Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Expression of cell adhesion molecules (CAM) responsible for leukocyte-endothelium interactions plays a crucial role in inflammation and atherogenesis. Up-regulation of vascular CAM-1 (VCAM-1), intracellular CAM-1 (ICAM-1), and E-selectin expression promotes monocyte recruitment to sites of injury and is considered to be a critical step in atherosclerotic plaque development. Factors that trigger this initial response are not well understood. As platelet activation not only promotes thrombosis but also early stages of atherogenesis, we considered the role of thrombospondin-1 (TSP-1), a matricellular protein released in abundance from activated platelets and accumulated in sites of vascular injury, as a regulator of CAM expression. TSP-1 induced expression of VCAM-1 and ICAM-1 on endothelium of various origins, which in turn, resulted in a significant increase of monocyte attachment. This effect could be mimicked by a peptide derived from the C-terminal domain of TSP-1 and known to interact with CD47 on the cell surface. The essential role of CD47 in the cellular responses to TSP-1 was demonstrated further using inhibitory antibodies and knockdown of CD47 with small interfering RNA. Furthermore, we demonstrated that secretion of endogenous TSP-1 and its interaction with CD47 on the cell surface mediates endothelial response to the major proinflammatory agent, tumor necrosis factor alpha (TNF-alpha). Taken together, this study identifies a novel mechanism regulating CAM expression and subsequent monocyte binding to endothelium, which might influence the development of anti-atherosclerosis therapeutic strategies.
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PMID:Thrombospondin-1 up-regulates expression of cell adhesion molecules and promotes monocyte binding to endothelium. 1583 68

The role of tumor necrosis factor alpha (TNF-alpha) in Chlamydia pneumoniae atherogenesis was evaluated in TNF-alpha p55 receptor-deficient C57BL/6J mice fed a high-fat/high-cholesterol diet. No acceleration of atherosclerotic lesion development was observed in infected mice compared to uninfected mice, indicating that TNF-alpha plays a role in the acceleration of atherosclerosis by C. pneumoniae.
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PMID:Tumor necrosis factor alpha plays a role in the acceleration of atherosclerosis by Chlamydia pneumoniae in mice. 1584 26

Until relatively recently, depression has been considered a purely "mental" disorder and therefore in the natural domain of psychologists and psychiatrists. However, recent epidemiological studies have revealed that aging, physical and psychological stress, chronic pain, several metabolic disorders such as insulin resistance and established diabetes, alcoholism, inflammatory conditions, and vascular disorders such as arterial hypertension all may be associated with depression. The present review examines some of these depression-associated factors and the mechanisms by which they might give rise to vascular disorders such as atherosclerosis, microcirculation endothelial dysfunction, and interstitial disturbances leading to organ damage. A number of disorders involving the circulation can lead progressively and insidiously to large artery rigidity, remodeling of peripheral arteries, and alterations of the microcirculation of large blood vessels. Perturbations in vasa vasorum blood flow may contribute to atherogenesis, in addition to the influence of numerous cellular events involved in inflammation (tumor necrosis factor alpha, interleukin 1 beta, etc). Since Hans Selye first described the neuroendocrine cascade generated by experimentally induced stress half a century ago, phenomena such as the axonal release of neurotransmitters (including serotonin), accumulation of metabolites such as homocysteine, platelet-activating factor, and nitric oxide also have been implicated in the pathogenesis of depression. Moreover, vascular consequences of depression such as heart rate and pulse pressure variations may lead to endothelial dysfunction in critical microcirculation networks (cerebral, myocardial, and renal) and initiate physicochemical alterations in interstitial compartments adjacent to vital organs. The appropriate use of ambulatory monitoring of vascular parameters, such as heart rate and pulse pressure, and eventually, early identification of genetic and metabolic markers may prove helpful in the early detection of events preceding and predicting the clinical manifestations of depression.
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PMID:Depression and cardiovascular disease: a reciprocal relationship. 1587 13

Specific treatment of age-related aortic wall arteriosclerosis and stiffening is lacking. Because ligands for peroxisome proliferator-activated receptor gamma have beneficial effects on the arterial wall in atherosclerosis, via an antiinflammatory mechanism, we investigated whether long-term pioglitazone (Pio) treatment protects against another form of vascular wall disease, arteriosclerosis. We evaluated, in a rat model of elastocalcinotic arteriosclerosis (hypervitaminosis D and nicotine [VDN]), whether Pio (3 mg . kg(-1) per day for 1.5 month PO) attenuated arteriosclerosis and its consequences: aortic wall rigidity, increased aortic pulse pressure, and left ventricular hypertrophy. In VDN rats, medial calcification was associated with monocyte/macrophage infiltration and induction of tumor necrosis factor alpha and interleukin 1beta. Pio increased nuclear peroxisome proliferator-activated receptor gamma immunostaining in the aortic wall, decreased tumor necrosis factor alpha (P <0.05 versus VDN Pio-), tended to decrease interleukin 1beta mRNA expression (P =0.08 versus VDN Pio-), blunted aortic wall calcification (271+/-69, P <0.05 versus VDN Pio- 562+/-87 micromol . g(-1) dry weight) and prevented fragmentation of elastic fibers (segments per 10,000 microm2: 8.4+/-0.3; P <0.05 versus VDN Pio- 10.5+/-0.6). Pio reduced aortic wall stiffness (elastic modulus/wall stress: 4.8+/-0.6; P <0.05 versus VDN Pio- 10.0+/-1.6), aortic pulse pressure (30+/-2 mm Hg; P <0.05 versus VDN Pio- 39+/-4) and left ventricular hypertrophy (1.58+/-0.05 g . kg(-1); P <0.05 versus VDN Pio- 1.76+/-0.06). In conclusion, long-term Pio treatment attenuates aortic wall elastocalcinosis and, thus, lowers aortic wall stiffness, aortic pulse pressure, and left ventricular hypertrophy.
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PMID:Pioglitazone improves aortic wall elasticity in a rat model of elastocalcinotic arteriosclerosis. 1596 70

Mast cells are fascinating, multifunctional, tissue-dwelling cells that have been traditionally associated with the allergic response. However, recent studies suggest these cells may be capable of regulating inflammation, host defense, and innate immunity. The purpose of this review is to present salient aspects of mast cell biology in the context of mast cell function in physiology and disease. After their development from bone marrow-derived progenitor cells that are primed with stem cell factor, mast cells continue their maturation and differentiation in peripheral tissue, developing into two well-described subsets of cells, MC(T) and MC(TC) cells. These cells can be distinguished on the basis of their tissue location, dependence on T lymphocytes, and their granule contents. Mast cells can undergo activation by antigens/allergens, superoxides, complement proteins, neuropeptides, and lipoproteins. After activation, mast cells express histamine, leukotrienes, and prostanoids, as well as proteases, and many cytokines and chemokines. These mediators may be pivotal to the genesis of an inflammatory response. By virtue of their location and mediator expression, mast cells may play an active role in many diseases, such as allergy, parasitic diseases, atherosclerosis, malignancy, asthma, pulmonary fibrosis, and arthritis. Recent data also suggest that mast cells play a vital role in host defense against pathogens by elaboration of tumor necrosis factor alpha. Mast cells also express the Toll-like receptor, which may further accentuate their role in the immune-inflammatory response. This chapter summarizes the many well-known and novel functional aspects of human mast cell biology and emphasizes their unique role in the inflammatory response.
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PMID:The human mast cell: an overview. 1611 Jan 46

Macrophage-targeted photodynamic therapy (PDT) may have applications in the selective killing of cells involved in atherosclerosis, inflammation and tumor. We have previously shown that a conjugate between the photosensitizer chlorin(e6) (ce6) and maleylated bovine serum albumin (BSA-mal) gives highly selective targeting to macrophages. In this report we examine the effect of macrophage activation and scavenger receptor class A (SRA) expression on this targeting in two murine macrophage tumor cell lines (RAW264.7 and P388D1) and a control murine mammary sarcoma cell line (EMT-6). Cells were pretreated with interferon gamma (IFNgamma) and/or lipopolysaccharide (LPS) followed byBSA-ce6-mal addition, and SRA expression, tumor necrosis factor alpha (TNFalpha) release, conjugate uptake and PDT killing were measured. Both macrophage cell lines expressed SRA and took up conjugate specifically in an SRA-dependent manner, but differences were observed in their response to activation. RAW264.7 expressed increasingly more SRA and took up increasingly more BSA-ce6-mal in response to IFNgamma, LPS, and IFNgamma+LPS, respectively. The PDT killing did not follow the same pattern as the uptake of the photosensitizer. The increase in uptake in the IFNgamma treated cells did not lead to an increase in PDT killing, while stimulation with LPS or IFNgamma + LPS resulted in a significant protection against PDT, despite a significant increase in photosensitizer uptake. P388D1 was responsive to neither IFNgamma, nor to LPS, or to IFNgamma +LPS with respect to SRA expression, conjugate uptake, and PDT killing. These data may have implications for the use of PDT to target physiologically undesirable macrophage subtypes implicated in disease, and on how manipulation of the activation status of the macrophage will influence the PDT effect.
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PMID:Macrophage-targeted photodynamic therapy: scavenger receptor expression and activation state. 1616 23

Apolipoprotein E (apoE) is synthesized in the liver and in macrophages, and it has antiatherogenic properties that are mediated, at least in part, through the regulation of plasma cholesterol homeostasis. Previous data suggest that apoE also has antiinflammatory properties that may contribute to protection against atherosclerosis independent of its role in lipid metabolism. In this study, apoE knockout and C57BL/6 mice were stimulated with low-dose lipopolysaccharide (LPS) and other Toll-like receptor (TLR) agonists. We show that apoE modulates the systemic type I inflammatory response in vivo. The proinflammatory cytokines tumor necrosis factor alpha, interleukin (IL)-6, IL-12, and interferon-gamma were upregulated to a significantly greater extent in apoE-deficient mice than in wild-type mice at both the mRNA and protein levels following administration of LPS. In contrast, hypercholesterolemic low-density lipoprotein receptor/apobec-1 double knockout mice had a similar cytokine response as wild-type mice, eliminating hypercholesterolemia as a cause for the exaggerated cytokine response. Importantly, reconstitution of apoE expression in the liver of apoE-deficient mice normalized the LPS-induced plasma protein levels of IL-12p40. Furthermore, there was selective upregulation of plasma IL-12 in apoE knockout mice by a TLR3 agonist, poly I:C, but not by other TLR agonists, CpG oligonucleotide or Toxoplasma gondii antigen. This implies that apoE selectively regulates TLR4- and TLR3-mediated signaling of IL-12 production. These results indicate that apoE modulates the T helper-1-type immune response in vivo by modulating IL-12 production.
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PMID:Apolipoprotein E suppresses the type I inflammatory response in vivo. 1617 87

Elevated levels of tumor necrosis factor-alpha (TNF-alpha), and presence of polymorphisms of the TNFA gene have been implicated in cardiovascular disease pathogenesis. We explored the relationship between polymorphisms in the TNFA gene (-1031C/T, -863C/A -857T/C, -308G/A, -238G/A), protein levels of TNF-alpha and their association to myocardial infarction (MI) using a sample of 1213 post-MI patients and 1561 healthy controls. MI risk was higher among men with elevated TNF-alpha levels, with the highest compared to the lowest TNF-alpha quartile giving a 70% risk increase (OR [95% CI]: 1.7 [1.1; 2.6]). Obese subjects who also had elevated TNF-alpha levels were at even higher risk for MI (OR [95% CI]: 3.4 [2.1; 5.6]). Higher TNF-alpha levels were seen among smokers (but not among non-smokers) carrying the -857T allele. Furthermore, a rare haplotype occurred more frequently among the cases than the controls. Elevated TNF-alpha levels are associated with increased MI risk. Obese subjects with elevated TNF-a levels, and carriers of polymorphisms in or near TNFA are particularly susceptible to the hazards of smoking, results which may have implications for cardiovascular preventive measures.
Atherosclerosis 2006 Aug
PMID:Association of TNF-alpha serum levels and TNFA promoter polymorphisms with risk of myocardial infarction. 1624 40

Atherosclerosis occurs predominantly in arteries and only rarely in veins. The goal of this study was to test whether differences in the molecular responses of venous and arterial endothelial cells (ECs) to atherosclerotic stimuli might contribute to vascular bed differences in susceptibility to atherosclerosis. We compared gene expression profiles of primary cultured ECs from human saphenous vein (SVEC) and coronary artery (CAEC) exposed to atherogenic stimuli. In addition to identifying differentially expressed genes, we applied statistical analysis of gene ontology and pathway annotation terms to identify signaling differences related to cell type and stimulus. Differential gene expression of untreated venous and arterial endothelial cells yielded 285 genes more highly expressed in untreated SVEC (P<0.005 and fold change >1.5). These genes represented various atherosclerosis-related pathways including responses to proliferation, oxidoreductase activity, antiinflammatory responses, cell growth, and hemostasis functions. Moreover, stimulation with oxidized LDL induced dramatically greater gene expression responses in CAEC compared with SVEC, relating to adhesion, proliferation, and apoptosis pathways. In contrast, interleukin 1beta and tumor necrosis factor alpha activated similar gene expression responses in both CAEC and SVEC. The differences in functional response and gene expression were further validated by an in vitro proliferation assay and in vivo immunostaining of alphabeta-crystallin protein. Our results strongly suggest that different inherent gene expression programs in arterial versus venous endothelial cells contribute to differences in atherosclerotic disease susceptibility.
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PMID:Differences in vascular bed disease susceptibility reflect differences in gene expression response to atherogenic stimuli. 1645 5

Recent evidence suggests that tumor necrosis factor alpha (TNFalpha) signaling in vascular cells can have antiatherogenic consequences, but the mechanisms are poorly understood. TNFalpha is released by free cholesterol-loaded apoptotic macrophages, and the clearance of these cells by phagocytic macrophages may help to limit plaque development. Macrophage cholesterol uptake induces ATP-binding cassette (ABC) transporter ABCA1 promoting cholesterol efflux to apolipoprotein A-I and reducing atherosclerosis. We show that TNFalpha induces ABCA1 mRNA and protein in control and cholesterol-loaded macrophages and enhances cholesterol efflux to apolipoprotein A-I. The induction of ABCA1 by TNFalpha is reduced by 65% in IkappaB kinase beta-deficient macrophages and by 30% in p38alpha-deficient macrophages, but not in jun kinase 1 (JNK1)- or JNK2-deficient macrophages. To evaluate the potential pathophysiological significance of these observations, we fed TNFalpha-secreting free cholesterol-loaded apoptotic macrophages to a healthy macrophage monolayer (phagocytes). ABCA1 mRNA and protein were markedly induced in the phagocytes, a response that was mediated both by TNFalpha signaling and by liver X receptor activation. Thus, TNFalpha signals primarily through NF-kappaB to induce ABCA1 expression in macrophages. In atherosclerotic plaques, this process may help phagocytic macrophages to efflux excess lipids derived from the ingestion of cholesterol-rich apoptotic corpses.
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PMID:TNFalpha induces ABCA1 through NF-kappaB in macrophages and in phagocytes ingesting apoptotic cells. 1649 40


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