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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The paradox of aerobic life, or the 'Oxygen Paradox', is that higher eukaryotic aerobic organisms cannot exist without oxygen, yet oxygen is inherently dangerous to their existence. This 'dark side' of oxygen relates directly to the fact that each oxygen atom has one unpaired electron in its outer valence shell, and molecular oxygen has two unpaired electrons. Thus atomic oxygen is a free radical and molecular oxygen is a (free) bi-radical. Concerted tetravalent reduction of oxygen by the mitochondrial electron-transport chain, to produce water, is considered to be a relatively safe process; however, the univalent reduction of oxygen generates reactive intermediates. The reductive environment of the cellular milieu provides ample opportunities for oxygen to undergo unscheduled univalent reduction. Thus the superoxide anion radical, hydrogen peroxide and the extremely reactive hydroxyl radical are common products of life in an aerobic environment, and these agents appear to be responsible for oxygen toxicity. To survive in such an unfriendly oxygen environment, living organisms generate--or garner from their surroundings--a variety of water- and lipid-soluble antioxidant compounds. Additionally, a series of antioxidant enzymes, whose role is to intercept and inactivate reactive oxygen intermediates, is synthesized by all known aerobic organisms. Although extremely important, the antioxidant enzymes and compounds are not completely effective in preventing oxidative damage. To deal with the damage that does still occur, a series of damage removal/repair enzymes, for proteins, lipids and DNA, is synthesized. Finally, since oxidative stress levels may vary from time to time, organisms are able to adapt to such fluctuating stresses by inducing the synthesis of antioxidant enzymes and damage removal/repair enzymes. In a perfect world the story would end here; unfortunately, biology is seldom so precise. The reality appears to be that, despite the valiant antioxidant and repair mechanisms described above, oxidative damage remains an inescapable outcome of aerobic existence. In recent years oxidative stress has been implicated in a wide variety of degenerative processes, diseases and syndromes, including the following: mutagenesis, cell transformation and cancer; atherosclerosis, arteriosclerosis, heart attacks, strokes and ischaemia/reperfusion injury; chronic inflammatory diseases, such as rheumatoid arthritis, lupus erythematosus and psoriatic arthritis; acute inflammatory problems, such as wound healing; photo-oxidative stresses to the eye, such as cataract; central-nervous-system disorders, such as certain forms of familial amyotrophic lateral sclerosis, certain glutathione peroxidase-linked adolescent seizures, Parkinson's disease and Alzheimer's dementia; and a wide variety of age-related disorders, perhaps even including factors underlying the aging process itself. Some of these oxidation-linked diseases or disorders can be exacerbated, perhaps even initiated, by numerous environmental pro-oxidants and/or pro-oxidant drugs and foods. Alternatively, compounds found in certain foods may be able to significantly bolster biological resistance against oxidants. Currently, great interest centres on the possible protective value of a wide variety of plant-derived antioxidant compounds, particularly those from fruits and vegetables.
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PMID:Oxidative stress: the paradox of aerobic life. 866 Mar 87

The appearance of specific types of leukocytes in inflammatory infiltrates may be governed by cell-specific chemoattractants called chemokines. In particular, monocyte chemoattractant protein 1 (MCP-1) has been implicated in diseases characterized by monocyte-rich infiltrates, including atherosclerosis, rheumatoid arthritis and multiple sclerosis. While we are beginning to understand the structural determinants that govern the activities of MCP-1 in vitro, we know much less about its physiological functions in vivo and its pathogenetic role in disease. However, recent data from genetically modified mice have begun to place MCP-1 in a central position in monocyte trafficking and activation.
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PMID:Monocyte chemoattractant protein 1: a potential regulator of monocyte recruitment in inflammatory disease. 879 88

Psychological status, including depressive symptoms, anxiety, and mastery, was measured in a community-based sample of 3,076 persons aged 55 to 85 with various chronic diseases. Strong, linear associations were found between the number of chronic diseases and depressive symptoms and anxiety, indicating that psychological distress among elderly people is more apparent in the presence of (more) diseases. Furthermore, in contrast to general assumptions that mastery is a relatively stable state, our results indicate that mastery is affected by having chronic diseases. The 8 groups of chronically ill patients (with cardiac disease, peripheral atherosclerosis, stroke, diabetes, lung disease, osteoarthritis, rheumatoid arthritis, or cancer) did differ in their associations with psychological distress. Psychological distress is most frequently experienced by patients with osteoarthritis, rheumatoid arthritis, and stroke, whereas diabetic and cardiac patients appear to be the least psychologically distressed. Differences in disease characteristics, such as functional incapacitation and illness controllability, may partly explain these observed psychological differences across diseases.
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PMID:Psychological status among elderly people with chronic diseases: does type of disease play a part? 880 61

Platelet activation in addition to blood coagulation abnormality is regarded as a primary factor of thrombosis by atherosclerotic obstruction. Therefore, the platelet activation on atherosclerosis is considered to correlate with shear stress generated between blood cells and endothelial cells in blood flow. P-selectin on the surface of the platelet membrane is measured by flowcytometry as a marker of platelet activation. Herein, we examined the phenomena of platelet activation and adherent platelets with leukocytes (ad-P.L) on stored platelet concentration (PC) and chronic rheumatoid arthritis (RA), moreover, of the adherent platelets or polymorphonuclear cells (PMN) with endothelial cells (EC) in shear stress by using an apparatus we devised. The rate of platelet activation and ad-P.L increased in PC with storage, and the sensitivity of platelets to thrombin decreased. The rate of platelet activation and ad-P.L increased in RA in vivo. Many adherent platelets with EC were found at a low shear rate on normal EC but at a high shear rate on denatured EC without any specific adherent property. Adherent PMN with EC had several hundred times more denatured EC than normal EC and the relationship with shear rate disappeared on denatured EC. The platelet activation and relationship between platelets or leukocytes and EC as to the cause of thrombosis are important subjects for future studies.
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PMID:[Adherent reaction among activated platelets, polymorphonuclear cells and vascular endothelial cells under thrombin stimulation or shear stress]. 881 62

Many immune-mediated inflammatory diseases are treated with corticosteroids. This type of treatment is, however, often afflicted with side-effects such as osteoporosis and atherosclerosis. During the last decades also sex steroids, such as estrogens, have been shown to have immunoregulatory properties. In this report we studied the effect of combined treatment with suboptimal doses of dexamethasone and estradiol on T lymphocyte mediated delayed type hypersensitivity (DTH), granulocyte-mediated inflammatory responses, immunoglobulin production and antigen specific antibody responses in mice. The results show that the two hormones display additive effects on suppression of DTH. In contrast, such additive effects were not observed in granulocyte-mediated inflammation. B lymphocyte activity, measured by immunoglobulin production and antigen-specific antibody responses, were increased after exposure to estradiol and suppressed by dexamethasone. In mice treated with both hormones the up regulation of B lymphocytes was still evident. The results could indicate the potential to use combinations of corticosteroids and estrogen in the treatment of T lymphocyte dependent rheumatic diseases such as rheumatoid arthritis (RA). In addition, the B lymphocyte stimulation by estrogen in cortisone exposed mice stimulate to future studies in humans if estrogen containing contraceptives or post menopausal hormone treatment could have triggering effects in patients with immune complex mediated diseases also when they are on corticosteroid treatment.
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PMID:Additive effects of suboptimal doses of estrogen and cortisone on the suppression of T lymphocyte dependent inflammatory responses in mice. 882 75

Transforming growth factor beta 1 (TGF beta) is a multifunctional cytokine that orchestrates response to injury via ubiquitous cell surface receptors. The biological activity of TGF beta is restrained by its secretion as a latent complex (LTGF beta) such that activation determines the extent of TGF beta activity during physiological and pathological events. TGF beta action has been implicated in a variety of reactive oxygen-mediated tissue processes, particularly inflammation, and in pathologies such as reperfusion injury, rheumatoid arthritis, and atherosclerosis. It was recently shown to be rapidly activated after in vivo radiation exposure, which also generates reactive oxygen species (ROS). In the present studies, the potential for redox-mediated LTGF beta activation was investigated using a cell-free system in which ROS were generated in solution by ionizing radiation or metal ion-catalyzed ascorbate reaction. Irradiation (100 Gray) of recombinant human LTGF beta in solution induced 26% activation compared with that elicited by standard thermal activation. Metal-catalyzed ascorbate oxidation elicited extremely efficient recombinant LTGF beta activation that matched or exceeded thermal activation. The efficiency of ascorbate activation depended on ascorbate concentrations and the presence of transition metal ions. We postulate that oxidation of specific amino acids in the latency-conferring peptide leads to a conformation change in the latent complex that allows release of TGF beta. Oxidative activation offers a novel route for the involvement of TGF beta in tissue processes in which ROS are implicated and endows LTGF beta with the ability to act as a sensor of oxidative stress and, by releasing TGF beta, to function as a signal for orchestrating the response of multiple cell types. LTGF beta redox sensitivity is presumably directed toward recovery of homeostasis; however, oxidation may also be a mechanism of LTGF beta activation that can be deleterious during disease mechanisms involving chronic ROS production.
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PMID:Redox-mediated activation of latent transforming growth factor-beta 1. 888 42

Angiogenesis, the sprouting of new blood vessels from pre-existing vessels, is a complex, multicellular phenomenon involving capillary endothelial cell (EC) proliferation, migration, and tissue infiltration. The elucidation of the biochemical and molecular factors which control angiogenesis is fundamental to our understanding of normal blood vessel development, as well as of the pathogenesis of abnormal blood vessel formation. Angiogenesis is associated with numerous physiological processes, including embryogenesis, wound healing, organ regeneration, and the female reproductive cycle. However, abnormal angiogenesis also plays a major role in the pathogenesis of tumor growth, rheumatoid arthritis, atherosclerosis and various retinopathies. The cellular and molecular mechanisms underlying both physiological and pathophysiological angiogenesis are only now beginning to be understood. Vascular endothelial growth factor was initially discovered as an unidentified tumor-derived factor which increased microvascular permeability (vascular permeability factor, VPF). Subsequently, it was determined that the protein exhibited mitogenic effects on endothelial cells, but not other cell types. Multiple receptor subtypes have been described which may in part explain the multiplicity of biological actions that have been ascribed to VEGF/VPF in the literature. In this overview, we briefly summarize what is currently known about VEGF and VEGF receptor biology, as well as VEGF receptor signal transduction mechanisms in endothelial cells.
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PMID:Vascular endothelial growth factor, a multifunctional polypeptide. 899 81

Leukocyte recruitment from the circulation into inflammatory tissues requires a series of soluble and cell-bound signals between the responding leukocyte and vascular endothelial barrier. Chemotactic factors are believed to be responsible for this selective adhesion and transmigration. A superfamily of small, soluble, structurally-related molecules called 'chemokines' have been identified and shown to selectively promote the rapid adhesion and chemotaxis of a variety of leukocyte subtypes both in vivo and in vitro. Chemokines are produced by almost every cell type in the body in response to a number of inflammatory signals, in particular those which activate leukocyte-endothelial cell interactions. These molecules also appear to play important roles in hematopoesis, cellular activation, and leukocyte effector functions. In addition, chemokines have been found in the tissues of a variety of disease states characterized by distinct leukocytic infiltrates, including rheumatoid arthritis, sepsis, atherosclerosis, asthma, psoriasis, ischemia/reperfusion injury, HIV replication, and a variety of pulmonary disease states. This review will primarily focus on the role of chemokines in cell adhesion and trafficking as well as their role as effector molecules.
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PMID:Chemokine-leukocyte interactions. The voodoo that they do so well. 902 58

Oxidative stress is implicated in the pathogenesis of numerous disease processes including diabetes mellitus, atherosclerosis, ischaemia reperfusion injury and rheumatoid arthritis. Chemical modification of amino acids in protein during lipid peroxidation results in the formation of lipoxidation products which may serve as indicators of oxidative stress in vivo. The focus of the studies described here was initially to identify chemical modifications of protein derived exclusively from lipids in order to assess the role of lipid peroxidative damage in the pathogenesis of disease. Malondialdehye (MDA) and 4-hydroxynonenal (HNE) are well characterized oxidation products of polyunsaturated fatty acids on low-density lipoprotein (LDL) and adducts of these compounds have been detected by immunological means in atherosclerotic plaque. Thus, we first developed gas chromatography-mass spectrometry assays for the Schiff base adduct of MDA to lysine, the lysine-MDA-lysine diimine cross-link and the Michael addition product of HNE to lysine. Using these assays, we showed that the concentrations of all three compounds increased significantly in LDL during metal-catalysed oxidation in vitro. The concentration of the advanced glycation end-product N epsilon-(carboxymethyl)lysine (CML) also increased during LDL oxidation, while that of its putative carbohydrate precursor the Amadori compound N epsilon-(1-deoxyfructose-1-yl)lysine did not change, demonstrating that CML is a marker of both glycoxidation and lipoxidation reactions. These results suggest that MDA and HNE adducts to lysine residues should serve as biomarkers of lipid modification resulting from lipid peroxidation reactions, while CML may serve as a biomarker of general oxidative stress resulting from both carbohydrate and lipid oxidation reactions.
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PMID:Lipoxidation products as biomarkers of oxidative damage to proteins during lipid peroxidation reactions. 904 7

Remodelling of the extracellular matrix resulting from increased secretion of metalloproteinase enzymes (MMPs) is implicated in many pathological conditions, including rheumatoid arthritis, restenosis following balloon angioplasty, atherosclerosis and cancer cell invasion and metastasis. Clear definition of the normal and pathological function of individual MMPs will benefit from approaches that use gene transfer to produce increases in MMP levels that mimic those observed in pathological conditions. Similarly, gene transfer methods leading to controlled increases in levels of the tissue inhibitor of metalloproteinases (TIMPs) will help to define the function of MMPs both in vitro and in vivo. Gene transfer of TIMPs may also have therapeutic potential in pathological conditions where inhibition of MMP activity may be beneficial. We have used the adenovirus serotype 5 vector system to generate replication-deficient recombinant adenoviruses capable of expressing the MMP-9, TIMP-1 or -2 genes. High level expression is driven by the cytomegalovirus major immediate early promoter (CMV IEP). Efficient and selective over-production of each recombinant protein was shown by immunofluorescence in either rabbit smooth muscle cells (SMC) or human MCF-7 adenocarcinoma cells. High level secretion directly dependent on the multiplicity of infection (MOI) was observed for each functional transgene by gelatin zymography. Using a quantitative ELISA assay, levels of recombinant TIMP-1 were detected when SMC were infected with as low as three plaque forming units (pfu) of virus per cell in vitro. A linear increase in TIMP-1 secretion was observed up to 1000 pfu/cell of virus (0.75 ng/10(4) cells/24 h at 3 pfu/cell to 1243 ng/10(4) cells/24h at 1000 pfu/cell). Similar levels of secretion of MMP-9 and TIMP-2 were observed by Western blot analysis using the same MOI of adenovirus. Thus, recombinant adenoviruses are an efficient and flexible system for high level expression of MMPs and TIMPs and will be useful tools in the study of matrix remodelling in vivo and in vitro.
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PMID:Development of recombinant adenoviruses that drive high level expression of the human metalloproteinase-9 and tissue inhibitor of metalloproteinase-1 and -2 genes: characterization of their infection into rabbit smooth muscle cells and human MCF-7 adenocarcinoma cells. 904 77


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