UMLS:C0036690 - FACTA Search

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

Vascular pathophysiology at the sites of bacterial infection and cancerous tissues share numerous common events similar to inflammatory tissue. Among them enhanced vascular permeability is the universal and hallmark event mediated by bradykinin. All 16 or more bacterial or fungal proteases we have examined activated one or more steps of the kinin generating Hageman-factor-kallikrein cascade. In the meantime, most of the microbial proteases rapidly inactivated various plasma inhibitors such as alpha 1-protease inhibitor and alpha 2-macroglobulin. In addition to the extracellular proteases, bacterial cell wall components (negatively charged LPS) of gram-negative bacteria and teichoic acid moieties of gram-positive bacteria activate the Hageman-factor-kallikrein system and exert hypotensive effects via kinin generation. Endotoxin (LPS) also induces nitric oxide synthase (NOS) which appears to exhibit a rather slow, but significant, effect in relaxing the vascular tone of the infected animal (thus hypotension). Furthermore, bacterial proteases can activate the matrix metalloproteinase (collagenase) resulting in exacerbation of tissue injury in the diseased animal. Many tumor cells or tissues excrete plasminogen activator, and hence activate plasminogen. The plasmin thus generated activates procollagenases, as well as the Hageman-factor-kallikrein system, resulting in pronounced extravasation. Fluid accumulation in pleural and ascitic carcinomatoses is largely due to the activated bradykinin-generating system. We can also demonstrate and control enhanced vascular permeability using kallikrein inhibitors, especially the polymer-conjugated soybean trypsin inhibitor which exhibits a prolonged plasma t1/2, kinin antagonists, NOS inhibitors, NO scavengers, inhibitors of prostaglandins and others. Bacterial proteases induce shock in mice which can be prevented by the soybean trypsin inhibitor by blocking the kallikrein-kinin cascade. Therapeutic use of kinin antagonists and a kallikrein inhibitor has been made for infectious diseases such as septicemia and in tumor pathology.
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PMID:Bradykinin and nitric oxide in infectious disease and cancer. 885 54

The effects of lipopolysaccharide (LPS) on the central nervous system, one of the first organs to be affected by sepsis, are still incompletely understood. Rat microglia (BMphi) constitute the main leukocyte-dependent source of reactive oxygen species in the central nervous system. The in vitro effect of LPS on agonist-stimulated superoxide (O2-) generation from BMphi appears controversial. Our purpose was to determine the time- and concentration-dependent effect of Escherichia coil LPS on phorbol-12 myristate 13-acetate-stimulated O2- generation from BMphi. Our results demonstrate that BMphi O2- generation in vitro peaked 17 h after stimulation of with .3 ng/mL LPS. Furthermore, stimulation of BMphi with LPS for 17 h resulted in the following concentration-dependent responses: .1-1 ng/mL LPS induced no prior mediator generation but potently enhanced subsequent phorbol-12 myristate 13-acetate-stimulated O2- generation; 3-10 ng/mL LPS caused nitric oxide, tumor necrosis factor-alpha (TNF-alpha), thromboxane B2 and matrix metalloproteinase-9 release although partially inhibiting ensuing phorbol-12 myristate 13-acetate-stimulated O2- generation; 30-100 ng/mL LPS, maximized nitric oxide, TNF-alpha, thromboxane B2, matrix metalloproteinase-9 generation with concomitant lactic dehydrogenase release although strongly deactivating successive phorbol-12 myristate 13-acetate-stimulated O2 production. Our in vitro studies suggest that enhanced release of these four mediators (nitric oxide, TNF-alpha, thromboxane B2, and matrix metalloproteinase-9) during stimulation of BMphi with LPS might play a critical role in the subsequent ability of BMphi to generate O2- in vivo. Potential clinical implications of our findings are suggested by the fact that LPS levels similar to the ones used in this study have been observed in cerebrospinal fluid both in Gram-negative meningitis and sepsis.
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PMID:Escherichia coli lipopolysaccharide potentiation and inhibition of rat neonatal microglia superoxide anion generation: correlation with prior lactic dehydrogenase, nitric oxide, tumor necrosis factor-alpha, thromboxane B2, and metalloprotease release. 1018 70

Previously we reported that alcohol abuse increases the incidence of the acute respiratory distress syndrome (ARDS) in septic patients, and that chronic ethanol ingestion in rats depletes alveolar epithelial glutathione and increases endotoxin-mediated lung edema. In this study we examined a potential mechanism by which ethanol-induced glutathione depletion could predispose to acute lung injury. We hypothesized that glutathione depletion activates matrix metalloproteinases (MMPs), thereby increasing degradation of the alveolar extracellular matrix (ECM) during sepsis. Ethanol-fed rats (20% vol/vol in water for 6 wk) were given endotoxin (2 mg/kg, intraperitoneally) followed 2 h later by lung isolation and ex vivo perfusion with n-formyl-methionyl-leucyl-phenylalanine (fMLP) (10(-)(7) M). Ethanol ingestion increased (p < 0.05) MMP-9 and MMP-2 activity, as determined by zymography, in the lung tissue and lavage fluid compared with control-fed rats, and increased (p < 0.05) levels of the 7S fragment of type IV collagen in the lung lavage fluid. Ethanol ingestion increased activation, but not production, of the MMP-9 and MMP-2 zymogens. Finally, although concomitant ingestion of N-acetylcysteine had no effect (p > 0.05) on MMP production, it increased (p > 0.05) lung glutathione levels, blocked (p < 0.05) MMP-9 and MMP-2 activation, and decreased (p < 0.05) levels of the 7S fragment of type IV collagen. We conclude that chronic ethanol ingestion, via glutathione depletion, activates MMPs during sepsis, thereby increasing degradation of the alveolar epithelial ECM. Lois M, Brown LAS, Moss IM, Roman J, Guidot DM. Ethanol ingestion increases activation of matrix metalloproteinases in rat lungs during acute endotoxemia.
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PMID:Ethanol ingestion increases activation of matrix metalloproteinases in rat lungs during acute endotoxemia. 1050 28

Monocytes play a pivotal role in various human infectious and inflammatory diseases. To reveal a whole picture of pathophysiologic function of activated human monocytes, this study used the serial analysis of gene expression (SAGE) procedure in lipopolysaccharide (LPS)-stimulated human monocytes. A total of 35 874 tags corresponding to more than 12 000 different transcripts were sequenced. Comparison of gene expression profile with that of resting monocytes revealed the LPS-inducible gene expression profile. Many cytokines and chemokines, including interleukin (IL)-6, IL-1alpha, IL-1beta, tumor necrosis factor (TNF)-alpha, macrophage inflammatory protein (MIP)-1beta, MIP-2beta, MIP-2alpha, liver and activation-regulated chemokine (LARC), MIP-1alpha, thymus and activation-regulated chemokine (TARC), macrophage-derived chemokine (MDC), regulated on activation, normal T cell expressed and secreted (RANTES), growth-regulated oncogene (GRO) alpha, and IL-8, were observed in the highest inducible transcripts. Other genes encoding plasminogen activator inhibitor type 2 (PAI-2), Hc-gp39, apolipoproteins, malate dehydrogenase, matrix metalloproteinase-9 (MMP-9), and cyclooxygenase (COX2) were also highly elevated in LPS-stimulated monocytes. Moreover, up-regulation of Naf1beta, IL-7 receptor, adenosine receptor A2a, and many novel genes was newly identified. These results suggest that the LPS-inducible gene products may be involved in cell activation and migration, angiogenesis, tissue remodeling, and metabolism, and thus may orchestrate the inflammatory reactions. On the other hand, the expression of numerous sets of novel genes was discovered to be down-regulated on LPS stimulation. This study represents the first comprehensive analysis of LPS-inducible gene expression in human monocytes and provides tremendous novel information for the function of LPS-activated monocytes and targets for diagnosing, monitoring, and treating sepsis and various human infectious and inflammatory diseases.
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PMID:Comprehensive gene expression profile of LPS-stimulated human monocytes by SAGE. 1100 15

Matrix metalloproteinase-9 is involved in the processing of cytokines during sepsis. We studied 10 critically ill patients within 12 h of fulfilling the American Consensus Conference criteria for severe sepsis and compared the results with 12 critically ill non-septic control patients and eight healthy subjects. Total matrix metalloproteinase-9 concentrations were measured on days 1, 2 and 3. The median admission Acute Physiological and Chronic Health Evaluation II score was 19.5 (range 13-27) in the septic patients and 20.5 (range 7-28) in the non-septic patients. Four patients from each group died within 28 days. Matrix metalloproteinase-9 concentrations were elevated significantly in both groups of patients compared with healthy subjects (p = 0.0004) but there was no difference between patients with and without sepsis. Matrix metalloproteinase-9 levels did not change with time, and there was no difference between survivors and those who died. We conclude that matrix metalloproteinase-9 represents a non-specific marker of systemic inflammation.
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PMID:Matrix metalloproteinase-9 concentrations in critically ill patients. 1184 64

Gelatinase B or matrix metalloproteinase-9 (MMP-9) is stored in the tertiary granules of polymorphonuclear leukocytes. These cells are key effectors in acute inflammatory diseases such as sepsis. Endotoxin leads to rapid release of gelatinase B from these granules in vitro and in vivo, but the role of this enzyme in bacterial sepsis and endotoxin shock remains unclear. We studied the clinical course of endotoxinemia and its relation with the expression of gelatinase B from the pool of circulating leukocytes in adult as well as in young mice in a model of endotoxin-induced shock and compared wild-type with gelatinase B-deficient mice. The gelatinase B-deficient mice were resistant to endotoxin shock, which implies that specific MMP-9 inhibition constitutes anapproach for the treatment of septic shock syndromes.
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PMID:Gelatinase B deficiency protects against endotoxin shock. 1220 28

Sepsis precipitates a systemic inflammatory stimulus that causes systemic release of cytokines and sequestration of polymorphonuclear neutrophils, resulting in degranulation of matrix metalloproteinases (MMPs), which causes extracellular matrix basement membrane degradation. One of the important anti-inflammatory properties of tetracyclines is their ability to inhibit MMPs. In this study, we focused on the regulation of MMPs in sepsis and their reduction by treatment with nonantimicrobial chemically modified tetracyclines (CMTs), which retain their anti-inflammatory activity. Sepsis was induced by cecal ligation and puncture (CLP) method. At 24 h and 1 h before CLP, some rats received CMT-3 (25 mg/kg), another group of rats received hydroxamate (H; an inhibitor of MMP; 25 mg/kg), and untreated rats received saline by gavage. At 0 h, 0.5 h, 1.5 h, and 24 h after CLP, blood and liver samples were collected. Plasma and liver MMP-9 by zymography and Western immunoblotting, plasma nitric oxide by measuring nitrate level, plasma glutamic oxaloacetic transaminase (GOT) and glutamic pyruvic transaminase (GPT) by enzymatic method, and liver gelatinase by radiolabeled gelatin lysis assay and 24 h mortality were determined. Plasma MMP-9 (92 kDa), nitrate, and GOT and GPT levels were elevated compared with the time 0 level and reached peak at 1.5 h CLP and remained high for 24 h. Both CMT-3 and H treatment reduced GOT,GPT, 92-kDa gelatinase, and nitrate levels throughout the 24 h. CMT-3 and H are equally effective in sepsis treatment. The 24-h mortality for CLP rats was 30%, whereas pretreatment with CMT-3 and H resulted in 0% mortality. Hepatic MMP-9 and gelatinase activity increased significantly after CLP, and pretreatment with CMT-3 and H inhibited these expressions. These results indicate the beneficial effect of CMT-3 in preventing the increase in GOT, GPT, NO, MMP-9, gelatinase activity, and the ensuing septic shock.
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PMID:Inhibition of matrix metalloproteinases by chemically modified tetracyclines in sepsis. 1292 2

Enhanced cardiac generation of peroxynitrite contributes to septic cardiomyopathy. Since matrix metalloproteinases (MMPs) are activated in vitro by peroxynitrite, we hypothezised that MMPs may contribute to cardiac mechanical dysfunction in sepsis. Rats were injected (i.p.) with either lipopolysaccharide (LPS, 4 mg/kg) or vehicle. MMP inhibitors, either Ro 31-9790 (20 mg/kg), doxycycline (4 mg/kg), or vehicle were administered i.p. 30 min after LPS. At 6 h, when the symptoms of endotoxemia peak, hearts were excised and perfused as working hearts with Krebs-Henseleit buffer at 37 degrees C. Cardiac work (cardiac output x peak systolic pressure product) was measured. Perfusate and ventricle samples were analyzed by gelatin zymography to quantify MMP activity. Cardiac function was significantly depressed in LPS-treated rats compared to control rats (control: 55 +/- 4, LPS: 26 +/- 6 mmHg*mL*min(-1)). LPS also caused a loss of 72 kDa MMP-2 activity in the ventricles and the perfusate. Although MMP-9 activity was not detected in the ventricles, LPS resulted in an increase in perfusate 92 kDa MMP-9 activity. The MMP inhibitors significantly improved cardiac function of LPS-treated rats (Ro 31-9790: 38 +/- 3, doxycycline: 51 +/- 3 mmHg*mL*min(-1)), had no effect on the loss of MMP-2 activity, and significantly reduced the MMP-9 activity in the perfusate. These results demonstrate, for the first time, that LPS induced cardiac dysfunction is associated with a loss in ventricular MMP-2 activity and the release of MMP-9 from the heart. MMP inhibitors can significantly preserve cardiac mechanical function during septic shock.
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PMID:Matrix metalloproteinase inhibitors attenuate endotoxemia induced cardiac dysfunction: a potential role for MMP-9. 1457 5

An imbalance in matrix metalloproteinases (MMPs) and the tissue inhibitors of metalloproteinases (TIMPs) leads to excessive or insufficient tissue breakdown, which is associated with many disease processes. The TIMP-3 null mouse is a model of MMP/TIMP imbalance, which develops air space enlargement and decreased lung function. These mice responded differently to cecal ligation and perforation (CLP)-induced septic lung injury than wild-type controls. The current study addresses whether the TIMP-3 knockout lung is susceptible to different types of insults or only those involving sepsis, by examining its response to lipopolysaccharide (LPS)-induced sepsis, mechanical ventilation (MV), and hyperoxia. TIMP-3 null noninjured controls of each insult consistently demonstrated significantly higher compliance vs. wild-type mice. Null mice treated with LPS had a further significantly increased compliance compared with untreated controls. Conversely, MV and hyperoxia did not alter compliance in the null lung. MMP abundance and activity increased in response to LPS but were generally unaltered following MV or hyperoxia, correlating with compliance alterations. All three insults produced inflammatory cytokines; however, the response of the null vs. wild-type lung was dependent on the type of insult. Overall, this study demonstrated that 1) LPS-induced sepsis produced a similar response in null mice to CLP-induced sepsis, 2) the null lung responded differently to various insults, and 3) the null susceptibility to compliance changes correlated with increased MMPs. In conclusion, this study provides insight into the role of TIMP-3 in response to various lung insults, specifically its importance in regulating MMPs to maintain compliance during a sepsis.
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PMID:Differential response of TIMP-3 null mice to the lung insults of sepsis, mechanical ventilation, and hyperoxia. 1580 39

Gram-negative sepsis, bacterial meningitis and endotoxin shock are life-threatening disorders, associated with the rapid release of neutrophil enzymes. Neutrophil collagenase/matrix metalloproteinase-8 (MMP-8) and gelatinase B/matrix metalloproteinase-9 (MMP-9) are contained in granules, are quickly exocytosed upon granulocyte activation and efficiently cleave intact and denatured collagens, respectively. Genetic ablation of gelatinase B protects against endotoxin-induced mortality. Therefore, we designed and synthesized a peptidomimetic gelatinase B inhibitor Regasepin1, and compared the selectivity for the collagenases MMP-1, MMP-8 and MMP-13. Regasepin1 was found to inhibit, almost to the same degree, the neutrophil enzymes MMP-8 and MMP-9 and the monocytic tumor necrosis factor-alpha (TNF-alpha) converting enzyme (TACE/ADAM-17) in vitro. With the use of mass spectrometry analysis, the plasma half-life of inhibitor levels was determined after an intraperitoneal bolus injection in mice. Plasma peak levels of the inhibitor were reached at 50 min after intraperitoneal injection and the subsequent half-life in the circulation exceeded 40 min. Regasepin1 protected mice against lethal endotoxinemia by intraperitoneal and intravenous injection routes. This proves the principle that early neutrophil MMP inhibition followed by TACE blockade may become a treatment strategy of gram-negative sepsis, endotoxinemia and other life-threatening inflammatory reactions.
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PMID:Targeting neutrophil collagenase/matrix metalloproteinase-8 and gelatinase B/matrix metalloproteinase-9 with a peptidomimetic inhibitor protects against endotoxin shock. 1599 79

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