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)

We have investigated the regulation of kinases and phosphatases in early gene activation in monocytes because these cells are implicated in the pathogenesis of acute inflammatory states, such as sepsis and acute lung injury. One early gene up-regulated by endotoxin is c-Jun, a member of the activating protein (AP) family. C-Jun is phosphorylated by c-Jun N-terminal kinase (JNK) and associates with c-Fos to form the AP-1 transcriptional activation complex that can drive cytokine expression. Inhibition of the serine/threonine phosphatase, PP2-A, with okadaic acid resulted in a significant increase in JNK activity. This finding was associated with increased phosphorylation of c-Jun, AP-1 transcriptional activity, and IL-1beta expression. Activation of PP2A inhibited JNK activity and JNK coprecipitated with the regulatory subunit, PP2A-Aalpha, supporting the conclusion that PP2A is a key regulator of JNK in the context of an inflammatory stimulus.
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PMID:The serine/threonine phosphatase, PP2A: endogenous regulator of inflammatory cell signaling. 1114 74

The serine-protease-inhibitor antithrombin III (AT III) has often been recommended for the therapy of septic patients as it provides anticoagulant and antiinflammatory actions. In animal studies the prophylactic treatment with AT III in a dose > 250 U/kg prevented the development of disseminated intravascular coagulopathy and vital organ dysfunction during sepsis and lowered the mortality rate. In clinical studies with septic patients therapy usually was started several hours after the start of the disease in dosages much lower than those used in animal studies. In these patients AT III-therapy improved laboratory changes of disseminated intravascular coagulopathy but was unable to lower the mortality rate. Hereditary AT III deficiency, lack of heparin effect due to low AT III levels, disseminated intravascular coagulation disorders are indications for the use of AT III while beneficial effects of AT III in patients suffering from SIRS, sepsis or septic shock have not yet been demonstrated.
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PMID:[Are there certified indications for the use of antithrombin III in intensive care]. 1132 45

Staphylococcus aureus is a prominent human pathogen. Here we report that intact S. aureus bacteria activate the contact system in human plasma in vitro, resulting in a massive release of the potent proinflammatory and vasoactive peptide bradykinin. In contrast, no such effect was recorded with Streptococcus pneumoniae. In the activation of the contact system, blood coagulation factor XII and plasma kallikrein play central roles, and a specific inhibitor of these serine proteinases inhibited the release of bradykinin by S. aureus in human plasma. Furthermore, fragments of the cofactor H-kininogen of the contact system efficiently blocked bradykinin release. The results suggest that activation of the contact system at the surface of S. aureus and the subsequent release of bradykinin could contribute to the hypovolemic hypotension seen in patients with severe S. aureus sepsis. The data also suggest that the contact system could be used as a target in the treatment of S. aureus infections.
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PMID:Staphylococcus aureus induces release of bradykinin in human plasma. 1134 54

In vascular smooth muscle, cyclic nucleotide-dependent phosphorylation of heat shock protein 20 (HSP20) on serine-16 (Ser16) has been suggested to cause force suppression, i.e., reduced force with only minimal myosin regulatory light chain (MRLC) dephosphorylation. We hypothesized that heat pretreatment also suppresses force by increasing HSP20 phosphorylation. After heat pretreatment of swine carotid artery at 44.5 degrees C for 4 h and reduction to 37 degrees C for 1 h, Ser16-HSP20 phosphorylation was increased and histamine-induced increases in contractile force were suppressed. Subsequent addition of nitroglycerin induced additive force suppression. Heat and nitroglycerin induced a similar relation between Ser16-HSP20 phosphorylation and force. Heat pretreatment induced a small, but significant, increase in total HSP20 immunostaining. These results demonstrate that vascular smooth muscle responds to thermal stress by increasing Ser16-HSP20 phosphorylation in addition to a possible small increase in total HSP20 concentration. The resulting heat-induced reduction in force should be considered "force suppression" because histamine-induced increases in MRLC phosphorylation were not significantly altered by heat pretreatment. These processes may bring about a resistance to contractile agonists, which could have clinical significance in conditions such as hyperthermia and/or sepsis with vasodilatory shock.
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PMID:Heat-induced force suppression and HSP20 phosphorylation in swine carotid media. 1213 54

C1 inhibitor (C1-Inh) is a protease inhibitor of the serpin family. It interacts and forms complexes with several serine proteases although not all these interactions were proved to be relevant in vivo. Based on studies in deficient patients, C1-Inh appears pivotal in regulating the activation of complement classical pathway and of contact system. The best recognized consequence of defective C1-Inh function is predisposition to episodes of self-limited, increased vascular permeability (angioedema) that is restricted to three specific sites, which include the subcutaneous space, the gut and the upper airway. Candidate mediator of angioedema is bradykinin, a potent vasoactive peptide, released upon contact system activation. Mutations in C1-Inh structural gene are the most common cause of C1-Inh deficiency and lead to hereditary angioedema. Recurrent angioedema are also seen in the acquired defect of C1-Inh that is due to autoantibodies against this protein or to an associated disease causing accelerated catabolism of C1-Inh. Apart from the profound deficiency of C1-Inh characteristic of angioedema, it has been suggested that, in specific pathologic settings, C1-Inh levels in the low normal range could still represent a significant functional deficiency. Such conditions, as extensively investigated in sepsis, are of great relevance because they open the possibility of using C1-Inh as therapeutic agent in several different diseases.
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PMID:Mechanisms of C1-inhibitor deficiency. 1239 14

Wide variations in the antibacterial potency and spectrum of quinolones are presumably attributable, in part, to their variable potency against the molecular targets, DNA gyrase and topoisomerase i.v. In addition, susceptibility of quinolones to resistance development via known point mutations in the target genes gyrA and parC/grlA varies depending on the effective affinities of the compounds toward the mutated targets. Using a medicinal chemistry approach, a series of 8-methoxy, Non-Fluorinated Quinolones (NFQs), with fluorine in the R6 position of the traditional fluoroquinolones replaced with hydrogen, were designed to retain potency against DNA gyrase and/or topoisomerase i.v. with point mutations in the serine-aspartate/glutamate hotspots. This resulted in compounds with antibacterial activity against a broad-spectrum of bacterial species, including multidrug-resistant gram-positive pathogens, such as methicillin-resistant Staphylococcus aureus (MRSA) and penicillin-resistant Streptococcus pneumoniae (PRSP). The efficacy of the NFQs was also demonstrated in a murine septicemia model. Furthermore, the design of the NFQs resulted in lower acute intravenous (i.v.) toxicity and clastogenicity relative to their 6-fluorinated counterparts. Use of the non-fluorinated quinolone nucleus allowed exploration of new structure-activity space and generation of a series of NFQs with unique combinations of affinities toward the wild type and mutated forms of the molecular targets.
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PMID:Non-fluorinated quinolones (NFQs): new antibacterials with unique properties against quinolone-resistant gram-positive pathogens. 1246 53

Human activated protein C (APC) is an antithrombotic, antiinflammatory serine protease that plays a central role in vascular homeostasis, and activated recombinant protein C, drotrecogin alfa (activated), has been shown to reduce mortality in patients with severe sepsis. Similar to other serine proteases, functional APC levels are regulated by the serine protease inhibitor family of proteins including alpha(1)-antitrypsin and protein C inhibitor. Using APC-substrate modeling, we designed and produced a number of derivatives with the goal of altering the proteolytic specificity of APC such that the variants exhibited resistance to inactivation by protein C inhibitor and alpha(1)-antitrypsin yet maintained their primary anticoagulant activity. Substitutions at Leu-194 were of particular interest, because they exhibited 4- to 6-fold reductions in the rate of inactivation in human plasma and substantially increased pharmacokinetic profiles compared with wild-type APC. This was achieved with minimal impairment of the anticoagulant/antithrombotic activity of APC. These data demonstrate the ability to selectively modulate substrate specificity and subsequently affect in vivo performance and suggest therapeutic opportunities for the use of protein C derivatives in disease states with elevated serine protease inhibitor levels.
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PMID:Engineering the proteolytic specificity of activated protein C improves its pharmacological properties. 1267 Oct 72

Neisseria meningitidis is a Gram-negative bacterium which colonizes the human upper respiratory tract. Occasionally, it translocates to the bloodstream causing sepsis and from there it can cross the blood-brain barrier and cause meningitis. Many of the molecules, which mediate the interaction of N. meningitidis to host cells, are still unknown. Recently, App (Adhesion and penetration protein) was described as a member of the autotransporter family and a homologue to the Hap (Haemophilus adhesion and penetration) protein of Haemophilus influenzae, a molecule that plays a role in the interaction with human epithelial cells. In this study we expressed app in Escherichia coli in order to analyse the functional properties of the protein. We show that the protein is exported to the E. coli surface, processed by an endogenous serine-protease activity and released in the culture supernatant. Escherichia coli expressing app adhere to Chang epithelial cells, showing that App is able to mediate bacterial adhesion to host cells. The serine protease activity is localized at the amino-terminal domain, whereas the binding domain is in the carboxy-terminal region. The role of App in adhesion was confirmed also in N. meningitidis.
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PMID:Neisseria meningitidis App, a new adhesin with autocatalytic serine protease activity. 1267 94

Many bacterial pathogens secrete proteins that activate host trypsinogen-like enzyme precursors, most notably the proenzymes of the blood coagulation and fibrinolysis systems. Staphylococcus aureus, an important human pathogen implicated in sepsis and endocarditis, secretes the cofactor staphylocoagulase, which activates prothrombin, without the usual proteolytic cleavages, to directly initiate blood clotting. Here we present the 2.2 A crystal structures of human alpha-thrombin and prethrombin-2 bound to a fully active staphylocoagulase variant. The cofactor consists of two domains, each with three-helix bundles; this is a novel fold that is distinct from known serine proteinase activators, particularly the streptococcal plasminogen activator streptokinase. The staphylocoagulase fold is conserved in other bacterial plasma-protein-binding factors and extracellular-matrix-binding factors. Kinetic studies confirm the importance of isoleucine 1 and valine 2 at the amino terminus of staphylocoagulase for zymogen activation. In addition to making contacts with the 148 loop and (pro)exosite I of prethrombin-2, staphylocoagulase inserts its N-terminal peptide into the activation pocket of bound prethrombin-2, allosterically inducing functional catalytic machinery. These investigations demonstrate unambiguously the validity of the zymogen-activation mechanism known as 'molecular sexuality'.
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PMID:Staphylocoagulase is a prototype for the mechanism of cofactor-induced zymogen activation. 1452 51

Sepsis is a common, life-threatening disease for which there is little treatment. The cysteine protease dipeptidyl peptidase I (DPPI) activates granule-associated serine proteases, several of which play important roles in host responses to bacterial infection. To examine DPPI's role in sepsis, we compared DPPI(-/-) and DPPI(+/+) mice using the cecal ligation and puncture (CLP) model of septic peritonitis, finding that DPPI(-/-) mice are far more likely to survive sepsis. Outcomes of CLP in mice lacking mast cell DPPI reveal that the absence of DPPI in mast cells, rather than in other cell types, is responsible for the survival advantage. Among several cytokines surveyed in peritoneal fluid and serum, IL-6 is highly and differentially expressed in DPPI(-/-) mice compared with DPPI(+/+) mice. Remarkably, deleting IL-6 expression in DPPI(-/-) mice eliminates the survival advantage. The increase in IL-6 in septic DPPI(-/-) mice, which appears to protect these mice from death, may be related to reduced DPPI-mediated activation of mast cell tryptase and other peptidases, which we show cleave IL-6 in vitro. These results indicate that mast cell DPPI harms the septic host and that DPPI is a novel potential therapeutic target for treatment of sepsis.
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PMID:Mast cell dipeptidyl peptidase I mediates survival from sepsis. 1496 72

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