UMLS:C0042373 - FACTA Search

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Query: UMLS:C0042373 (vascular disease)
17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Rabbit aortic rings were used to test the possible contractile effects of growth factors and their interaction with other stimuli. A rapid potentiation of kinin-induced contraction by epidermal growth factor (EGF) has been previously observed in this preparation. 2. EGF (5-1500 ng ml-1) and the isoform BB of platelet-derived growth factor (PDGF-BB; 1-126 ng ml-1) exerted modest but sustained contractile effects in rabbit aortic rings. 3. EGF pretreatment (100 ng ml-1) potentiated the contractile responses to des-Arg9-bradykinin (des-Arg9-BK), an agonist of the B1 receptors for kinin found in this preparation, and to human alpha-thrombin but not to several other contractile stimuli. The interaction appeared also relatively selective for the growth factor, because PDGF-BB pretreatment potentiated neither des-Arg9-BK nor alpha-thrombin-induced contraction. 4. EGF, applied on a contraction plateau induced by des-Arg9-BK or alpha-thrombin, exerted a synergistic contractile effect, with a time course and a half-maximal concentration for EGF-induced contraction similar to the ones recorded in resting tissues (between 67 and 220 ng ml-1, depending on the series of experiments). 5. The direct or synergistic contractile effects of EGF were not modified by the removal of the endothelium or by treatment with indomethacin. However, the tyrosine kinase inhibitors, erbstatin or genistein, inhibited the synergistic effect of EGF with des-Arg9-BK. The small direct contractile effect of EGF was significantly reduced by genistein. The synergistic effect of EGF with alpha-thrombin was comparatively more resistant to the tested tyrosine kinase inhibitors.6. An inhibitor of the catalytic activity of alpha-thrombin, D-Phe-Pro-Arg-CH2Cl, prevented the contractile effect of x-thrombin in the aortic rings. In this system, a tetradecapeptide derived from a recently cloned alpha-thrombin receptor was a contractile stimulus at and above 10 microM. Consistent with the hypothesis that this peptide could behave as an alpha-thrombin receptor agonist, its contractile effect was potentiated by EGF pretreatment. Pharmacological evidence was provided to show that the receptors for alpha-thrombin were distinct from the B, receptors for kinins. Together, these findings suggest that a model of a cleavable receptor recently elaborated to account for alpha-thrombin effects on human platelets is valid in blood-free vascular smooth muscle preparations such as the rabbit isolated aorta.7. The synergism between EGF and kinin- or alpha-thrombin-induced contractions constitutes a novel mode of myotropic action for growth factors. The synergism is probably dependent on the tyrosine kinase activity of receptors for EGF. These combinations of stimuli could occur in various types of vascular disease and account for abnormal vascular reactivity often associated with atheroma lesions or vascular wound healing.
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PMID:Synergism between the contractile effect of epidermal growth factor and that of des-Arg9-bradykinin or of alpha-thrombin in rabbit aortic rings. 150 21

Recent data suggest that uric acid is generated locally in the vessel wall by the action of xanthine oxidase. This enzyme, activated during ischemia/reperfusion by proteolytic conversion of xanthine dehydrogenase, catalyzes the oxidation of xanthine, thereby generating free radicals and uric acid. Because of the potential role of ischemia/reperfusion in vascular disease, we studied the effects of uric acid on rat aortic vascular smooth muscle cell (VSMC) growth. Uric acid stimulated VSMC DNA synthesis, as measured by [3H]thymidine incorporation, in a concentration-dependent manner with half-maximal activity at 150 microM. Maximal induction of DNA synthesis by uric acid (250 microM) was approximately 70% of 10% calf serum and equal to 10 ng/ml platelet-derived growth factor (PDGF) AB or 20 ng/ml fibroblast growth factor. Neither uric acid precursors (xanthine and hypoxanthine) nor antioxidants (ascorbic acid, glutathione, and alpha-tocopherol) were mitogenic for VSMC. Uric acid was mitogenic for VSMC but not for fibroblasts or renal epithelial cells. The time course for uric acid stimulation of VSMC growth was slower than serum, suggesting induction of an autocrine growth mechanism. Exposure of quiescent VSMC to uric acid stimulated accumulation of PDGF A-chain mRNA (greater than 5-fold at 8 h) and secretion of PDGF-like material in conditioned medium (greater than 10-fold at 24 h). Uric acid-induced [3H]thymidine incorporation was markedly inhibited by incubation with anti-PDGF A-chain polyclonal antibodies. Thus uric acid stimulates VSMC growth via an autocrine mechanism involving PDGF A-chain. These findings suggest that generation of uric acid during ischemia/reperfusion contributes to atherogenesis and intimal proliferation following arterial injury.
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PMID:Uric acid stimulates vascular smooth muscle cell proliferation by increasing platelet-derived growth factor A-chain expression. 202 72

Angiotensin (Ang) II stimulates hypertrophic growth of vascular smooth muscle cells (VSMC). Accompanying this growth is the induction of the expression of growth-related protooncogenes (c-fos, c-jun, and c-myc), as well as the synthesis of the autocrine growth factors, such as PDGF-A and TGF-beta 1. In this study, we demonstrate further that Ang II also induces the synthesis of basic fibroblast growth factor (bFGF), a potent mitogen for VSMC. To examine how these factors interact to modulate the growth response of VSMC to Ang II, we used antisense oligomers to determine the relative contribution of these three factors. Treatment of confluent, quiescent smooth muscle cells with specific antisense oligomers complementary to bFGF, PDGF-A, and TGF-beta 1 efficiently inhibited the syntheses of these factors. Our results demonstrate that in these VSMC, TGF-beta 1 affects a key antiproliferative action, modulating the mitogenic properties of bFGF. Autocrine PDGF exerts only a minimal effect on DNA synthesis. An imbalance in these signals activated by Ang II may result in abnormal VSMC growth leading to the development of vascular disease.
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PMID:Multiple autocrine growth factors modulate vascular smooth muscle cell growth response to angiotensin II. 848 85

Lineage analysis studies in the avian embryo have identified two types of smooth muscle cells (SMCs) in the tunica media of large elastic arteries; one that originates within the cardiac neural crest and is ectoderm in origin (Ect) and another that arises from local mesenchyme of mesodermal origin (Mes). To determine if differences in primary embryonic lineage can give rise to SMCs with stable differences in growth and differentiation properties, we isolated Ect and Mes SMCs from the Day 14 chick embryo aorta. We report that despite different primary embryonic origins, Ect and Mes SMCs express nearly identical levels of seven SMC differentiation markers in vitro, consistent with their common smooth muscle developmental fates in vivo. By contrast, Ect SMCs displayed a greater capacity for growth in serum-free medium than Mes SMCs, but only under conditions permitting short-range cell-cell interactions. Most of the peptide growth factors tested that might account for serum-independent growth (PDGF-AA, PDGF-BB, basic FGF, EGF, or activin) stimulated DNA synthesis to similar extents in Ect and Mes SMCs. However, we found dramatic, lineage-dependent differences in SMC responses to transforming growth factor-beta (TGF-beta). Exposure to TGF-beta1 (0.4 to 400 pmole/liter) consistently increased DNA synthesis in Ect SMCs, whereas in paired cultures of Mes SMCs, TGF-beta1 was growth inhibitory. In SMC cultures transfected with p3TP-lux, a luciferase reporter controlled by the TGF-beta1-response elements of the human PAI-1 promoter, TGF-beta1 (120 pM) produced 12 ± 2-fold increases in luciferase activity in Ect SMCs and only 3 ± 1.5-fold increases in Mes SMCs. Analysis of TGF-beta receptor phenotypes by Northern blot, radioligand binding, and crosslinking assays showed that Ect and Mes SMCs expressed similar levels of types I, II, and III TGF-beta receptors. However, using a polyclonal antibody specific for the chick type II TGF-beta receptor subunit, we demonstrate that Mes SMCs produce a fully glycosylated form of this protein while Ect SMCs elaborate only an unglycosylated type II TGF-beta receptor. These results show that Ect and Mes SMCs exhibit lineage-dependent differences in growth and receptor-mediated transcriptional responses to at least one important class of SMC morphogens and growth modifiers, e.g., the TGF-betas. Our findings suggest that different SMC populations within a common vessel wall may respond in lineage-dependent ways to signals that direct formation of the tunica media in the embryo and to factors involved in the progression of vascular disease later in life.
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PMID:Smooth Muscle Lineage Diversity in the Chick Embryo 881 40

Lineage analysis studies in the avian embryo have identified two types of smooth muscle cells (SMCs) in the tunica media of large elastic arteries; one that originates within the cardiac neural crest and is ectoderm in origin (Ect) and another that arises from local mesenchyme of mesodermal origin (Mes). To determine if differences in primary embryonic lineage can give rise to SMCs with stable differences in growth and differentiation properties, we isolated Ect and Mes SMCs from the Day 14 chick embryo aorta. We report that despite different primary embryonic origins, Ect and Mes SMCs express nearly identical levels of seven SMC differentiation markers in vitro, consistent with their common smooth muscle developmental fates in vivo. By contrast, Ect SMCs displayed a greater capacity for growth in serum-free medium than Mes SMCs, but only under conditions permitting short-range cell-cell interactions. Most of the peptide growth factors tested that might account for serum-independent growth (PDGF-AA, PDGF-BB, basic FGF, EGF, or activin) stimulated DNA synthesis to similar extents in Ect and Mes SMCs. However, we found dramatic, lineage-dependent differences in SMC responses to transforming growth factor-beta (TGF-beta). Exposure to TGF-beta 1 (0.4 to 400 pmole/liter) consistently increased DNA synthesis in Ect SMCs, whereas in paired cultures of Mes SMCs, TGF-beta 1 was growth inhibitory. In SMC cultures transfected with p3TP-lux, a luciferase reporter controlled by the TGF-beta 1-response elements of the human PAI-1 promoter, TGF-beta 1 (120 pM) produced 12 +/- 2-fold increases in luciferase activity in Ect SMCs and only 3 +/- 1.5-fold increases in Mes SMCs. Analysis of TGF-beta receptor phenotypes by Northern blot, radioligand binding, and crosslinking assays showed that Ect and Mes SMCs expressed similar levels of types I, II, and III TGF-beta receptors. However, using a polyclonal antibody specific for the chick type II TGF-beta receptor subunit, we demonstrate that Mes SMCs produce a fully glycosylated form of this protein while Ect SMCs elaborate only an unglycosylated type II TGF-beta receptor. These results show that Ect and Mes SMCs exhibit lineage-dependent differences in growth and receptor-mediated transcriptional responses to at least one important class of SMC morphogens and growth modifiers, e.g., the TGF-betas. Our findings suggest that different SMC populations within a common vessel wall may respond in lineage-dependent ways to signals that direct formation of the tunica media in the embryo and to factors involved in the progression of vascular disease later in life.
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PMID:Smooth muscle lineage diversity in the chick embryo. Two types of aortic smooth muscle cell differ in growth and receptor-mediated transcriptional responses to transforming growth factor-beta. 883 Jul 42

The small and large vessel disease associated with diabetes mellitus is responsible for its morbidity and mortality. Although much of the pathogenesis remains to be clarified, the role of hyperinsulinemia and hyperglycemia per se in the progression of vascular disease is beginning to emerge. Hyperinsulinemia increases the release of very low density lipoprotein (VLDL) and may also be responsible for the low HDL cholesterol levels in patients with diabetes. Hyperinsulinemia also contributes to increased blood pressure, which independently promotes vascular disease. High glucose concentrations have direct influence on intracellular signal transduction, including effects on sorbitol pathway and associated changes of pyridine nucleotides, the de novo synthesis of diacylglycerol with subsequent stimulation of protein kinase C, and possibly changes in the cellular generation of myoinositol. Hyperglycemia also exerts long-lasting changes in cellular function, which result from non-enzymatic glycosylation of matrix and membrane proteins with subsequent binding of these proteins to specific receptors. These receptors are termed the advanced glycosylation end-products (AGE) receptors. Their activation leads to an increased release of cytokines and growth factors including PDGF, interleukins, TNF-alpha, and TGF-beta, all of which may act concomitantly in the disease process.
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PMID:The role of hyperglycemia and hyperinsulinemia in the pathogenesis of diabetic angiopathy. 890 9

Fibroblast growth factor-2 (FGF-2) has been implicated in vascular smooth muscle cell (SMC) migration, a key process in vascular disease. We demonstrate here that FGF-2 promotes SMC motility by altering beta1 integrin-mediated interactions with the extracellular matrix (ECM). FGF-2 significantly increased surface expression of alpha2beta1, alpha3beta1, and alpha5beta1 integrins on human SMCs, as assessed by flow cytometry. The greatest increase was for the collagen-binding alpha2beta1 integrin. Despite this, FGF-2 did not increase SMC adhesion to type I collagen but instead promoted SMC elongation and SMC motility. The latter was evaluated by using a microchemotaxis chamber and by digital time-lapse video microscopy. Although FGF-2 was not chemotactic for human SMCs, cells preincubated with FGF-2 displayed a 3.1-fold increase in migration to the undersurface of porous type I collagen-coated membranes and a 2.1-fold increase in migration speed on collagen. Furthermore, chemotaxis to platelet-derived growth factor-BB on collagen was significantly greater in SMCs exposed to FGF-2. FGF-2-induced elongation and migration on collagen were inhibited by a blocking anti-alpha2beta1 antibody; however, SMC adhesion to collagen was unaffected. SMC migration on fibronectin was also enhanced by FGF-2, although less prominently: migration through porous membranes increased 1.8-fold, and migration speed increased 1.3-fold. Also, FGF-2 completely disassembled the smooth muscle alpha-actin-containing stress fiber network contemporaneously with the change in integrin expression and cell shape. We conclude that (1) exogenous FGF-2 promotes SMC migration and potentiates chemotaxis to PDGF-BB; (2) the promigratory effect of FGF-2 is especially prominent on type I collagen and is mediated by upregulation of alpha2beta1 integrin; and (3) FGF-2 disassembles actin stress fibers, which may promote differential utilization of alpha2beta1 integrin for motility but not adhesion. This dynamic SMC-ECM interplay may be an important mechanism by which FGF-2 facilitates SMC motility in vivo.
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PMID:Fibroblast growth factor-2 potentiates vascular smooth muscle cell migration to platelet-derived growth factor: upregulation of alpha2beta1 integrin and disassembly of actin filaments. 913 Apr 43

This study was to determine whether the growth factors platelet-derived growth factor-alpha (PDGF-alpha) and transforming growth factor-beta1 (TGF-beta1) contribute to the development of graft vascular disease (GVD) after clinical heart transplantation. We analysed intragraft PDGF-alpha and TGF-beta1 messenger RNA (mRNA) expression levels by competitive template reverse transcriptase polymerase chain reaction (RT-PCR). Endomyocardial biopsies (EMB) were obtained at 1 and 9 months post-transplant from cardiac allograft recipients with (n = 11) and without (n = 11) angiographic evidence of GVD at 1 year. In 1-month EMB, comparable TGF-beta1 mRNA levels were found in patients with and without GVD at 1 year (p = 0.84, Mann-Whitney U-test). In contrast, in 9-month EMB during the development of GVD, intragraft mRNA levels of both PDGF-alpha (p = 0.08) and TGF-beta1 (p = 0.03) were higher in patients with GVD after the first year compared to patients without GVD. These results suggest that intragraft PDGF-alpha and TGF-beta1 play a role in the pathogenesis of accelerated GVD after clinical heart transplantation.
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PMID:Intragraft platelet-derived growth factor-alpha and transforming growth factor-beta1 during the development of accelerated graft vascular disease after clinical heart transplantation. 1063 32

Endothelial injury, obliterative microvascular lesions, and increased vascular wall thickness are present in all involved organs in scleroderma. The vascular pathology is associated with altered vascular function with increased vasospasm, reduced vasodilatory capacity and increased adhesiveness of the blood vessels to platelets and lymphocytes. The extent of injury and dysfunction is reflected by changes in the circulating levels of vascular markers. The initial triggers for the vascular pathology are not known. Possible viral triggers are visited here, including cytomegalovirus in view of increased levels of anti-CMV antibodies in scleroderma, and the remarkable similarities between CMV vasculopathies and scleroderma vascular disease. Endothelial apoptosis in scleroderma may be related to viral infection, immune reactions to viral or environmental factors, reperfusion injury or to anti-endothelial antibodies. The impact of the vascular pathology on the evolution of tissue fibrosis is not known; still, cytokines (TGFbeta, IL4), vascular factors (endothelin), and growth factors (PDGF) are possibly crucial signals that link the vascular disease to tissue fibrosis. Knowledge of the regulation of these and other factors will provide the opportunity to develop more rational therapeutic approaches to the disease.
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PMID:Autoimmunity and vascular involvement in systemic sclerosis (SSc). 1073 36

Gene targeting studies have indicated that the two receptors for PDGF, alpha and beta, direct unique functions during development. Distinct ligand affinities, patterns of gene expression, and/or mechanisms of signal relay may account for functional specificity of the two PDGF receptor isoforms. To distinguish between these factors, we have created two complementary lines of knockin mice in which the intracellular signaling domains of one PDGFR have been removed and replaced by those of the other PDGFR. While both lines demonstrated substantial rescue of normal development, substitution of the PDGFbetaR signaling domains with those of the PDGFalphaR resulted in varying degrees of vascular disease. This observation provides a framework for discussing the evolution of receptor tyrosine kinase functional specificity.
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PMID:The two PDGF receptors maintain conserved signaling in vivo despite divergent embryological functions. 1123 63

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