EC:3.4.21.4 - FACTA Search

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

Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

When Streptococcus pyogenes group A type 3 strain C203 (M+) and its M-protein-lacking derivative, strain C203S (M-), were treated with normal human serum in the presence of magnesium-EGTA [ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid], virulent M+ bacteria bound only 10 to 30% as much C3 and factors B and P as did avirulent M- bacteria. After treatment of M+ bacteria with trypsin, which inactivates M protein, their binding of these substances was similar to that of M- bacteria. Pretreatment of M+ bacteria with the Fab fragment of rabbit immunoglobulin G anti-M antibody also increased their binding of C3 in the absence of Ca2+. Therefore, M protein inhibits the alternative C3 convertase. In contrast, in the presence of Ca2+ and Mg2+, M+ bacteria bound 75% as much C3 as M- bacteria. This binding was mostly mediated by classical pathway activation, because M+ bacteria bound much smaller amounts of factors B and P than did M- bacteria but consumed amounts of C4 and C2 comparable to those consumed by M- bacteria. On the other hand, the amount of C5 bound to M+ bacteria was much less than that bound to M- bacteria, and the consumption of C5 and C8 by M+ bacteria was also much less than that by M- bacteria. Therefore, M protein does not inhibit the classical C3 convertase but does inhibit the classical C5 convertase. When M+ and M- streptococci were incubated with normal human serum containing radiolabeled C3 in the presence of Ca2+ and Mg2+, more than 85% of the C3 bound to either type of streptococcus was extractable by sodium dodecyl sulfate and alkali treatment. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of the C3 extracted from both strains showed that it was mostly C3b and iC3b. The proportions of C3b and iC3b, respectively, were 7.5 and 71.9% on M+ bacteria and 18.9 and 58.4% on M- bacteria. These results support and extend previous findings that the antiphagocytic activity of streptococcal M protein may be due to complement inhibition mediated by the binding of factor H.
...
PMID:Inhibition of the alternative C3 convertase and classical C5 convertase of complement by group A streptococcal M protein. 214 80

Changes in complement levels and protease inhibitors were measured in plasma/serum and peritoneal fluid during 15 attacks of acute pancreatitis. The abnormalities found in the complement system and the protease inhibitors were most pronounced in severe attacks, especially in the peritoneal fluid. Depressed levels of C1q, C3, properdin, and factor I were found in blood on admission in severe attacks. A decrease during the first days of illness was found for C1q, C3, C4, properdin, factor I, and factor H levels in blood. There was a discrepancy between the low C1q and the high C1r and C1s levels in blood. Complexes of C1r-C1s-C1 inactivator and factor B conversion products were found, especially in the peritoneal fluid, denoting an activation of the complement system. High levels of trypsin in complex with alpha 1-protease inhibitor were found, both in blood and in peritoneal fluid, denoting the liberation of active trypsin in acute pancreatitis. The levels of the functional alpha 2-macroglobulin were low, especially in the peritoneal fluid. It is concluded that both classical and alternative complement activation take place in acute pancreatitis, starting in the peritoneal cavity. The magnitude of activation depends on the severity of the disease. Trypsin-induced activation of complement components may explain some of these changes.
...
PMID:Correlation among complement activation, protease inhibitors, and clinical course in acute pancreatitis in man. 240 21

Factor H is a major regulatory protein of the complement system. The complete cDNA coding sequence has been derived from overlapping clones, and a polymorphism at base 1277 has been characterized. In four clones there is a T at nucleotide 1277 and in two others there is a C. This T/C change represents a tyrosine/histidine polymorphism at position 384 in the derived amino acid sequence. Protein sequence studies on peptides generated by trypsin digestion of factor H, purified from pooled plasma from 12 donors, confirmed the presence of both tyrosine and histidine at this position. Tyrosine and histidine were observed in a ratio of 2:1, respectively, and therefore this polymorphism is likely to represent a sequence difference between the two most abundant charge variants, FH1 and FH2, of factor H.
...
PMID:Sequence polymorphism of human complement factor H. 296 36

The platelet binding properties of human monoclonal lupus autoantibodies have been studied. These IgM autoantibodies, produced by human X human hybridomas derived from lymphocytes of patients with systemic lupus erythematosus, are known to bind to single-stranded DNA. Four anti-DNA antibodies that express the dominant 16/6 idiotype--HF2-1/17, HF2-18/2, HF2-1/13b, and HF3-16/6--bound to glutaraldehyde-fixed platelets. In contrast, HF6-21/28, HF9-11/3, and polyclonal IgM bound poorly to platelets. [35S]Methionine was incorporated into HF2-1/17, and the interaction of the intrinsically radiolabeled HF2-1/17 with fixed platelets was evaluated in a solution phase radioimmunoassay. [35S]Methionine HF2-1/17 bound to fixed platelets and could be displaced by equivalent amounts of HF2-1/17, HF2-18/2, HF2-1/13b, and HF3-16/6. HF2-1/17 bound with greater affinity to fresh platelets and to thrombin-activated platelets than to glutaraldehyde-fixed platelets. Single-stranded DNA competed with platelets for the HF2-1/17 combining site. Treatment of fresh platelets with nuclease I, trypsin, chymotrypsin, and neuraminidase did not alter the binding of antibody to the platelet surface. No binding of antibody to phospholipid micelles was observed. Purified IgM autoantibodies did not inhibit platelet aggregation induced with ADP, thrombin, or ristocetin in platelet-rich plasma. These results indicate that the human IgM monoclonal anti-DNA autoantibodies that express the dominant 16/6 idiotype are polyspecific, bind to platelets, and interact with a platelet epitope that does not appear to involve DNA, protein, or sialic acid. These antibodies interact with platelets through the same sites responsible for antibody-DNA binding.
...
PMID:Platelet binding properties of monoclonal lupus autoantibodies produced by human hybridomas. 406 19

The occurrence and distribution of distinct receptors for three C3 fragments on purified human blood lymphocytes were studied by rosette formation. Indicator cells were bovine, chicken, or sheep erythrocytes (E) bearing up to 100,000 molecules of human C3b (EC3b) without antibody. EC3b was converted to C3bi-bearing-E (EC3bi) with purified C3b inactivator (factor I) and beta1H (factor H), and to C3d-bearing E (EC3d) by treatment of EC3bi with trypsin. Using bovine E (Eb) as indicators, approximately 11% of the lymphocytes bound EbC3b, 6% bound EbC3bi and 2% bound EbC3d. Fractionation of the lymphocytes by adsorption to monolayers of C3-fragment-bearing Eb or by rosetting indicated that most of the cells with receptors for C3b were distinct from those having receptors for C3bi and/or C3d. Cells from two lymphoblastoid cell lines (Raji and Daudi) formed strong rosettes with EC3b, which were weak. 51Cr-labeled E was used as a target in antibody, C3-fragment-bearing E was not lysed by the lymphocytes. However, at suboptimal concentrations of IgG enhancing capacity of the fragments occurred in the order of C3bi greater than C3d greater than C3b. In addition, C3-fragment-bearing cells inhibited the lysis of antibody-coated cells not concluded that target cell bound C3 fragments enhance ADCC by improving contact between target cells and those effector cells which have C3 receptors. Cell-bound C3 effector cells. It is proposed that certain lymphocytes are capable of interacting with C3bi in addition to C3b and C3d and that C3bi and C3d have a greater regulatory effect on their cytolytic function than C3b.
...
PMID:Interaction of target cell-bound C3bi and C3d with human lymphocyte receptors. Enhancement of antibody-mediated cellular cytotoxicity. 725 21

A major tyrosine-O-sulfate (TyrS)-binding protein present in bovine serum was purified to electrophoretic homogeneity using a combination of TyrS-Affi-Gel 10 affinity chromatography, DEAE-Bio-Gel A ion-exchange chromatography, and hydroxylapatite chromatography. The purified TyrS-binding protein migrated as doublet protein bands with apparent molecular weights of ca. 160,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. N-termini of the two forms of purified TyrS-binding protein contain most likely identical sequence for the first fifteen amino acids residues, which displays a high degree of homology to those of human and mouse complement factor H. Furthermore, the purified TyrS-binding protein exhibited immunologic cross-reactivity with anti-human complement factor H. These results indicate the identity of the purified TyrS-binding protein being bovine complement factor H. The two forms of the purified bovine factor H were investigated with respect to the sensitivity to limited trypsin digestion. The high-molecular weight form was cleaved into two fragments with apparent molecular masses of, respectively, 45 kD and 125 kD. The low-molecular weight form was cleaved in a different manner to generate three major fragments with molecular masses of 25 kD, 45 kD and 100 kD, respectively. Limited V8 protease mapping of the two forms yielded similar, yet unidentical, peptide band patterns. Purified bovine factor H appeared to bind agarose-bonded heparin through its anion-binding domain and the binding was inhibited by the presence of free heparin or dextran sulfate.
...
PMID:Identification and characterization of a major bovine serum tyrosine-O-sulfate-binding protein as a complement factor H. 776 43

Factor I is a typical multidomain protein of the complement system. It regulates complement activation by proteolytic degradation of C3b or C4b in the presence of factor H, complement receptor type 1, membrane cofactor protein or C4b-binding protein as cofactor. It is constructed from five presumed independently folded domains, namely a factor I module, a CD5-like domain, two low-density-lipoprotein receptor type A domains and a serine-proteinase domain. X-ray and neutron solution scattering was used to study the arrangement of these domains in factor I. Factor I was determined to be monomeric in solution, with an A280(1%,1cm) of 12.3-14.1. Its radius of gyration (RG) was 3.96 nm by X-rays in a high positive solute-solvent contrast, and 3.84 nm by neutrons at infinite solute-solvent contrast. The cross-sectional radius of gyration (RXS) was likewise found to be 1.64 nm by X-rays and 1.55 nm by neutrons. The RG data were not noticeably dependent on the solute-solvent contrast, whereas the RXS data showed a small dependence. The maximum dimension of factor I was determined to be 12.8 nm from the RG and RXS data, and 14-15 nm from the X-ray and neutron distance distribution functions. This length is too short to account for a linear arrangement of the domains in factor I. Small sphere models were developed for factor I in which the largest domain was modelled from the crystal structure for beta-trypsin. The attachment of either an elliptical cylinder or a two-armed V-shaped structure to this domain to represent the remaining four small domains gave good scattering curve-fits for factor I, and were compatible with experimental sedimentation coefficients. The non-extended domain models for factor I imply that the steric accessibility of each domain will be reduced, and this may be important for its functional activity.
...
PMID:Molecular modelling of the domain structure of factor I of human complement by X-ray and neutron solution scattering. 821 2

The ability of the alternative pathway of complement to discriminate targets as either activators or non-activators is mediated by different binding properties of factor H to surface-associated C3b molecules. In the present study we have probed the interaction between H and C3b using five anti-H mAb. The binding sites of the mAb were mapped by Western blotting using both recombinant and trypsin-generated H fragments. Two mAb bound to CCP1 (90X, 196X), two to CCP5 (MRC OX24, 86X) and one to CCP8-15a (131X). At a molar ratio 2:1 of 125I-H:mAb all tested mAb enhanced binding of H to both activator- and non-activator-bound C3b. At higher concentrations two mAb had an inhibitory effect on H binding to surface-associated C3b (OX24, 131X). Thus the mAb 131X inhibits H binding to surface-bound C3b but unlike OX24 it does not bind to the previously described C3b binding site within or near CCP4-5. These results indicate that there is an additional interaction site on factor H for surface-bound C3b.
...
PMID:Analysis of the recognition mechanism of the alternative pathway of complement by monoclonal anti-factor H antibodies: evidence for multiple interactions between H and surface bound C3b. 881 8

Human complement factor H controls spontaneous activation of complement in plasma and appears to play a role in distinguishing host cells from activators of the alternative pathway of complement. In both mice and humans, the protein is composed of 20 homologous short consensus repeat (SCR) domains. The size of the protein suggests that portions of the structure outside the known C3b binding site (SCR 1-4) possess a significant biological role. We have expressed the full-length cDNA of factor H in the baculovirus system and have shown the recombinant protein to be fully active. Mutants of this full-length protein have now been prepared, purified, and examined for cofactor activity and binding to C3b and heparin. The results demonstrate (i) that factor H has at least three sites that bind C3b, (ii) that one of these sites is located in SCR domains 1-4, as has been shown by others, (iii) that a second site exists in the domain 6-10 region, (iv) that a third site resides in the SCR 16-20 region, and (v) that two heparin binding sites exist in factor H, one near SCR 13 and another in the SCR 6-10 region. Functional assays demonstrated that only the first C3b site located in SCR 1-4 expresses factor I cofactor activity. Mutant proteins lacking any one of the three C3b binding sites exhibited 6- to 8-fold reductions in affinity for C3b on sheep erythrocytes, indicating that all three sites contribute to the control of complement activation on erythrocytes. The identification of multiple functionally distinct sites on factor H clarifies many of the heretofore unexplainable behaviors of this protein, including the heterogeneous binding of factor H to surface-bound C3b, the effects of trypsin cleavage, and the differential control of complement activation on activators and nonactivators of the alternative pathway of complement.
...
PMID:Identification of three physically and functionally distinct binding sites for C3b in human complement factor H by deletion mutagenesis. 885 97

To study the role of surface-associated proteins in the virulence of Streptococcus pneumoniae, we used two serotype 3 strains, ATCC 6303 and WU2, and two PspA-negative mutants of WU2, an encapsulated one, JY1123 (Caps(+)/PspA(-)), and an unencapsulated one, DW3.8 (Caps(-)/PspA(-)). ATCC 6303 and WU2 were highly virulent in mice, while the virulence of JY1123 was slightly decreased (50% lethal doses [LD(50)s], 24, 6, and 147 CFU/mouse, respectively); DW3.8 was avirulent (LD(50), 2 x 10(8) CFU). In vitro, ATCC 6303, WU2, and JY1123 (Caps(+)/PspA(-)) strongly resisted complement activation and complement-dependent opsonophagocytosis, whereas DW3.8 (Caps(-)/PspA(-)) was easily phagocytized in fresh serum. Trypsin treatment of ATCC 6303, WU2, and JY1123 (Caps(+)/PspA(-)) resulted in enhanced complement activation and complement-dependent opsonophagocytosis. Trypsin had no deleterious effect on the polysaccharide capsule. In addition, trypsin pretreatment of ATCC 6303 strongly reduced virulence upon intraperitoneal challenge in mice. This indicated that surface proteins play a role in the resistance to complement activation and opsonophagocytosis and contribute to the virulence of type 3 pneumococci. In subsequent experiments, we could show that the modulation of complement activation was associated with surface components that bind complement regulator factor H; binding is trypsin sensitive and independent of prior complement activation. Immunoblotting of cell wall proteins of the virulent strain ATCC 6303 with anti-human factor H antibody revealed three factor H-binding proteins of 88, 150, and 196 kDa. Immunogold electron microscopy showed a close association of factor H-binding components with the outer surface of the cell wall. The role of these factor H-binding surface proteins in the virulence of pneumococci is interesting and warrants further investigation.
...
PMID:Resistance to both complement activation and phagocytosis in type 3 pneumococci is mediated by the binding of complement regulatory protein factor H. 1045 94

1 2 Next >>