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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular hyperpermeability and excessive neovascularization are hallmarks of early and late vascular endothelial cell dysfunction induced by diabetes. Vascular endothelial growth factor (VEGF) appears to be an important mediator for these early and late vascular changes. We reported previously, using skin chambers mounted on backs of SD rats, that neutralizing antibodies directed against VEGF blocked vascular permeability and blood flow changes induced by elevated tissue glucose and sorbitol levels in a dosage-dependent manner. We report in this study, using the same skin chamber model and neutralizing antibodies directed against basic fibroblast growth factor (FGF-2), that another member of the heparin-binding growth factor family also mediates glucose- and sorbitol-induced vascular permeability and blood flow increases. In addition, we show that 1) TBC1635, a novel heparin-binding growth factor antagonist, blocks the vascular hyperpermeability and blood flow increases induced by elevated tissue levels of glucose and sorbitol and by topical application of VEGF and FGF-2 to granulation tissue in skin chambers, and 2) suramin, a commercially available growth factor antagonist, blocks glucose-induced vascular dysfunction. These results suggest an early role for heparin-binding growth factors in the vascular dysfunction caused by excessive glucose metabolism, possibly via the sorbitol pathway.
Diabetes 1998 Nov
PMID:Role for heparin-binding growth factors in glucose-induced vascular dysfunction. 979 47

In adults, marked angiogenesis takes place only during the female reproductive cycles, during wound healing, and accompanying some disease processes, such as tumor development. Vascular endothelial growth factor (VEGF) is a secreted, endothelial cell-specific growth factor, which is induced by tissue hypoxia and is angiogenic in vivo. We measured serum VEGF (S-VEGF) concentrations by ELISA in patients with a variety of types of cancer, as well as in healthy volunteers, and in patients with diabetes or rheumatoid arthritis. Elevated S-VEGF concentrations were found in patients with locoregional (n = 39; median, 158 pg/ml; range, 8-664 pg/ml) or disseminated (n = 58; median, 214 pg/ml; range, 17-1711 pg/ml) cancer in comparison to individuals without cancer (n = 113; median, 17 pg/ml; range, 1-177 pg/ml; P < 0.0001 for both comparisons). Values higher than 200 pg/ml were observed in 74% of patients with untreated metastatic cancer, and high serum levels were measured regardless of the histological type of cancer. S-VEGF levels were found to be higher in untreated patients with disseminated cancer than in those with local cancer (P = 0.006), and patients undergoing cancer therapy had lower values than those without cancer therapy (P = 0.03). The results indicate that both patients with locoregional cancer and patients with disseminated cancer may have elevated S-VEGF levels, regardless of the histological type of cancer, and that S-VEGF is often elevated in cancer with distant metastases.
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PMID:Serum vascular endothelial growth factor is often elevated in disseminated cancer. 981 32

The formation of new microvasculature by capillary sprouting at the site of islet transplantation is crucial for the long-term survival and function of the graft. Vascular endothelial growth factor (VEGF), an endothelial cell-specific mitogen with potent angiogenic and vascular permeability-inducing properties, may be a key factor in modulating the revascularization of islets after transplantation. In this study, we examined the gene expression of VEGF mRNA in three tumor cell lines and in isolated whole and dispersed rat islets in vitro by Northern blot hybridization in normoxic (5% CO2, 95% humidified air) and hypoxic (1% O2, 5% CO2, 94% N2) culture conditions. Increased expression of VEGF mRNA was observed in beta-TC3, RAW 264.7, and IC-21 tumor cell lines when subjected to hypoxia. With isolated whole islets in normoxic culture, a threefold increase in VEGF mRNA (P < 0.001) was seen at 48 h as compared with freshly isolated islets. This response was similar to the 3.8-fold increase observed with islets subjected to hypoxia. Dispersed rat islet cell clusters cultured on Matrigel for 24 h under hypoxic conditions showed a 3.4-fold increase (P < 0.01) in VEGF mRNA compared with those cultured in normoxia. This correlated with increased VEGF secretion as determined by enzyme-linked immunosorbent assay. Immunohistochemical studies revealed the presence of increased expression of VEGF protein near the center of islets after 24 h of normoxic culture. Islet cell clusters on Matrigel showed intense cellular localization of VEGF in both beta-cells and non-beta-cells. These findings suggest that rat islet cells, when subjected to hypoxia during the first few days after transplantation, may act as a major source of VEGF, thereby initiating revascularization and maintaining the vascular permeability of the grafted islets.
Diabetes 1998 Dec
PMID:Hypoxia induces vascular endothelial growth factor gene and protein expression in cultured rat islet cells. 983 21

Vascular endothelial growth factor (VEGF) has been suggested to play a role in the pathogenesis of diabetic vascular complications. In the present study, we investigated whether expression of monocyte chemoattractant protein-1 (MCP-1), a chemokine that has been proposed to recruit leukocytes to sites of inflammation, neovascularization, and vascular injury, can be modulated by VEGF in bovine retinal microvascular endothelial cells (BRECs). VEGF induced expression of MCP-1 mRNA in BRECs in a concentration- and time-dependent manner. Secretion of MCP-1 into the culture medium of BRECs treated with VEGF for 24 h was increased by 2.2-fold compared with the control. Inhibitors of transcription factor NF-kappaB, N-alpha-tosyl-L-lysine chloromethylketone (TLCK) and N-acetylcysteine (NAC), as well as an inhibitor of the extracellular signal-regulated kinase (ERK) pathway, PD 98059, attenuated VEGF-induced expression of MCP-1 mRNA. Using electrophoretic gel mobility shift assay, we observed that VEGF stimulated binding activity of NF-kappaB. VEGF-induced NF-kappaB activation was inhibited by TLCK and NAC, but not by PD 98059. Binding activity of transcription factor AP-1, which is suggested to regulate induction of the MCP-1 gene together with NF-kappaB, was also stimulated by VEGF. PD 98059 inhibited the VEGF-induced activation of AP-1. These results indicate that VEGF induces MCP-1 expression in BRECs most likely by activating NF-kappaB and AP-1 via ERK-independent and -dependent pathways. Activation of NF-kappaB and induction of MCP-1 by VEGF in microvascular endothelial cells may contribute to the development of diabetic vascular complications.
Diabetes 1999 May
PMID:Vascular endothelial growth factor activates nuclear factor-kappaB and induces monocyte chemoattractant protein-1 in bovine retinal endothelial cells. 1033 20

Vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) are angiogenic molecules whose combined mitogenic activity is potently synergistic. However, the molecular mechanism underlying this synergy is incompletely understood. We examined whether VEGF and bFGF affect expression of each other or alter expression of the VEGF receptor KDR in retinal capillary endothelial cells. In addition, we investigated the intracellular signaling mechanisms involved in this response. VEGF-induced [3H]thymidine uptake was tightly correlated with KDR mRNA and protein concentrations, suggesting that increased KDR expression might account for VEGF's synergistic activity in the presence of bFGF. bFGF (10 ng/ml) induced KDR mRNA expression within 4 h and attained a 4.0-fold increase after 24 h. KDR protein expression was increased 7.5-fold after 48 h. VEGF (= 50 ng/ml) did not alter bFGF, VEGF, or KDR mRNA expression under serum-deprived conditions. In contrast, VEGF increased KDR mRNA expression 87% under growth conditions and 2.9-fold under serum-deprived conditions in the presence of bFGF. The protein kinase C (PKC) agonist phorbol myristate acetate (PMA) induced KDR mRNA expression 5.1-fold at 100 nmol/l. bFGF increased p44/p42 mitogen-activated protein kinase (MAPK) phosphorylation within 5 min, reaching a maximum within 15 min and remaining significantly elevated for >6 h. bFGF-induced MAPK phosphorylation and KDR mRNA expression were almost completely inhibited by 5 micromol/l GFX, a non-isoform-selective PKC inhibitor. MAPK inhibitor PD98059 reduced KDR mRNA expression 72% at concentrations that inhibited bFGF-induced MAPK phosphorylation 100%, suggesting that pathways in addition to MAPK might also be involved. Inhibitors of the beta isoform of PKC (LY333531), protein kinase A (PKA) (H89), and phosphotidylinositol (PI) 3 kinase (wortmannin) had no significant effect. These data suggest that bFGF stimulates KDR expression through a PKC and p44/p42 MAPK-dependent pathway not primarily involving the beta isoform of PKC, PKA, or PI-3 kinase. Since bFGF induces VEGF expression and since increased KDR expression potentiates VEGF action, resulting in additional KDR expression and marked mitogenic activity, these data provide a novel mechanistic explanation for the angiogenic synergy between VEGF and bFGF.
Diabetes 1999 May
PMID:Basic fibroblast growth factor induces expression of VEGF receptor KDR through a protein kinase C and p44/p42 mitogen-activated protein kinase-dependent pathway. 1033 22

We investigated the effect of diabetes-associated growth factors on the expression of insulin-like growth factor-I (IGF-I) and IGF-binding proteins (IGFBPs) in cultured endothelial cells from bovine aorta. Gene expression was measured by solution hybridization, and proteins were measured by enzyme-linked immunosorbent assay, RIA, or Western blot. The cells expressed messenger RNA (mRNA) for IGFBP-2 through -6 and IGFBP-2 through -5 proteins were detected in conditioned medium. Vascular endothelial growth factor inhibited IGFBP-3 mRNA (P < 0.01) and protein expression and increased IGFBP-5 mRNA (P < 0.001) and protein. Transforming growth factor-beta1 inhibited IGFBP-3 (P < 0.01), IGFBP-4 (P < 0.01), and IGF-I mRNA expression, whereas at the protein level only IGFBP-3 was significantly decreased. IGF-I, insulin, or angiotensin II did not affect IGF-I or IGFBP mRNA expression. At the protein level, IGF-I clearly increased IGFBP-5 levels in conditioned medium. In conclusion, vascular endothelial growth factor and transforming growth factor-beta1 regulate IGFBP expression in bovine aortic endothelial cells. These observations provide a new aspect of regulation for the IGF-system in macrovascular endothelium, with possible implications for subendothelial smooth muscle cells and development of diabetic angiopathy.
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PMID:Vascular endothelial growth factor and transforming growth factor-beta1 regulate the expression of insulin-like growth factor-binding protein-3, -4, and -5 in large vessel endothelial cells. 1083 Feb 91

Some patients on long-term peritoneal dialysis (PD) develop a hyperpermeability state, owing to peritoneal neoangiogenesis. Vascular endothelial growth factor (VEGF), a potent mitogen for endothelial cells, has been implicated in most diseases characterized by microvascular neoformation. Erythropoietin (EPO) is able to induce endothelial proliferation in vitro. Our aim was to elucidate whether VEGF serum levels are influenced by EPO treatment, and whether VEGF serum level maintains a relationship with peritoneal transport data. We analyzed serum levels of VEGF in 35 PD patients (18 males, 17 females). Mean age was 58 years, with a mean time on PD of 98 +/- 75 months. Of the 35 patients, 19 were on automated peritoneal dialysis, and 16 were on continuous ambulatory peritoneal dialysis. Seven patients had diabetes. Peritoneal transport parameters were: urea mass transfer coefficient (MTC), 19.5 +/- 6.6 mL/min; creatinine MTC, 9.9 +/- 4.7 mL/min; net ultrafiltration, 491 +/- 166 mL per 4-hour dwell. Twenty seven patients were under therapy with recombinant human erythropoietin (rHuEPO). Mean serum VEGF levels were 347 +/- 203 pg/mL (range 66-857 pg/mL), with most patients in the normal range (60-700 pg/mL). VEGF levels did not correlate with age, sex, primary renal disease, diabetes, type of PD, time on PD, peritonitis, and cumulative glucose load. We found no correlation with urea MTC, creatinine MTC, ultrafiltration rate, or protein effluent levels. However, a significant negative correlation with residual renal function was seen (r = -0.39, p < 0.05). Patients treated with rHuEPO showed significantly higher serum levels of VEGF than non treated patients (375 +/- 220 pg/mL vs 251 +/- 75 pg/mL, p < 0.05), although they had similar residual renal function. We conclude that increased serum VEGF levels are associated with EPO treatment. Consequently, VEGF might have a role in the EPO effects found in PD patients. Whether both agents are related to peritoneal neoangiogenesis requires further research.
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PMID:Serum level of vascular endothelial growth factor is influenced by erythropoietin treatment in peritoneal dialysis patients. (Grupo de Estudios Peritoneales de Madrid). 1104 67

Vascular endothelial growth factor (VEGF) is a cytokine that potently stimulates angiogenesis, microvascular hyperpermeability, and endothelium-dependent vasodilation, effects that are largely mediated by endothelial nitric oxide synthase (eNOS). The expression of VEGF is pronounced in glomerular visceral epithelial cells, but its function in renal physiology and pathophysiology is unknown. VEGF expression is upregulated by high ambient glucose concentrations in several cell types in vitro and in glomeruli of diabetic rats. To assess the role of VEGF in the pathophysiology of early renal dysfunction in diabetes, monoclonal anti-VEGF antibodies (Ab) were administered to control and streptozotocin-induced diabetic rats for 6 wk after induction of diabetes. Based on in vitro binding studies, an adequate serum VEGF inhibitory activity was achieved during the entire course of anti-VEGF Ab administration. Anti-VEGF Ab treatment but not administration of isotype-matched control Ab decreased hyperfiltration, albuminuria, and glomerular hypertrophy in diabetic rats. VEGF blockade also prevented the upregulation of eNOS expression in glomerular capillary endothelial cells of diabetic rats. Antagonism of VEGF had no effect on GFR and glomerular volume in control rats. These results identify VEGF as a pathogenetic link between hyperglycemia and early renal dysfunction in diabetes. Targeting VEGF may prove useful as a therapeutic strategy for the treatment of early diabetic nephropathy.
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PMID:Antibodies against vascular endothelial growth factor improve early renal dysfunction in experimental diabetes. 1131 58

Angiogenesis is an essential biological process not only in embryogenesis but also in the progression of a variety of major diseases such as cancer, diabetes and inflammation. Vascular endothelial growth factor (VEGF) family and its receptor system has been shown to be the fundamental regulator in the cell signaling of angiogenesis. Other systems, Angiopoietin-Tie and EphrinB2-Eph4B etc. are also involved in and cooperate with VEGF system to establish the dynamic blood vessel structures. VEGF receptor belongs to PDGF receptor super-gene family, and carries seven Ig-domains in the extracellular region and a tyrosine kinase domain in the intracellular region. Three members of VEGF receptor family, Flt-1, KDR/Flk-1 and Flt-4, have unique characteristics in terms of the signal transduction, and regulate angiogenesis, lymphangiongenesis and vascular permeability. Further studies on VEGF-VEGF receptor system may significantly facilitate our understanding on the physiological as well as pathological vascular systems in the body and the development of new strategies to control and suppress the major diseases in humans.
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PMID:Structure and function of VEGF/VEGF-receptor system involved in angiogenesis. 1134 1

Vascular endothelial growth factor (VEGF) is the most important factor in the regulation of angiogenesis. Associated with luteinisation and formation of corpus luteum (CL) are alterations in luteal vascularity. The aim of the study was to test under in vitro conditions the stimulation of VEGF and progesterone (P) secretion of bovine granulosa cells by LH, IGF1 (insulin like growth factor) or by factors known to be produced by luteinised granulosa cells or in the early CL. Localisation of VEGF protein in preovulatory follicle and early CL were achieved by immunohistochemistry. LH and IGF1 stimulated dose dependently and significantly P and VEGF when tested alone. Both hormones added simultaneously had clear additive and even more interesting far greater (synergistic) effects on P with LH (0.1 ng/ml) plus 5 or 10 ng IGF1. In contrast, VEGF was stimulated only additively with 0.1 ng/ml of LH plus 5 or 10 ng IGF1. But with the higher dose of LH (1 ng/ml) additionally to the additive effect a tendency for a synergistic action (which was significant with 1 ng LH plus 5 ng IGF1/ml) was observed. Endothelin, oxytocin, progesterone, atrial natiuretic peptide, angiotensin II, prostaglandin F2 alpha alpha, prostaglandin E2, cortisol, fibroblast growth factor 1 and 2 and growth hormone showed no effect neither on P nor on VEGF. Tumour necrosis factor alpha (TNF alpha) stimulated (P < 0.05) VEGF with 10 or 100 ng/ml but not P. TPA (12-0 tetra decaenoyl-phorbol-13-acetate) or Ca2+ ionophore did not show a stimulatory effect in contrast to forskolin which increased P and VEGF secretion dose dependently. The VEGF protein was localised in follicle (granulosa cells, theca cells and some endothelial cells) and early (about 24 h after ovulation) CL (granulosa-lutein cells and endothelial cells). The same signalling pathway by stimulation of cAMP production and proteinkinase A activation for luteinisation and neo-vascularisation demonstrates a close temporal and spatial relationship of these normal physiological processes.
Exp Clin Endocrinol Diabetes 2001
PMID:Stimulatory and synergistic effects of luteinising hormone and insulin like growth factor 1 on the secretion of vascular endothelial growth factor and progesterone of cultured bovine granulosa cells. 1140 98


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