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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It seems appropriate in a symposium dedicated to the examination of septicemia, that one of the topics for discussion should be the examination of the factors which allow circulating bacteria to adhere to intracardiac or vascular endothelium. In the last 10-12 years our understanding of the pathogenesis of this disease has increased markedly. This can be attributed to a large extent to the development by Dr Freedman and hist colleagues at Yale of reproducible, simple, inexpensive animal model of infective endocarditis. The purpose of this discussion will by to summarize studies aimed at helping to explain why bacteria stick to cardiac valves, what forms the stimulus for vegetation propagation, and some new idea for possible prevention of this event.
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PMID:Factors influencing the pathogenesis and prevention of infective endocarditis. 695 38

Nitric oxide (NO), identified as the biochemical messenger of endothelial-dependent relaxation, is of obvious chemical simplicity, but the range and complexity of its biological actions are only now emerging. NO is an important determinant of vascular resistance, it reduces thrombogenicity of the vascular endothelium, contributes to non-specific, host-defence mechanisms, and is a neurotransmitter in the peripheral and central nervous systems. In addition to these physiological roles, there is now convincing evidence that excessive, prolonged production of NO contributes to tissue damage in septicemia, ischemia/reperfusion injury, and other inflammatory conditions.
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PMID:Physiological and pathophysiological roles of nitric oxide. 753 76

Oxidant-mediated toxicity resulting from acute pulmonary inflammation has been demonstrated in acute lung injury. A potent biological oxidant, peroxynitrite, is formed by the near diffusion-limited reaction of nitric oxide with superoxide. In addition to having hydroxyl radical-like oxidative reactivity, peroxynitrite is capable of nitrating phenolic rings, including protein-associated tyrosine residues. Nitric oxide does not directly nitrate tyrosine residues, therefore, demonstration of tissue nitrotyrosine residues infers the action of peroxynitrite or related nitrogen-centered oxidants. Lung tissue was obtained from formalin-fixed, paraffin-embedded autopsy specimens, and specific polyclonal and monoclonal antibodies to nitrotyrosine were visualized by diaminobenzidene-peroxidase staining. Acute lung injury resulted in intense staining throughout the lung, including lung interstitium, alveolar epithelium, proteinaceous alveolar exudate, and inflammatory cells. In addition, staining of the vascular endothelium and subendothelial tissues was present in those patients with sepsis-induced acute lung injury. Antibody binding was blocked by coincubation with nitrotyrosine or nitrated bovine serum albumin but not by aminotyrosine, phosphotyrosine, or bovine serum albumin. Reduction of tissue nitrotyrosine to aminotyrosine by sodium hydrosulfite also blocked antibody binding. In control specimens with no overt pulmonary disease, there was only slight staining of the alveolar septum. These results demonstrate that nitrogen-derived oxidants are formed in human acute lung injury and suggest that peroxynitrite may be an important oxidant in inflammatory lung disease.
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PMID:Evidence for in vivo peroxynitrite production in human acute lung injury. 769 61

The ability of the vascular endothelium to elaborate cytokines in response to gram-positive sepsis has received limited attention. This study examined cytokine expression by human umbilical vein endothelial cells (EC) following infection with a gram-positive bacterial pathogen, Staphylococcus aureus. S. aureus infection of EC resulted in the production of interleukin-6 (IL-6) and IL-1 beta. For IL-6, message was detected at 3 h after infection, protein was present at 24 h, and both message and protein persisted for 72 h. IL-1 beta message was detected at 12 h, IL-1 beta protein was detected at 24 h, and both persisted for 72 h. Message for colony-stimulating factor 1 remained unaltered. UV-killed S. aureus also elicited IL-1 beta and IL-6 message and protein expression at 24 and 48 h. Twenty-one clinical isolates of S. aureus were tested, and all induced IL-6 release by 48 h. However, the laboratory strain 8325-4 did not induce cytokine expression at any time point and was internalized by EC 1,000-fold less than other strains were. Internalization of latex beads by EC did not induce IL-6 gene expression. Furthermore, cytochalasin D treatment of the EC prevented IL-1 and IL-6 induction by S. aureus but not by tumor necrosis factor alpha or lipopolysaccharide. These results indicate that S. aureus is a potent inducer of IL-1 and IL-6 in EC and that internalization of S. aureus by EC is necessary for their cytokine expression. Thus, our data suggest that the vascular endothelium may play an important role in the pathogenesis of septicemia caused by gram-positive organisms.
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PMID:Internalization of Staphylococcus aureus by endothelial cells induces cytokine gene expression. 772 92

Adhesion molecules play a critical role in the interaction of circulating neutrophils with vascular endothelium during inflammation. Increased quantities of soluble, circulating intercellular adhesion molecule-1 (cICAM-1) are present in various inflammatory conditions. The purpose of this investigation was to measure cICAM-1 levels in septic adults, as well as to examine the relationship between this potential marker of endothelial-cell activation and the consequences of sepsis (i.e., multiple organ failure and death). Using a sandwich-type enzyme-linked immunosorbent assay (ELISA), we measured cICAM-1 in blood samples obtained within 12 h of admission to an intensive care unit (ICU) for sepsis and other conditions. We found cICAM-1 levels to be increased in 25 septic patients (1,259 +/- 159 ng/ml, mean +/- SEM) as compared with 12 healthy volunteers (355 +/- 41 ng/ml, p < 0.0001) and four ICU patients without systemic inflammatory response syndrome (SIRS) (585 +/- 76 ng/ml, p < 0.001). Twenty-five patients with SIRS but no evidence of causative infection also had elevated levels of cICAM-1 (937 +/- 144 ng/ml, p = 0.12 versus sepsis). Serial measurements over the first week of sepsis demonstrated persistent elevation in most patients. Day 1 cICAM-1 levels were higher (p = 0.017, ANOVA) in 16 patients with septic shock than in seven with severe sepsis and two with sepsis but without hypotension or hypoperfusion. There was a positive correlation (r = 0.50, p = 0.009) between Day-1 cICAM-1 measurements and severity of shock as determined by the presence of hypotension and vasopressor use.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Circulating ICAM-1 is increased in septic shock. 773 95

The baboon model of E. coli sepsis illustrates three concepts with respect to the host response and vascular endothelium. First, the endothelium is the primary target. E. coli sepsis is an acute inflammatory disease of the vascular endothelium. Second, the endothelium is not a passive target. Initially it regulates both the inflammatory and coagulopathic aspects of E. coli sepsis through membrane associated regulatory receptor/plasma protein assemblies including protein C/thrombomodulin, activated protein C/protein S, C4bBP/protein S, tissue factor pathway inhibitor/Xa, antithrombin III/glycosaminoglycans. Third, when overridden by inflammatory events, the endothelium can change its anticoagulant phenotype and mount a massive procoagulant fibrinolytic counter-attack on its luminal side through the expression of tissue factor and release of tissue plasminogen activator. Fourth, again when overridden by inflammatory events, the endothelium can change its antioxidant phenotype and produce a "distal" tissue hypoxia on its abluminal side through induction of free radical generation and peroxidation of mitochondrial lipid membranes of those tissues with high metabolic rates. It has become increasingly clear that the so-called anticoagulant systems which act on the proximal factors of the clotting cascade (protein C, TFPI, AT-III, PGI2) also attenuate the amplification of the inflammatory response. Aspects of the mechanism by which this occurs are coming to light. This includes the attenuation of Il-6 response by TFPI and the attenuation of the complement effects by C4bBP/PS. The specifics of these observations in the E. coli sepsis model will be reviewed.
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PMID:Studies on the inflammatory-coagulant axis in the baboon response to E. coli: regulatory roles of proteins C, S, C4bBP and of inhibitors of tissue factor. 783 58

The vascular abnormalities that arise during sepsis imply disturbances in the delicately tuned homeostatic mechanisms of vascular endothelium and smooth muscle. In the microvasculature, smooth muscle tone represents a complex equilibrium among metabolic stimuli, hemodynamic forces, and neurohumoral influences. Local tissue perfusion also is modulated by vasoactive mediators that can be produced locally, through endothelium-dependent adhesion and activation of inflammatory cells, or at a distance. In sepsis, derangement of normal autoregulation of perfusion, together with toxic effects of mediators, may be severe enough to result in organ dysfunction. Recent advances in vascular biology have illuminated a variety of targets, such as adhesion molecules, platelet activating factor, and inducible nitric oxide synthase for potential therapeutic intervention in sepsis.
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PMID:Endothelial and vascular smooth muscle function in sepsis. 788 36

The vascular endothelium plays a central role in the regulation of extrinsic fibrinolysis and thus maintains vascular patency through clot dissolution. Plasminogen activation provides an important source of localized proteolytic activity not only during fibrinolysis but also during a variety of other physiological and pathological processes. Numerous studies have indicated that human endothelial cells can directly synthesize and secrete plasminogen activators (PA) and inhibitors of these activators. PAs specifically hydrolyse a single arginine-valine bond in plasminogen, an abundant and widely distributed plasma zymogen, to form the broad spectrum serine protease, plasmin. Tissue type-PA (t-PA) and urokinase type PA (u-PA) forms of PA have been described in endothelial cells, although t-PA production and secretion is elevated most frequently. The tPA form of PA functions predominantly in endothelial cell mediated fibrinolysis, while uPA is involved in tissue remodeling. During inflammatory reactions activated mononuclear phagocytes produce a variety of cytokines which may influence the phenotype of the endothelium through a process termed "endothelial cell activation". Tumor necrosis factor alpha (TNF alpha), a mononuclear cytokine, is a distinct polypeptide of Mr 17,000 and has been implicated as a mediator of gram negative induced sepsis as well as angiogenesis. TNF alpha is known to interact with specific endothelial cell receptors and to alter endothelial coagulant and anticoagulant properties implying that cytokines may be potent modulators of hemostasis. Recent observations have indicated that TNF alpha and lymphotoxin (TNF beta) can promote the expression, synthesis and secretion of urokinase plasminogen activator (uPA) in human endothelial cells. The upregulation of uPA results in an alteration in the fibrinolytic capacity of endothelial cells and allows cells the selective ability to degrade and invade underlying subendothelial extracellular matrix (ECM). Endothelial cells treated with TNF alpha also display, in an in vitro angiogenic assay, the ability to invade Matrigel and reorganize into tube-like structures, unlike control cultures. The effects of TNF alpha on the PA proteolytic system of endothelial cells, the biological significance of this event and potential in vivo consequences will be discussed. In addition, the influence of cytokine regulatory control systems will be described, since it is becoming increasingly clear that cytokines do not act in isolation. The vascular endothelium serves as a widely distributed anatomical interface between the blood and tissue with diverse capabilities, performing distinctive biologic functions at different sites and within specific organs.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cytokine regulation of endothelial cell extracellular proteolysis. 835 23

Induction of tissue factor (TF) expression on monocytes and endothelial cells is central to the development of septic coagulopathy. Serum concentrations of endotoxin in septic patients who develop disseminated intravascular coagulation (DIC) do not, however, reach the levels that would directly stimulate TF expression on either monocytes or endothelium. We show, using an in vitro coculture system, that the interaction of monocytes with endothelium induces the expression of significant levels of TF. Unstimulated cocultures of monocytes (2 x 10(4)/well) and endothelial cells (2 x 10(4)/well) produced 35.3 +/- 8.5 mU of PCA/well, representing a 5-fold increase over the combined PCA of each cell type cultured alone (7.1 +/- 1.5 mU, n = 6, P < 0.001). Significant enhancement was also found in the presence of low concentrations of LPS. Induction of TF protein was confirmed by Western blotting. Fixation of monocytes with paraformaldehyde completely abolished TF induction in cocultures, whereas fixation of endothelium had no effect, suggesting that TF induction occurred in monocytes rather than endothelial cells. Induction of TF in cocultures could be further augmented by preincubating the endothelial cells with IFN-gamma. When endothelium was prestimulated with 500 U/ml IFN-gamma there was 142 +/- 11% increase over unstimulated cocultures (n = 5, P < 0.01). TF induction was inhibited by 32 +/- 6% in the presence of anti-ICAM-1 mAb (n = 5, P < 0.01). Our results suggest that monocyte interactions with vascular endothelium, regulated by inflammatory cytokines, and mediated by adhesive ligand binding, leads to the induction of functional monocyte TF protein, which may be responsible for the initiation of DIC in sepsis.
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PMID:Induction of tissue factor expression in human monocyte/endothelium cocultures. 854 49

The traditional approach to hemostatic disorders in the injured patient has focused on bleeding rather than a hypercoagulable state. This strategy continues despite growing evidence from studies of coagulation disorders in other patient groups highlighting loss of organ function secondary to inappropriate coagulation rather than hemorrhage. While traditional testing is useful in screening for low levels of coagulation factors or platelet dysfunction, only obvious bleeding or significant fibrinolysis is identified. Cellular interactions, in particular those of the vascular endothelium, are not taken into account by these assays. More than 20 years have passed since coagulation abnormalities were reported in patients with severe infection. Despite recognition of this association in sepsis, we are only beginning to understand how coagulation abnormalities develop in injury and to consider strategies to counter them. While hemorrhage may be successfully treated in patients following trauma, thrombosis in the microcirculation often contributes to end-organ damage with irreversible ischemic changes that may lead to death.
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PMID:Activation of the clotting system and complement after trauma. 877 2

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