Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CAP18 (cationic antimicrobial protein of 18 kDa) was originally isolated from rabbit granulocytes using as an assay the agglutination of Re-lipopolysaccharide coated erythrocytes. The C-terminal 37 amino acids of CAP18 comprise the LPS-binding domain called RNIP, reactive nitrogen inhibitory peptide. Synthetic RNIP has broad antimicrobial activity versus both gram positive [IC50 = 130-200 nM] and gram negative bacteria [IC50 = 20-100 nM). Susceptible strains include Staphylococcus aureus, Klebsiella pneumoniae, Streptococcus pneumoniae, Escherichia coli, Pseudomonas aeruginosa, and Streptococcus pyogenes. Antimicrobial activity is highly dependent upon peptide structure. Although a 32 amino peptide resulting from truncation of five amino acids from the C terminus of RNIP is highly active, other fragments of RNIP including truncation of its N-terminus do not exhibit antimicrobial activity. Unlike previously characterized antimicrobial peptides derived from granulocyte proteins RNIP is active in serum. RNIP or a derivative peptide may have therapeutic potential for bacterial sepsis.
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PMID:Rabbit CAP18 derived peptides inhibit gram negative and gram positive bacteria. 783 54

Endotoxin(lipopolysaccharide = LPS), cell wall component of gram-negative bacteria, activates monocytes and macrophages to release cytokines, reactive nitrogen intermediates (RNI), and to generate tissue factor(TF) which initiate coagulation. We have purified 7kDa and 18kDa cationic antibacterial proteins (CAP-7 and CAP-18) with LPS-binding and LPS-neutralizing activities from rabbit granulocytes using as an assay the agglutination of erythrocytes coated with Re-LPS. From protein sequencing, CAP-7 was identified as the C-terminal 37 amino acid fragment of CAP-18. Synthetic peptide #197 (identical sequence to CAP-7, Gly1-Try37) and #36-1 (a truncation of CAP consisting of 32 amino acid residues, Gly1-Ala32) showed LPS-binding activity. Each peptide inhibited LPS-induced tissue factor(TF) generation by murine peritoneal macrophages, even added 1-3 hours after stimulation of cells with LPS. C57BL/6 mice treated with #197 were significantly protected from lethal LPS challenge. Peptide #36 also blocked the LPS-induced lethality. These peptides had antibacterial activity to gram-negative bacteria, such as E.coli, S.typhimurium, K.pneumonia, Ps.aeruginosa and also to gram-positive S.aureus (Methicillin sensitive and resistant strains). Both peptides inhibited TF- and Xa-induced plasma clotting. Using synthetic chromotogenic substrates, both CAP7 peptides blocked the coagulation cascade at two sites, activation of factor X to Xa and conversion of Factor II (prothrombin) to factor IIa (thrombin). In vivo treatment of peptide #197 prevented acute lethality in mice injected with tissue factor (rabbit brain thromboplastin). Two other peptides, #32(Gly1-Phe9) and #50(Ile13-Typ37) failed to demonstrate LPS-binding, LPS-neutralizing, antibacterial and anticoagulant activities. The active peptides but not the inactive peptide maintain a putative heparin binding domain at their N-termini. This heparin binding domain is participate in the LPS-binding, LPS neutralizing, antibacterial and anticoagulant activities of CAP7. These active peptides may have a therapeutic potential for treatment for DIC due to sepsis and endotoxin shock.
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PMID:Endotoxin-binding synthetic peptides with endotoxin-neutralizing, antibacterial and anticoagulant activities. 783 55

A cationic antimicrobial protein of 18 kDa (CAP18) was originally isolated from rabbit granulocytes by using as an assay the agglutination of Re-lipopolysaccharide-coated erythrocytes. The C-terminal 37 amino acids of CAP18 (CAP18(106-142)) make up the lipopolysaccharide-binding domain. Synthetic CAP18(106-142) has broad antimicrobial activity against both gram-positive (50% inhibitory concentration, 130 to 200 nM) and gram-negative (50% inhibitory concentration, 20 to 100 nM) bacteria. Susceptible strains include Staphylococcus aureus, Streptococcus pneumoniae, Escherichia coli, Pseudomonas aeruginosa, and Salmonella typhimurium. Antimicrobial activity is highly dependent on peptide structure. Although a 32-amino-acid peptide resulting from the truncation of 5 amino acids from the C terminus of CAP18(106-142) is highly active, other fragments of CAP18(106-142), including CAP18(106-142) with a truncated N terminus, do not exhibit antimicrobial activity. Unlike previously characterized antimicrobial peptides derived from granulocyte proteins, CAP18(106-142) is active in serum. CAP18(106-142) or a derivative peptide may have therapeutic potential for bacterial sepsis.
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PMID:Antimicrobial activity of rabbit CAP18-derived peptides. 810 14

Cationic antibacterial proteins (CAP) were purified from rabbit granulocytes, and the effects of CAP on lipopolysaccharide (LPS)-induced tissue factor generation by murine peritoneal macrophages and human blood monocytes were studied. CAP were purified from rabbit peritoneal leukocytes by using as an assay the agglutination of erythrocytes coated with Re-LPS. Two proteins with CAP activity, CAP18 (18 kDa) and CAP7 (7 kDa), were isolated by acid extraction, ethanol precipitation, affinity chromatography, gel filtration, and reverse-phase high-pressure liquid chromatography. On the basis of protein sequencing, CAP7 was identified as the C-terminal fragment of CAP18, designated CAP18(106-142). Various forms of LPS (S-LPS, Re-LPS, and lipid A) activate murine macrophages and human blood monocytes to generate tissue factor (tissue thromboplastin). Incubation of LPS for 18 h with partially purified CAP (heparin-Sepharose fraction) inhibited the capacity of LPS to induce tissue factor; however, purified CAP18 inhibited about 75% of the activity of S-LPS after 1 h of incubation. CAP more effectively inhibited S-LPS than Re-LPS or lipid A. Synthetic CAP18(106-142) inhibited LPS-induced tissue factor generation by murine macrophages. CAP18(106-142) has greater LPS-binding and LPS-neutralizing activities than CAP18. We hypothesize that CAP18 and the derivative peptide, CAP18(106-142), bind to LPS and alter the capacity of LPS to initiate disseminated intravascular coagulation. In this regard, CAP may have therapeutic potential for sepsis and endotoxin shock.
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PMID:Characterization of a rabbit cationic protein (CAP18) with lipopolysaccharide-inhibitory activity. 813 48

CAP18 (cationic antimicrobial protein, 18kDa) is a 142 amino acid protein originally isolated from rabbit granulocytes using agglutination of LPS-coated erythrocytes as an assay. CAP-18 is composed of an N-terminal domain of unknown function (CAP181-105) and a C-terminal LPS-binding domain (CAP18106-142). Synthetic CAP18106-142 and CAP18106-137, a 32-amino acid peptide resulting from the truncation of 5 amino acids from the C-terminus of CAP18106-142, inhibited LPS-induced tissue factor generation, nitric oxide production and TNF release by macrophages. Mice treated with CAP18106-142 or CAP18106-137 were significantly protected from LPS lethality. Although CAP18106-142 and CAP18106-137 were highly active, other fragments of CAP18106-142, including CAP18110-142 with a truncated N-terminus, did not exhibit LPS-binding and LPS-neutralizing activities. Both peptides had broad anti-microbial activity against both Gram-negative bacteria such as Escherichia coli, Salmonella typhimurium, Klebsiella pneumoniae, Pseudomonas aeruginosa (IC50; 40-100 nM) and Gram-positive bacteria such as Staphylococcus aureus(Methicillin sensitive and resistant strains) and Streptococcus pneumoniae (IC50; 100-200nM). We cloned a CAP18 family protein from human granulocytes. The cloned cDNA encoded 140 amino acid residues. Human CAP18 (CAP181-140) was highly homologous to that of rabbit. A 32- amino-acid C-terminal fragment (CAP18104-135) was shown to bind LPS, inhibit LPS-induced tissue factor generation by murine macrophages, and protect mice from LPS lethality. This peptide exhibited antimicrobial activity against both Gram-negative and Gram-positive bacteria. We hypothesize that CAP18 and the derived peptides bind to LPS and alter the capacity of LPS to initiate disseminated intravascular coagulation. In this regard, CAP may act as host defense protein against infectious diseases, and have therapeutic potential for sepsis and endotoxin shock.
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PMID:Structure and functions of endotoxin-binding peptides derived from CAP18. 852 37

Although type-specific IgG directed to the O-polysaccharide antigen of bacterial lipopolysaccharide (LPS) is protective in most models of LPS or bacterial challenge, no currently available IgG binds to LPS from all gram-negative bacteria. The ability of a peptide-IgG conjugate, CAP18(106-138)-IgG, to bind and neutralize LPS, to kill gram-negative bacteria, and to protect in a sensitized mouse model of LPS toxicity was studied. CAP18(106-138)-IgG bound LPS from multiple gram-negative bacteria in four different binding assays. In a fluid-phase RIA, half-maximal binding of 5 microg/mL 3H-labeled LPS occurred at 5-10 microg/mL CAP18(106-138)-IgG, similar to binding with monoclonal type-specific IgG. CAP18(106-138)-IgG neutralized LPS, as assessed by LPS-induced coagulation of limulus amebocyte lysate and production of tumor necrosis factor in vitro, was bactericidal for a wide range of gram-negative bacteria, and decreased LPS-induced lethality in sensitized mice. Antibacterial peptide-IgG conjugates merit further study as a novel adjunctive therapy for gram-negative sepsis.
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PMID:A novel peptide-IgG conjugate, CAP18(106-138)-IgG, that binds and neutralizes endotoxin and kills gram-negative bacteria. 904 34

The lipid A component of lipopolysaccharide (LPS) derived from Escherichia coli has been implicated as a significant mediator in the development of circulatory and metabolic dysfunction and lethality associated with sepsis. A synthetic peptide corresponding to amino acid residues 20 through 44 of the neutrophil-derived 37-kDa cationic antimicrobial protein (CAP37 P(20-44)) possesses lipid A binding characteristics which may be useful in attenuating in vivo responses induced during circumstances of endotoxemia, including sepsis. The E. coli LPS to be used in the in vivo study was shown to be attenuated by CAP37 P(20-44) in a dose-dependent manner in the in vitro reaction with Limulus amoebocyte lysate. Intravenous infusion of CAP37 P(20-44) (1.5 or 3.0 mg/kg of body weight) with E. coli LPS (250 microg/kg over 30 min) into conscious, unrestrained rats prevented LPS-induced hyperdynamic and hypodynamic circulatory shock, hyperlactacidemia, and leukopenia in a dose-related fashion. CAP37 P(20-44) (0.2, 1.0, and 5.0 mg/kg) administered intravenously to conscious, actinomycin D-sensitized rats following a lethal dose of LPS neutralized LPS toxicity, resulting in dose-dependent 7-day survival rates of 30, 50, and 80%, respectively. CAP37 P(20-44) (5.0 mg/kg) significantly inhibited the endotoxin-induced increase in circulating tumor necrosis factor alpha in sensitized rats. These data demonstrate that CAP37 P(20-44) has the capacity to abolish in vivo biological responses to LPS that are relevant to human sepsis and to significantly neutralize the toxicity of circulating E. coli LPS.
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PMID:A synthetic lipopolysaccharide-binding peptide based on the neutrophil-derived protein CAP37 prevents endotoxin-induced responses in conscious rats. 919 53

Group B Streptococcus (GBS) is the leading cause of bacterial sepsis and meningitis among neonates. While the capsular polysaccharide (CPS) is an important virulence factor of GBS, other cell surface components, such as C proteins, may also play a role in GBS disease. CPS production by GBS type III strain M781 was greater when cells were held at a fast (1.4-h mass-doubling time [td]) than at a slow (11-h td) rate of growth. To further investigate growth rate regulation of CPS production and to investigate production of other cell components, different serotypes and strains of GBS were grown in continuous culture in a semidefined and a complex medium. Samples were obtained after at least five generations at the selected growth rate. Cells and cell-free supernatants were processed immediately, and results from all assays were normalized for cell dry weight. All serotypes (Ia, Ib, and III) and strains (one or two strains per serotype) tested produced at least 3.6-fold more CPS at a td of 1. 4 h than at a td of 11 h. Production of beta C protein by GBS type Ia strain A909 and type Ib strain H36B was also shown to increase at least 5.5-fold with increased growth rate (production at a td of 1. 4 h versus 11 h). The production of alpha C protein by the same strains did not significantly change with increased growth rate. The effect of growth rate on other cell components was also investigated. Production of group B antigen did not change with growth rate, while alkaline phosphatase decreased with increased growth rate. Both CAMP factor and beta-hemolysin production increased fourfold with increased growth rate. Growth rate regulation is specific for select cell components in GBS, including beta C protein, alkaline phosphatase, beta-hemolysin, and CPS production.
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PMID:Regulation of cell component production by growth rate in the group B Streptococcus. 1046 11

Human cationic antimicrobial protein, CAP37, is released from neutrophil granules during infection. CAP37 attracts monocytes, binds Gram-negative endotoxin (lipopolysaccharide, LPS), is bactericidal for a range of Gram-negative bacteria, and reduces mortality in murine polymicrobial sepsis. Here, we report that recombinant CAP37 specifically targets murine peritoneal macrophages. Under steady-state conditions, the bulk of cell-associated CAP37 was localized at the plasma membrane. However, a fraction of CAP37 gained access to the endocytic system, but did not accumulate in recycling endosomes or in the trans-Golgi network (TGN). Instead, CAP37 was internalized by fluid phase endocytosis and accumulated in a prelysosomal compartment. Macrophages that were preexposed to CAP37 exhibited diminished LPS responsiveness, as determined by analysis of c-Jun phosphorylation. Further examination showed that pretreatment with CAP37 reduced the ability of macrophages to bind LPS. Taken together, these observations demonstrate that prolonged exposure to CAP37 desensitizes macrophages to LPS and suggest that this protein plays a novel anti-inflammatory role in polymicrobial sepsis.
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PMID:Human neutrophil-derived CAP37 inhibits lipopolysaccharide-induced activation in murine peritoneal macrophages. 1527 64

The aim of the present study was to identify released proteins of Streptococcus agalactiae and to investigate their immunoreactivity with human sera to determine whether such proteins might be viable as carrier proteins in conjugate vaccines. Infections with S. agalactiae are the leading cause of sepsis and meningitis in neonates. Vaccination of women of childbearing age would be a desirable alternative to intrapartum antibiotic prophylaxis, but factors that mediate S. agalactiae invasive disease and virulence are poorly defined. Capsule-based vaccines have shown only low immunogenicity to date, and interest has shifted towards S. agalactiae proteins, either as candidate vaccine antigens or as carrier proteins for serotype-specific S. agalactiae polysaccharides. In this study, some major released proteins of S. agalactiae could be identified, including molecules known to be present on the surface of bacterial cells but not previously described as released proteins, such as CAMP factor, a phosphocarrier protein, aldolase, enolase, PcsB, and heat-shock protein 70. Serotype-specific differences in the protein patterns of extracellular products and immunoreactivity with human sera could be detected by SDS-PAGE and Western blot. The identification of unexpected released proteins may indicate secondary functions for these proteins. In addition, the widespread immunoreactivity of these proteins with human sera as shown by Western blot indicates that released proteins may be promising candidates as carrier proteins in conjugate vaccines.
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PMID:Identification and immunoreactivity of proteins released from Streptococcus agalactiae. 1549 Feb 93


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