Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelet-derived growth factor (PDGF) plays an important role in the process of atherosclerosis which is characterized by the presence of macrophage-derived foam cells. In the present study, the induction of the mRNA of PDGF-beta receptor was demonstrated during cell differentiation of human monocyte-macrophages, whereas no mRNA was detected in the cells during the early days of culture. Flow cytometry analysis using antibodies specific for PDGF-beta receptor and CD14 showed the presence of both PDGF-beta receptor and CD14 on human monocyte-derived macrophages, whereas no PDGF-beta receptor was detected on human monocytes 4 h after cell adhesion to a culture dish. In the binding assay of PDGF-BB on human monocyte-derived macrophages, a saturable and high affinity binding site with Kd of 27.5 pM and Bmax of 23.3 fmol/mg of cell protein was demonstrated. When human monocytes were cultured in the presence of the protein kinase C inhibitor staurosporine, PDGF-beta receptor induction was inhibited, and tetradecanoylphorbol acetate enhanced PDGF-beta receptor expression in human monocyte-derived macrophages, indicating that PDGF-beta receptor expression is associated with maturation and differentiation of monocyte-macrophages through the activation of protein kinase C. In response to PDGF-BB homodimer, PDGF-beta receptor was phosphorylated, and thymidine uptake and inositol trisphosphate production were stimulated in monocyte-derived macrophages. Furthermore, PDGF-BB suppressed the production of macrophages colony-stimulating factor in macrophages. The expression of PDGF-beta receptor on human monocyte-derived macrophages suggests that PDGF influences the process of atherosclerosis by regulating the function of macrophages as well as smooth muscle cells in the vascular wall.
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PMID:Expression of platelet-derived growth factor beta receptor on human monocyte-derived macrophages and effects of platelet-derived growth factor BB dimer on the cellular function. 822 85

Platelet-derived growth factor (PDGF) is a potent mitogen consisting of heterodimers of two distinct but homologous polypeptide chains, denoted A and B. PDGF-like homodimers of the A- and B-chains have been isolated, as well as two distinct receptor types (alpha and beta), which discriminate among the PDGF isoforms. The PDGF A- and B-chains are encoded by distinct genes located on human chromosomes 7 and 22, respectively. Although PDGF has been implicated as an important participant in development, tissue repair, and numerous pathologic states including tumorigenesis, atherosclerosis and inflammation, the mechanisms which determine the rate of its synthesis are only beginning to be understood. Basal expression of the PDGF A- and B-chain genes has been characterized in a number of cell types and is directed in part by elements in the respective proximal promoter-regulatory regions of the two genes. In addition, the first intron of PDGF-B has been shown to contain both positive and negative regulatory elements. Transcription of the PDGF subunit genes is inducible by a wide variety of mitogenic growth factors, cytokines and other agonists. These agents produce a rapid increase in steady-state concentrations of PDGF A- and B-chain mRNAs, peaking within 4-8 h of stimulation. The inductive effects of protein kinase C-activating phorbol 12-myristate 13-acetate (PMA), thrombin and transforming growth factor-beta (TGF-beta) are mediated through increases in the transcription rates of both genes. In addition, cAMP blocks the increases in transcription of the B-chain gene induced by thrombin and TGF-beta. Studies have demonstrated the importance of sequences immediately upstream of the B-chain transcription start site for induction in response to PMA-initiated megakaryocyte differentiation, an effect which is dependent on protein synthesis. However, cis-acting elements which mediate more rapid transcriptional induction seen in endothelial cells and astrocytes have yet to be identified in the proximal 5'-flanking sequences of either the A- or B-chain genes, suggesting that such events may be mediated by elements located outside of this region.
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PMID:Transcriptional control of the platelet-derived growth factor subunit genes. 834 77

Low density lipoproteins (LDL) are risk factors in atherosclerosis and oxidative modification of LDL to oxidized LDL (OX-LDL) increases its atherogenicity. Development of atherosclerosis likely involves OX-LDL-mediated smooth muscle cell (SMC) proliferation. However, the mechanism(s) of SMC proliferation by OX-LDL is unknown. We hypothesized that OX-LDL may mediate SMC proliferation by activation of phospholipase D (PLD) through the generation of the second-messenger, phosphatidic acid (PA). To test this hypothesis, activation of PLD by OX-LDL was investigated in [3H]myristic acid- or [32P]orthophosphate-labeled rabbit femoral artery smooth muscle cells (RFASMC) in the presence of 0.5% ethanol or 0.05% butanol. Phospholipase D activation, as measured by labeled phosphatidylethanol (PEt) or phosphatidylbutanol (PBt) formation, was enhanced (3- to 5-fold) by OX-LDL. This activation of PLD was specific for OX-LDL, as native LDL or acetylated LDL had no effect. Further, OX-LDL-mediated [32P]PEt formation was dose- and time-dependent. To determine the mechanism(s) of OX-LDL-induced PLD activation, the role of protein kinase C (PKC) and Ca2+ was investigated. Pretreatment of [32P]orthophosphate-labeled RFASMC with known inhibitors of PKC such as staurosporine, calphostin-C, or H-7, had no effect on OX-LDL-induced PLD activation. Also, down-regulation of PKC by 12-O-tetradecanoylphorbol 13-acetate (TPA) (100 nM, 18 h) did not alter the OX-LDL-mediated [32P]PEt formation. However, pretreatment of RFASMC with genistein, a putative inhibitor of tyrosine kinases, attenuated the OX-LDL-mediated [32P]PEt formation. In addition, exposure of RFASMC to sodium orthovanadate, an inhibitor of phosphatases, enhanced the OX-LDL-mediated PLD activation. The effects of genistein and vanadate on PLD activation were specific for OX-LDL as these agents did not alter the TPA-induced [32P]PEt formation. Treatment of quiescent RFASMC with OX-LDL increased [3H]thymidine incorporation into DNA. This enhanced incorporation of [3H]thymidine into DNA was also mimicked by exogenously added phosphatidic acid (PA) or lysophosphatidic acid (LPA). These findings suggest that OX-LDL is a potent activator of the PLD pathway in SMC. The activation of PLD by OX-LDL generates second-messengers like PA and/or LPA which modulate mitogenesis. Thus, these results indicate that OX-LDL, in atherosclerotic lesions, may enhance SMC proliferation through the modulation of signal transduction pathways including activation of PLD.
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PMID:Oxidized low density lipoprotein-mediated activation of phospholipase D in smooth muscle cells: a possible role in cell proliferation and atherogenesis. 855 88

Coronary heart disease is a major complication of diabetic subjects, and platelet-derived growth factor (PDGF) has been implicated in the development of atherosclerosis. We investigated the effects of high glucose on expression of PDGF-beta receptor. In a binding assay with 125I-labeled PDGF-BB homodimer, high concentrations of glucose increased high-affinity binding of PDGF-BB on human monocyte-derived macrophages and rabbit aortic medial smooth muscle cells. Northern blot analysis confirmed the enhanced effect of glucose on expression of PDGF-beta receptor mRNA in human monocyte-derived macrophages. The protein kinase C inhibitor, staurosporin, completely suppressed an increase in PDGF-BB binding by high glucose, and high glucose significantly activated protein kinase C. These results indicated that PDGF-beta receptor expression was enhanced by high glucose through the activation of protein kinase C. Furthermore, we observed similar effects of high glucose on both PDGF-beta receptor expression and protein kinase C activation in rat mesangial cells and human capillary endothelial cells. Our results suggest that stimulation of the PDGF system is significantly involved in the development not only of diabetic atherosclerosis but also of microangiopathy.
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PMID:Enhanced expression of platelet-derived growth factor-beta receptor by high glucose. Involvement of platelet-derived growth factor in diabetic angiopathy. 860 74

Human apolipoprotein E is a plasma lipoprotein that appears to play an important protective role in the development of atherosclerosis. While little is known about the regulation of apoE, recent studies have shown that cytokines repress apoE synthesis both in vivo and in vitro. Furthermore, we have recently shown that the endogenous apoE gene is negatively regulated by the nuclear trans-repressor BEF-1 in the human HepG2 cell line. In this study we demonstrate that treatment of HepG2 cells with the cytokine interleukin-1 and interleukin-6 resulted in the induction of an isoform of BEF-1, designated B1. The induction of the B1 isoform could be blocked by the protein kinase inhibitor staurosporine, suggesting that B1 is a phosphorylated form of BEF-1. As further support, the B1 isoform could also be induced by phorbol ester, and subsequently inhibited by staurosporine, implicating a role for protein kinase C-mediated phosphorylation. Quantitation of the levels of the BEF-1 isoforms, and studies in the presence of cyclohexamide, provided evidence for the phosphorylation of an existing intracellular pool of BEF-1, with no change in the total intracellular level. Under conditions that generated increased levels of the B1 isoform, there was a concomitant and proportional decrease in the level of apoE mRNA. The effect did not appear to be the result of improved binding to the apoE regulatory region as the DNA binding affinity of B1 was identical to native BEF-1. Our data suggest that the regulation of apoE by BEF-1 is modulated by differential phosphorylation, possibly through the protein kinase C pathway.
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PMID:Trans-repressor BEF-1 phosphorylation. A potential control mechanism for human ApoE gene regulation. 861 16

Lysophosphatidylcholine (LysoPC), an atherogenic lysophospholipid contained in oxidized low-density lipoprotein (LDL), has been shown to stimulate protein kinase C (PKC). Since PKC activators are suggested to elicit rapid P-selectin expression in platelets and endothelial cells, we examined whether LysoPc promotes P-selectin expression in platelets and P-selectin-mediated leukocyte adherence to endothelial cells via a mechanism involving PKC activation. LysoPc, but not phosphatidylcholine (PC), which is a major phospholipid component in native LDL, significantly upregulated P-selectin on cat platelets by flow cytometric analysis. This P-selectin upregulation by LysoPC was significantly attenuated by two PKC inhibitors, 7-hydroxystaurosporine (UCN-01) and N,N,N-trimethylsphingosine, and by two NO donors, CAS1609 and sodium nitroprusside. Submicellar concentrations of LysoPc significantly activated PKC in platelets, and this was inhibited by either UCN-01 or CAS1609. LysoPC, but not PC, significantly increased adherence of autologous cat polymorphonuclear leukocytes to coronary vascular endothelium, which was also markedly attenuated by UCN-01 and by CAS1609. LysoPC induced P-selectin expression on the surface of cat coronary vascular endothelium as assessed by immunohistochemical analysis. These results suggest that LysoPC, an atherogenic lysophospholipid contained in oxidized LDL, rapidly induces P-selectin expression in both platelets and endothelial cells at least partially via PKC activation. Furthermore, NO-generating agents may inhibit P-selectin upregulation by LysoPC. Since P-selectin may play an important role in initiating atherosclerosis, our data provide further insight into the mechanism of early stages of atherogenesis and of NO-mediated inhibition of atherosclerosis.
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PMID:Lysophosphatidylcholine promotes P-selectin expression in platelets and endothelial cells. Possible involvement of protein kinase C activation and its inhibition by nitric oxide donors. 862 May 97

The migration and proliferation of vascular smooth muscle cells (SMCs) during neointima formation in atherosclerosis and angioplasty restenosis is mediated by certain growth factors and cytokines, one action of which may be to promote basement-membrane degradation. To test this hypothesis further, the effects of such growth factors and cytokines on the synthesis of two basement-membrane-degrading metalloproteinases, namely the 72 kDa gelatinase (MMP-2, gelatinase A) and the 95 kDa gelatinase (MMP-9, gelatinase B) and three tissue inhibitors of metalloproteinases (TIMPs) was studied in primary cultured rabbit aortic SMCs. Expression of the 95 kDa gelatinase was increased by phorbol myristate acetate, foetal calf serum, thrombin and interleukin-1alpha (IL-1alpha); platelet-derived growth factor (PDGF) BB alone had no effect but acted synergistically with IL-1alpha. A selective protein kinase C inhibitor, Ro 31-8220, abolished induction of the 95 kDa gelatinase. In contrast, none of the agents tested modulated the synthesis of the 72 kDa gelatinase. We conclude that maximal up-regulation of 95 kDa gelatinase expression requires the concerted action of growth factors and inflammatory cytokines mediated, in part, by a protein kinase C-dependent pathway. TIMP-1 and TIMP-2 were highly expressed, and their synthesis was not affected by growth factors or cytokines. Expression of TIMP-3 mRNAs was, however, increased by PDGF and transforming growth factor beta, especially in combination. Divergent regulation of gelatinase and TIMP expression implies that either net synthesis or net degradation of basement membrane can be mediated by appropriate combinations of growth factors and cytokines.
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PMID:Divergent regulation by growth factors and cytokines of 95 kDa and 72 kDa gelatinases and tissue inhibitors or metalloproteinases-1, -2, and -3 in rabbit aortic smooth muscle cells. 867 Jan 28

In the present study, we examined the effect of angiotensin II (Ang II) on phosphatidylcholine-hydrolyzing phospholipase D activity in subcultured rat aortic smooth muscle cells (SMC). Ang II dose-dependently stimulated the formation of choline and inositol phosphates. The effect of Ang II on the formation of inositol phosphates (EC50 was 0.249 +/- 0.091 nM) was more potent than that on the formation of choline (EC50 was 2.39 +/- 1.29 nM). A combination of Ang II and 12-O-tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C, additively stimulated the formation of choline. Staurosporine, an inhibitor of protein kinases, inhibited the TPA-induced formation of choline, but had little effect on the Ang II-induced choline formation. Ang II stimulated Ca2+ influx from extracellular space time- and dose-dependently. The depletion of extracellular Ca2+ by (ethylenebis(oxyethylenenitrilo)) tetraacetic acid (EGTA) significantly reduced the Ang II-induced formation of choline. Genistein and tyrphostin, protein tyrosine kinase inhibitors, significantly suppressed the Ang II-induced Ca2+ influx. Genistein and tyrphostin also suppressed the Ang II-induced formation of choline. These results suggest that Ang II stimulates phosphatidylcholine-hydrolyzing phospholipase D due to Ca2+ influx from the extracellular space in rat aortic SMC, and that protein tyrosine kinase is involved in the Ang II-induced Ca2+ influx, resulting in the promotion of phosphatidylcholine hydrolysis.
Atherosclerosis 1996 Mar
PMID:Tyrosine kinase is involved in angiotensin II-stimulated phospholipase D activation in aortic smooth muscle cells: function of Ca2+ influx. 867 16

Serotonin (5-HT, 5-hydroxytryptamine) is a mitogen in vascular smooth muscle and vascular reactivity to 5-HT is significantly enhanced in hypertension and atherosclerosis. We have tested the hypothesis that tyrosine kinases, enzymes important for mitogenesis, may play a role in 5-HT-induced vascular smooth muscle contractility. Helical strips of rat carotid artery and aorta denuded of endothelium were mounted in tissue baths for measurement of contractile force. The tyrosine kinase inhibitor genistein (5 x 10(-6) M) decreased the potency of 5-HT approximately 4-fold and reduced maximal contraction to 5-HT in carotid arterial strips denuded of endothelium (58% control). Genistein's inactive congener daidzein (5 x 10(-6) M) did not reduce maximal contraction to 5-HT in carotid arteries but did shift the 5-HT concentration response curve 3-fold to the right. Tyrphostin 23 (5 x 10(-5) M), another tyrosine kinase inhibitor, decreased the potency of 5-HT 4-fold and reduced the maximal contraction to 5-HT in the carotid artery (10% control). Contractions induced by phorbol-12,13-dibutyrate (10(-9) to 10(-5) M) were not reduced or shifted by either tyrosine kinase inhibitor, indicating that phorbolester-sensitive protein kinase C isoforms were not affected. KCl-induced contraction was shifted 2-fold and the maximum significantly inhibited by tyrphostin 23 (38.6% control) but not genistein or daidzein, indicating that tyrphostin 23 but not genistein may inhibit voltage-gated calcium channels to reduce contractility. Western blot analysis using antiphosphotyrosine antibody confirmed that 5-HT produced a time- and concentration-dependent increase in the phosphotyrosine immunoreactivity of a 42-kD protein in cultured aortic smooth muscle cells. Lysate immunoprecipitation with an antimitogen-activated-protein (MAP)-kinase antibody indicated that the 42-kD protein was most likely a MAP kinase. 5-HT (10(-5) M) stimulated contraction and increased antiphosphotyrosine immunoreactivity in whole aorta mounted in tissue baths. Importantly, aortic contraction to 5-HT was shifted (5-fold rightward) and reduced (69% control) by genistein but not daidzein. These findings demonstrate that (1) tyrosine kinase activation may partially mediate contractility to 5-HT in arterial smooth muscle, (2) tyrphostin 23 is somewhat nonselective and (3) 5-HT stimulates tyrosine kinase as documented by increased tyrosyl phosphorylation of proteins in cultured aortic smooth muscle cells and aortic tissue in active contraction of 5-HT. These findings have significant implications not only in understanding a novel pathway of 5-HT signal transduction but also in vascular diseases in which growth and/or contractility to 5-HT is increased (e.g. hypertension, atherosclerosis).
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PMID:Serotonin stimulates protein tyrosyl phosphorylation and vascular contraction via tyrosine kinase. 869 53

Dietary n-6 and n-3 polyunsaturated fatty acids (PUFAs) have potent biological effects on the blood(cells), the vasculature and they myocardium. In the epidemiological studies in which the benefit from the regular ingestion of n-3 PUFAs was reported, the responsible mechanisms remain obscure. A great deal of the PUFA-effect can be explained by the known interference with the eicosanoid metabolism. Many processes, believed to be involved in atherogenesis such as adhesion and infiltration of bloodcells (in)to the vasculature, platelet aggregation, secretion of endothelium-derived factors and mitogenic responses of vascular smooth muscle cells are partially mediated by receptor-activated phospholipases C-beta and A2. As PUFAs take part at many steps of the signalling pathways, the latter could represent important action sites to beneficially interfere with atherogenesis. In this brief review, we have discussed the results of studies on the influence of alteration of PUFA composition of the membrane phospholipids or of exogenously administered non-esterified PURAs on phospholipid signalling. For convenience, we have mainly focused our discussion on those studies available on the myocardium. By changing the PUFA composition of the phospholipids, the endogenous substrates for the membrane-associated phospholipase C-beta and A2 are changed. This is accompanied by changes in their hydrolytic action on these substrates resulting in altered products (the molecular species of 1,2-diacylglycerols and the non-esterified PUFAs) which on their turn evoke changes in events downstream of the signalling cascades: activation of distinct protein kinase C isoenzymes, formation of distinct eicosanoids and non-esterified PUFA effects on Ca2+ channels. It has also become more clear that the membrane physicochemical properties, in terms of fluidity and cholesterol content of the bilayer, might undergo changes due to altered PUFA incorporation into the membrane phospholipids. The latter effects could have consequences for the receptor functioning, receptor-GTP-binding protein coupling, GTP-binding protein-phospholipase C-beta or A2 coupling as well. It should be noted that most of these studies have been carried out with cardiomyocytes isolated from hearts of animals on PUFA diet or incubation of cultured cardiomyocytes with non-esterified PUFAs in the presence of albumin. Studies need to be performed to prove that the PUFA-diet induced modulations of the phospholipid signalling reactions do occur in vivo and that these effects are involved in the mechanism of beneficial effects of dietary PUFAs on the process of atherosclerosis.
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PMID:Polyunsaturated fatty acids and signalling via phospholipase C-beta and A2 in myocardium. 873 47


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