF receptor Flt-1 was found to be expressed in human testicular tissue, in isolated fragments of testicular blood vessels and in seminiferous tubules as determined by RT-PCR procedure. In accordance with these results, the Flt-1 protein was immunohistochemically localized in Leydig, Sertoli and perivascular cells. Endothelial cells of certain segments of human testicular microvasculature also stained positive for Flt-1. Expression of VEGF receptor, KDR, could be demonstrated in human testicular tissue, in isolated seminiferous tubules and in isolated fragments of human testicular blood vessels by means of RT-PCR. Immunohistochemically, the KDR protein was localized in endothelial cells and perivascular cells of capillaries within the lamina propria of seminiferous tubules. Leydig cells and Sertoli cells show KDR immunoreactivity, too. Thus we demonstrate the presence of both types of VEGF receptors Flt-1 and KDR on Leydig as well as on Sertoli cells which are normal non-endothelial cells, suggesting hitherto unrecognized and novel functions for such receptors. The results obtained permit us to suggest VEGF as a paracrine mitogenic and angiogenic factor, responsible for modulating the capillarization of the human testicular tissue and maintaining the functions of testicular microvasculature. VEGF may also influence the permeability of capillaries passing through the groups of Leydig cells and those localized within the lamina propria of human seminiferous tubules. The differences in the expression pattern of the VEGF receptors in the human testicular tissue probably reflect different VEGF effects in different compartments of human testis.
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PMID:Vascular endothelial growth factor and its receptors in normal human testicular tissue. 925 59


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