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)

Oxidative processes leading to the generation of oxidized low density lipoprotein (oxLDL) particles have been suggested to be an important factor in the pathogenesis of atherosclerosis. After initiation of the oxidative process, LDL undergoes a progressive protein and lipid fragmentation. To understand this process and the role of oxLDL in various diseases of inflammatory origin, we have generated mouse monoclonal antibodies against copper-oxidized human LDL. Mice were immunized intrasplenically and after one intravenous boost the spleen cells were fused with the Sp2/0 hybridoma fusion partner. The hybridoma clones obtained after selection and cloning were analyzed for reactivity against oxLDL with various degrees of copper-mediated oxidative modifications. Three hybridoma clones were purified and further characterized. The following observations were made: 1) the intrasplenic route of immunization, avoiding the use of mycobacterial adjuvants, yielded a high frequency of positive clones; 2) the individual hybridomas reacted against LDL with various degrees of oxidative modifications; 3) the monoclonal antibodies could be used in ELISA and to detect oxLDL in immunohistochemical tissue staining, and 4) the monoclonal antibodies also detected oxLDL from hamsters and rabbits. We conclude that these monoclonal antibodies could be useful to further investigate the role of oxLDL in inflammation and in the immune response.
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PMID:Monoclonal antibodies against low density lipoprotein with various degrees of oxidative modifications. 922 22

The quantitative relations between cell turnover (cell mitosis and death) and macromolecular leakage were studied at the level of individual endothelial cells (ECs) in the thoracic aortae of 32 adult male Sprague-Dawley rats. The experiments were performed on en face preparations of aortic specimens obtained 1, 3, 5 or 10 min after the intravenous administration of horseradish peroxidase (HRP). Mitotic ECs were identified by hematoxylin nuclear staining; dying or dead ECs containing cytoplasmic immunoglobulin G were detected by indirect immunocytochemistry and endothelial leakages to HRP were visualized by light microscopy. The number and size of HRP spots increased with time and the spots fused to form large brown areas in 10 min. Quantitative data on the contributions of EC mitosis and EC death to the transendothelial leakages of HRP were obtained in the same animals. Although mitotic ECs (0.01%) and dying ECs (0.1%) were infrequent in occurrence, the great majority (over 90%) of these ECs were associated with focal HRP uptake. These mitotic and dying ECs, however, accounted for only 17% of the total leakage sites indicating that significant leakage of the 4-5 nm HRP also occurs in normal ECs not morphologically identified as being in mitosis or death. The percentages of leaky spots attributable to mitosis or cell death were greater for the 6 nm albumin and the 22 nm low density lipoprotein (LDL) which probably cannot traverse the normal junctions and use the leaky junctions during cell turnover as the major pathway.
Atherosclerosis 1997 Aug
PMID:Relationship between endothelial cell turnover and permeability to horseradish peroxidase. 925 1

Recombinant FGF-2-SAP is a mitotoxin consisting of the plant-derived ribosome-inactivating toxin saporin (SAP) fused to basic fibroblast growth factor (FGF-2). FGF-2-SAP targets and kills cells bearing upregulated FGF receptors. In vivo, FGF-2-SAP inhibits smooth muscle cell hyperplasia in models of restenosis. The present study examined the potential for a differential effect of FGF-2-SAP on canine vascular endothelial cells (EC) and smooth muscle cells (SMC) separately as well as in a novel co-culture model. Canine vascular SMC and EC cultures were established separately and made quiescent once cells reached 80% confluence. Following the release from growth arrest, both cell types were treated with FGF-2-SAP, or FGF-2, or SAP alone for 48 h. [3H]TdR incorporation was used to determine the growth response of SMC and EC. The co-culture system was created by plating canine vascular SMC and EC on either side of a microporous 13 microm thick polyester membrane insert. Both cell types were grown to 80% confluence and independently made quiescent. Following the release from growth arrest, cells were treated with FGF-2-SAP, or FGF-2, or SAP alone. Negative and positive control groups were untreated wells containing phosphate buffered saline and complete growth media, respectively. After 48 h, both [3H]TdR incorporation and total DNA content, by fluorometric measurement, were quantitated in SMC and EC independently. FGF-2-SAP showed a concentration-dependent cytotoxicity in both canine SMC and EC but cytotoxicity for EC required substantially higher concentrations. In co-cultured SMC, FGF-2-SAP significantly decreased both [3H]TdR uptake and total DNA content at 0.5, 5, 50, and 500 ng/ml (0.01-10 nM) compared to positive controls. In co-cultured EC, FGF-2-SAP decreased [3H]TdR uptake at 50 and 500 ng/ml and total DNA content at 500 ng/ml compared to positive controls. Neither SAP alone nor FGF-2 alone showed a significant effect on [3H]TdR uptake or DNA content of either SMC or EC. In this unique co-culture model, which better replicates the relationship between SMC and EC in vivo, we demonstrated a dose-response range of FGF-2-SAP at which both the proliferation and total cell number of SMC, but not EC, is significantly reduced. These data suggest that FGF-2-SAP may have therapeutic utility in inhibiting myointimal hyperplasia in the absence of a deleterious effect on regenerating endothelium following vascular reconstructions.
Atherosclerosis 1998 Apr
PMID:Fibroblast growth factor-2-toxin induced cytotoxicity: differential sensitivity of co-cultured vascular smooth muscle cells and endothelial cells. 962 71

One of the first changes that take place within the artery intima at the inception of atherosclerosis is the accumulation of LDL-derived modified lipoproteins which appear as subendothelial lipid droplets and vesicles. With time, the LDL retention and interaction with intimal chondroitin sulfate-proteoglycans may induce further structural and functional modification of the lipoproteins. The aim of this study was to produce 'in vitro' modified lipoproteins by LDL incubation with chondroitin 6-sulfate (CS, at 37 degrees C, for 48 h, in the absence of antioxidants) and to test their effects on cultured human aortic smooth muscle cells (SMCs). CS induced LDL modification (CS-mLDL) consisted in formation of a mixture of fused particles (up to 150 nm diameter) and monomers with a small content of lipid peroxides and a partially degraded apo B-100, corresponding to a mild oxidation. Upon incubation with SMCs, CS-mLDL produced a concentration-dependent stimulation of 3H-thymidine incorporation, that, at low concentration (25 microg/ml), was 2-3-fold higher than that obtained when native LDL was used; this increase correlates well with the level of CS-mLDL uptake at the same concentration. Besides the mitogenic effect, CS-mLDL induced a significant stimulation of SMCs migration, comparable with that reported for oxidized LDL. Upon incubation with CS-mLDL, SMCs accumulated lipid droplets of various number and dimension, as revealed by Nile red staining and electron microscopy. Competition studies performed in the presence of 20-fold excess of native LDL and acetyl LDL showed that 125I-CS-mLDL were taken up both by LDL receptor and scavenger receptor. At high concentration (200 microg/ml), CS-mLDL had a cytotoxic effect that was not significantly different from that of native LDL. Together these results provide evidence of (i) the direct alteration produced by CS on LDL and (ii) the effect of CS-mLDL on SMCs migration, proliferation and transformation in lipid-laden cells, events that are crucial in the development of fibro-muscular atherosclerotic lesions.
Atherosclerosis 1999 Nov 01
PMID:The effects of low density lipoproteins modified by incubation with chondroitin 6-sulfate on human aortic smooth muscle cells. 1052 37

Macrophage-derived apolipoprotein E (apoE) influences the susceptibility of the arterial wall to atherosclerosis. Previous studies have shown that production of apoE in these cells is regulated at a posttranscriptional level and is increased by inhibitors of proteasomal degradation. To further investigate this mechanism, we stably transfected RAW 264.7 macrophages and HepG2 cells with a construct overexpressing ubiquitin, the peptide targeting proteins to the proteasome, fused to an influenza virus hemagglutinin epitope tag. Ubiquitination of apoE was investigated by immunoprecipitation and Western blot analysis. In both cell types, apoE was ubiquitinated, and inhibition of proteasome function by lactacystin led to accumulation of ubiquitinated apoE. These studies provide strong evidence for proteasomal degradation of apoE in the two main cell types responsible for its production and indicate a possible new level of regulation of this important protein.
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PMID:Apolipoprotein E in macrophages and hepatocytes is eegraded via the proteasomal pathway. 1140 4

Hepatic very-low-density lipoprotein particles (VLDL) containing full-length apolipoprotein B100 are metabolized in the blood stream to low-density lipoprotein (LDL) particles, whose elevated levels increase the risk of atherosclerosis. Statins and bile-acid sequestrants are effective LDL-lowering therapies for many patients. Development of alternative therapies remains important for patients with adverse reactions to conventional therapy, with defects in the LDL receptor-dependent lipoprotein uptake pathway and for intervention in children. Editing of apoB mRNA by the enzyme APOBEC-1 changes a glutamine codon to a stop codon, leading to the synthesis and secretion of apoB48-containing VLDL, which are rapidly cleared before they can be metabolized to LDL. Human liver does not edit apoB mRNA because it does not express APOBEC-1. Although initially promising, enthusiasm for apobec-1 gene therapy for hypercholesterolemia was blunted by the finding that uncontrolled transgenic expression of APOBEC-1 led to nonspecific editing of mRNAs and pathology. We demonstrate that APOBEC-1 fused to TAT entered primary hepatocytes, where it induced a transient increase in mRNA editing activity and enhanced synthesis and secretion of VLDL containing apoB48. Protein transduction of APOBEC-1 transiently stimulated high levels of apoB mRNA editing in a dose-dependent manner without loss of fidelity. These results suggested that apoB mRNA editing should be re-evaluated as a LDL-lowering therapeutic target in the new context of protein transduction therapy.
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PMID:Apolipoprotein B mRNA editing and the reduction in synthesis and secretion of the atherogenic risk factor, apolipoprotein B100 can be effectively targeted through TAT-mediated protein transduction. 1180 50

Fluid shear stress greatly influences the biology of vascular endothelial cells and the pathogenesis of atherosclerosis. Endothelial cells undergo profound shape change and reorientation in response to physiological levels of fluid shear stress. These morphological changes influence cell function; however, the processes that produce them are poorly understood. We have examined how actin assembly is related to shear-induced endothelial cell shape change. To do so, we imposed physiological levels of shear stress on cultured endothelium for up to 96 hours and then permeabilized the cells and exposed them briefly to fluorescently labeled monomeric actin at various time points to assess actin assembly. Alternatively, monomeric actin was microinjected into cells to allow continuous monitoring of actin distribution. Actin assembly occurred primarily at the ends of stress fibers, which simultaneously reoriented to the shear axis, frequently fused with neighboring stress fibers, and ultimately drove the poles of the cells in the upstream and/or downstream directions. Actin polymerization occurred where stress fibers inserted into focal adhesion complexes, but usually only at one end of the stress fiber. Neither the upstream nor downstream focal adhesion complex was preferred. Changes in actin organization were accompanied by translocation and remodeling of cell-substrate adhesion complexes and transient formation of punctate cell-cell adherens junctions. These findings indicate that stress fiber assembly and realignment provide a novel mode by which cell morphology is altered by mechanical signals.
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PMID:Assembly and reorientation of stress fibers drives morphological changes to endothelial cells exposed to shear stress. 1503 10

Although the VEGF-Flk-1-pathway has been known as the major driving force of angiogenesis, new evidence has shown that VEGFR-1/Flt-1 plays important roles during the neovascularization under pathological conditions including tumor, atherosclerosis and arthritis. In search of Flt-1 receptor antagonizing peptides, we screened a phage display 12-mer-peptide library with recombinant Flt-1 protein. Seven candidate peptides were identified that specifically bound to VEGF receptor Flt-1, of which peptide F56 (WHSDMEWWYLLG) almost abolished VEGF binding to receptor Flt-1 in vitro. In vivo, F56 fused with DHFR (DHFR-F56) inhibited angiogenesis in a CAM assay. Moreover, DHFR-F56 significantly inhibited the growth of nodules of human gastric cancer cell line MGC-803 in BALB/c nude mice. Histological analyses showed that necrosis of the implanted tumor was markedly enhanced following treatment with DHFR-F56. In the severe combined immunodeficiency disease (SCID) mouse model for studying metastasis of the human breast cancer cell line BICR-H1, synthetic peptide F56 significantly inhibited tumor growth and lung metastases. Taken together, our results have demonstrated that peptide F56, as a Flt-1 receptor antagonist, fulfilled the antiangiogenic and antimetastatic effects by specifically interfering with the interaction between VEGF and receptor Flt-1. Thus, short peptide F56 may have clinical potential in tumor therapy.
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PMID:Suppression of tumor growth and metastasis by a VEGFR-1 antagonizing peptide identified from a phage display library. 1519 67

The heat shock protein 65 kDa (Hsp65) of Mycobacterium tuberculosis var. bovis was fused with the linear polypeptide epitope of cholesteryl ester transfer protein C-terminal fragment (CETPC) and expressed as soluble protein in Escherichia coli. The fusion protein Hsp65-CETPC was purified by anion exchange column and eluted at 100-130 mM NaCl in 10mM phosphate buffer (pH 8.0), and then used to immunize mice via subcutaneous injection or intranasal delivery in the absence of adjuvants. Antibodies against CETPC were detected in immunized mice sera by enzyme-linked immunosorbent assay (ELISA) and verified by Western blot analysis. Specific antibodies were successfully induced and lasted for more than 12 weeks in animals immunized with the fusion protein via both subcutaneous and intranasal routes even in the absence of adjuvants. Results showed that Hsp65 could be used as a convenient carrier molecule for presenting foreign polypeptide epitopes, such as CETPC, to the immune system in vivo. Antibodies induced by Hsp65-CETPC could partially inhibit the excessive activity of CETP to normal level. Therefore, Hsp65-CETPC might be further developed to a vaccine against atherosclerosis.
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PMID:Long-lasting specific antibodies against CETP induced by subcutaneous and mucosal administration of a 26-amino acid CETP epitope carried by heat shock protein 65 kDa in the absence of adjuvants. 1529 73

The arterial content of hyaluronan (HA) undergoes diffuse changes as part of the diabetic macroangiopathy. Because HA influences the phenotype of vascular cells in vitro such as proliferation, migration, and secretion, it is tempting to speculate that diabetes-induced hastened cardiovascular disease may be linked to the increased amount of HA. To explore the pathophysiological role of altered HA content in the arterial wall in vivo, we created transgenic (Tg) mice with HA overexpression in smooth muscle cells (SMCs) in large and small vessels, targeted by the alpha smooth-muscle-cell-actin (alphaSMA) promoter fused to the human hyaluronan synthase 2 (hHAS2) cDNA. RT-PCR demonstrated hHAS2 mRNA expression in the tunica media of large and small vessels. In situ hybridization confirmed that hHAS2 mRNA was targeted to the SMCs. The aortic HA content was elevated in the Tg mice, and by immunohistochemistry, it was seen that HA accumulated in the tunica media. The secretory profile of high- and low-molecular HA was similar in wild-type and Tg animals. Overproduction of HA in the aorta resulted in thinning of the elastic lamellae in Tg mice. Our data suggest that this may lead to increased mechanical stiffness and strength, as determined by controlled stretching until failure. Finally, overproduction of HA on the genetic background of the ApoE-deficient mouse strain promoted atherosclerosis development in the aorta. These results indicate that a single component of the diabetic macroangiopathy, diffuse accumulation of HA, accelerates the progression of atherosclerosis.
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PMID:Overexpression of hyaluronan in the tunica media promotes the development of atherosclerosis. 1570 63


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