Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chemokines contribute to the inflammatory response by selective attraction of various leukocytic cell types. Human GCP-2 was originally identified by amino acid sequence analysis as a CXC chemokine co-produced with IL-8 by osteosarcoma cells. Furthermore, the complete coding domain of human GCP-2 was disclosed by means of RT-PCR. Similarly, mouse GCP-2 was isolated from fibroblastoid and epithelial cells and completely identified by sequence analysis. Human and mouse GCP-2 share 61% identical amino acids. Both chemokines occur as multiple NH2-terminally truncated forms. The shorter forms of mouse, but not those of human, GCP-2 showed a higher neutrophil chemotactic potency and gelatinase B releasing capacity. Mouse GCP-2 was a more potent neutrophil activator than human GCP-2, natural mouse KC, and MIP-2. Human GCP-2 was not chemotactic for monocytes, lymphocytes, or eosinophils. Quantitative studies of mRNA expression in diploid fibroblasts revealed GCP-2 induction by IL-1beta. Human GCP-2 induced [Ca2+]i increase in neutrophils, which was reciprocally desensitized by IL-8, GROalpha, and ENA-78. Human GCP-2 induced [Ca2+]i increases and chemotactic responses in both CXCR1- and CXCR2-transfected cells. Finally, GCP-2 provoked neutrophil accumulation and plasma extravasation in rabbit skin. In humans, GCP-2 complements the activity of IL-8 as neutrophil chemoattractant and activator but it constitutes a major neutrophil chemokine in the mouse. GCP-2 induces neutrophil chemotaxis and activation but it might also contribute to detrimental tissue damage in sepsis, acute respiratory distress syndrome, acute hypersensitivity reactions, and autoimmune diseases. It might also influence the invasive capacity of GCP-2-secreting tumor cells.
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PMID:Granulocyte chemotactic protein-2 and related CXC chemokines: from gene regulation to receptor usage. 936 9

Staphylococcus aureus infection is, despite adequate antibiotic treatment, a disease characterized by high mortality. The bacterium triggers an exaggerated immune response in the host, which on the one hand acts as an efficient defense, but on the other hand gives rise to tissue damage. In this study we have modulated the hosts response to S. aureus by inhibition of nuclear factor kappaB (NF-kappaB) and activator protein-1 (AP-1)-triggered release of pro-inflammatory cytokines and tissue-destructive proteins, respectively. Mice were administered with antisense oligonucleotides (ODN) to the p65 subunit of NF-kappaB and/or a double-stranded oligonucleotide (mCoAP-1) with homology to the murine AP-1 binding site of collagenase IV gene (metalloproteinase-9; MMP-9), solely or in combination with antibiotics. In mice systemically treated with antisense ODN to NF-kappaB p65 alone, the bacterial burden in the kidneys was significantly increased (P = 0.04) The same tendency was seen when mCoAP-1 was administered either alone or in combination with antibiotics. We also found significantly (P = 0.04) elevated levels of IL-6 in p65 antisense treated mice. Surprisingly, this p65 antisense therapy approach, which has turned out to be highly efficient in amelioration of aseptic arthritis and colitis, failed to change the clinical course of either septic arthritis or sepsis. We suggest that interaction with transcription factors leads to increased bacterial burden in vivo, abrogating the potential benefits of the anti-inflammatory properties exerted by these compounds.
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PMID:Impact of transcription factors AP-1 and NF-kappaB on the outcome of experimental Staphylococcus aureus arthritis and sepsis. 1141 26

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

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

Enhanced plasma levels of matrix metalloproteinase 9 (MMP-9) detected in patients with severe sepsis are thought to contribute to the development of organ dysfunction in endotoxemia. We have recently reported that peptidoglycan, the major wall component of gram-positive bacteria, increases MMP-9 levels in lung and liver and organ injury in the rat. Thus far, it is unclear whether MMP-9 is part of the septic response to peptidoglycan in human blood. The aim of the present study was to examine the regulation of MMP-9 by peptidoglycan in human leukocytes. The addition of peptidoglycan to whole human blood caused enhanced levels of MMP-9 after 1 h of incubation (306 vs. 75 ng/mL, P < or = 0.05) and onward, as measured by enzyme-linked immunoabsorbant assay. In neutrophil cultures, MMP-9 values increased significantly after 30 min of incubation with peptidoglycan (242 vs. 121 ng/mL, P < or = 0.05), whereas muramyl dipeptide had no effect. In contrast, adherent monocytes released insignificant amounts of MMP-9. To examine whether the released MMP-9 resulted from de novo synthesis, intracellular and secreted MMP-9 was measured during stimulation of neutrophils. The total MMP-9 values (the sum of intracellular and secreted MMP-9) before and after stimulation were mainly unaltered. The enhanced MMP-9 levels induced by peptidoglycan was attenuated by inhibitors of p38 mitogen-activated protein kinases (MAPK), (SB202190, 25 microM) and ERK1/2 (PD98059, 25 microM) and inhibitors of Src Tyrosine kinase (PP2, 5 microM) and PI3-K (LY294002, 25 microM).
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PMID:Peptidoglycan of Staphylococcus aureus induces enhanced levels of matrix metalloproteinase-9 in human blood originating from neutrophils. 1613 59

Streptococcus suis, an early colonizer of the upper respiratory tract, is a major swine pathogen worldwide that can cause meningitis, arthritis, pneumonia, and septicemia. While numerous studies on potential virulence factors of S. suis have been carried out over the past decade, the exact mechanisms by which this bacterium invades the host and migrates through the blood brain barrier (BBB) remain unclear. In the study presented here, we show that whole cells of S. suis were able to upregulate the production of prostaglandin E2 (PGE2) and matrix metalloproteinase 9 (MMP-9) by U937 human monoblastic cells differentiated into adherent macrophages in a dose- and time-dependent way. Capsular material and cell wall of S. suis were tested to determine which component was responsible for the induction of PGE2 and MMP-9 production by macrophages. The capsular material, even at low concentrations, strongly stimulated the production of PGE2 and MMP-9. While no stimulation was observed with the purified cell wall material, combining it with the capsular material resulted in a significant synergic effect on PGE2 and MMP-9 production. S. suis-mediated MMP-9 and PGE2 production by human macrophages may play a critical role in BBB disruption and tissue destruction.
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PMID:Upregulation of prostaglandin E2 and matrix metalloproteinase 9 production by human macrophage-like cells: synergistic effect of capsular material and cell wall from Streptococcus suis. 1632 19

A reliable and specific test that discriminates between acute neutrophil activation and chronic inflammatory disease may be useful in clinical decision making in a variety of conditions encountered in veterinary medical practice. An ELISA specific for neutrophil-derived haptoglobin-matrix metalloproteinase 9 (Hp-MMP 9) complexes was used to determine serum concentrations of Hp-MMP 9 and was compared to ELISA assays for Haptoglobin (Hp) and matrix metalloproteinase 9 (MMP 9) in 15 animals with acute sepsis, 10 animals with chronic inflammatory or metabolic disease and 10 healthy cows. Animal disease classifications were completed prior to the determination of serum concentrations of the 3 proteins. Duration of illness, disease process and lesions observed at necropsy were used to place animals into a specific classification. The serum MMP 9 concentrations in healthy cows differed significantly from those measured in sera of acutely septic and chronically ill animals. Serum haptoglobin concentrations in healthy cows were negligible when compared to animals with acute septic or chronic diseases. There was substantial overlap in MMP 9 and Hp concentrations between acute and chronic disease animals. In contrast, serum concentrations of Hp-MMP 9 complexes found almost exclusively in sera from acutely septic animals but not in chronically ill and normal cattle. The Hp-MMP 9 ELISA may be the serological test of choice in the determination of systemic inflammation associated with bacterial sepsis.
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PMID:Serum haptoglobin-matrix metalloproteinase 9 (Hp-MMP 9) complex as a biomarker of systemic inflammation in cattle. 2083 24

Excessive neutrophil infiltration is a major component in septic lung injury, although the signaling mechanisms behind pulmonary recruitment of neutrophils in polymicrobial sepsis remain elusive. Herein, we hypothesized that Rho-kinase activity may play a significant role in pulmonary neutrophil recruitment and tissue damage in abdominal sepsis. Male C57BL/6 mice were treated with the Rho-kinase inhibitor Y-27632 (0.5 or 5 mg/kg) before cecal ligation and puncture (CLP). Bronchoalveolar lavage fluid and lung tissue were harvested for analysis of neutrophil infiltration, as well as edema and CXC chemokine formation. Blood was collected for analysis of Mac-1 on neutrophils and CD40L on platelets as well as soluble CD40L and matrix metalloproteinase 9 (MMP-9) in plasma. Cecal ligation and puncture triggered significant pulmonary damage characterized by neutrophil infiltration, increased levels of CXC chemokines, and edema formation in the lung. Furthermore, CLP upregulated Mac-1 expression on neutrophils, decreased CD40L on platelets, and increased soluble CD40L and MMP-9 in the circulation. Interestingly, inhibition of Rho-kinase dose-dependently decreased CLP-induced neutrophil expression of Mac-1, formation of CXC chemokines and edema, as well as neutrophil infiltration and tissue damage in the lung. Moreover, Rho-kinase inhibition significantly reduced sepsis-provoked gene expression of CXC chemokines in alveolar macrophages. In contrast, Rho-kinase inhibition had no effect on platelet shedding of CD40L or plasma levels of MMP-9 in septic mice. In conclusion, these data demonstrate that the Rho-kinase signaling pathway plays a key role in regulating pulmonary infiltration of neutrophils and tissue injury via regulation of CXC chemokine production in the lung and Mac-1 expression on neutrophils in abdominal sepsis.
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PMID:Rho-kinase signaling regulates pulmonary infiltration of neutrophils in abdominal sepsis via attenuation of CXC chemokine formation and Mac-1 expression on neutrophils. 2226 75

Research on matrix metalloproteinases (MMPs) and in particular on gelatinase B, alias MMP-9, has grown exponentially in the decade 2003-2012. Structural details about flexibility of MMP-9 monomers, together with glycosylation, oligomerization, heterogeneity and instability of the wildtype enzyme explain why crystallography experiments have not yet been successful for the intact enzyme. MMP-9 may be viewed as a multidomain enzyme in which the hemopexin, the O-glycosylated and the catalytic domains yield support for attachment, articulation and catalysis, respectively. The stepwise proteolytic activation of the inactive zymogen into a catalytically active form becomes gradually better understood. Priming of activation by MMP-3 may be executed by meprins that destabilize the interaction of the aminoterminus with the third fibronectin repeat. Alternatively, autocatalytic activation may occur in the presence of molecules that tightly bind to the catalytic site and that push the cystein residue in the prodomain away from the catalytic zinc ion. Thanks to the development of degradomics technologies, substrate repertoires of MMP-9 have been defined, but it remains a challenge to determine and prove which substrates are biologically relevant. The substrate repertoire has been enlarged from extracellular to membrane-bound and efficient intracellular substrates, such as crystallins, tubulins and actins. Biological studies of MMP-9 have tuned the field from being primarily cancer-oriented towards vascular and inflammatory research. In tumor biology, it has been increasingly appreciated that MMP-9 from inflammatory cells, particularly neutrophils, co-determines prognosis and outcome. Aside from the catalytic functions executed by aminoterminal domains of MMP-9, the carboxyterminal hemopexin (PEX) domain of gelatinase B exerts non-catalytic anti-apoptotic signaling effects. The recognition that gelatinase B is induced by many pro-inflammatory cytokines, whereas its inhibitors are increased by anti-inflammatory cytokines, has generated interest to target MMP-9 in acute lethal conditions, such as bacterial meningitis, sepsis and endotoxin shock, and in acute exacerbations of chronic diseases. Previously described transcriptional regulation of MMP-9 is complemented by epigenetic checkpoints, including histone modifications and microRNAs. Because activation of proMMP-9 may be executed by other MMPs, the therapeutic dogma that MMP inhibitors need to be highly selective may be keyed down for the treatment of life-threatening conditions. When inflammation and MMP-9 fulfill beneficial functions to clear damaging protein complexes, such as in systemic autoimmune diseases, therapeutic MMP inhibition has to be avoided. In Mmp9 gene knockout mice, specific spontaneous phenotypes emerged with effects on the skeletal, reproductive and nervous systems. These findings not only have clinical correlates in bone growth and fertility, but also stimulate research on the roles of MMPs and MMP-9 in endocrinology, immunology and the neurosciences. Mmp9-deficient mice are valuable tools to define MMP-9 substrates in vivo and to study the role of this enzyme in animal models of inflammatory, vascular, neoplastic and degenerative diseases. Future challenges include solving the crystal structure, definition of the functions of covalent oligomers and heteromers in biology and pathology, life-imaging of MMP-9 activity, substrate determination in situ and the study of inhibitor effects on fertility, cancer and inflammation and in neurobiology and regenerative medicine. Such studies will better define conditions in which inhibition of MMP-9 is beneficial or has to be avoided.
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PMID:Biochemistry and molecular biology of gelatinase B or matrix metalloproteinase-9 (MMP-9): the next decade. 2354 85


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