UNIPROT:O95477 - FACTA Search

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human umbilical vein endothelial cells (HUVEC) were found by Western blot analysis to express three membrane-bound C regulatory proteins, decay-accelerating factor (DAF), membrane cofactor protein (MCP) and CD59. DAF was detected on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a 70-kDa molecule under nonreducing conditions in 2% deoxycholate extracts of HUVEC, MCP as a 63-kDa protein and CD59 as a 20-kDa molecule. Northern blot analysis revealed the presence of two species of mRNA expressed in HUVEC, which hybridized to a cDNA probe specific for DAF, with sizes of about 2.0 kb and 2.7 kb. MCP mRNA was detected at 4.2 kb and a CD59 cDNA probe hybridized with three mRNA species with sizes of about 800, 1400 and 2000 bp. DAF and CD59 were released from the surface of HUVEC by phosphatidylinositol-phospholipase C, demonstrating that both are attached to the cell membrane by means of a glycolipid anchor. The relative contribution of DAF, MCP and CD59 in regulating the sensitivity to lysis of HUVEC by autologous complement was determined by incubation of sensitized endothelial cells with F(ab')2 fragments of polyclonal antibodies raised against these proteins. The susceptibility of sensitized cells to lysis by homologous complement was markedly increased in the presence of F(ab')2 anti-CD59 and to a lesser, but significant, extent in the presence of F(ab')2 anti-DAF. F(ab')2 anti-MCP did not significantly alter the susceptibility of HUVEC to complement-mediated lysis.
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PMID:Relative roles of decay-accelerating factor, membrane cofactor protein, and CD59 in the protection of human endothelial cells against complement-mediated lysis. 128 Feb 24

Paroxysmal nocturnal hemoglobinuria (PNH) is an acquired type hemolytic disorder. Hematopoietic cells of patients with PNH are deficient in glycosylphosphatidylinositol (GPI) anchored membrane proteins. Since some membrane-bound complement inhibitors, such as CD59 and decay accelerating factor (DAF), are GPI anchored proteins, abnormal cells from patients with PNH are sensitive to complement attack. Their myeloid and erythroid cells are affected more than their lymphoid cells. Patients whose B cells were severely deficient in GPI anchored proteins were chosen to establish cell lines by Epstein-Barr virus mediated transformation. The lines established (SS-1-, TK-1-, and TK-14- cell lines) had the following characteristics of PNH. First, GPI anchored proteins were completely absent from the surface of SS-1- and TK-14- cells, and were expressed at very low levels on TK-1- cells, whereas polypeptide anchored proteins were normally expressed on these three lines. Secondly, DAF mRNAs of the SS-1- cell line were qualitatively and quantitatively indistinguishable from those of a control, wild-type cell line. Third, pro-CD59 and pro-DAF molecules were detected intracellularly in these cell lines, their pro-CD59 being smaller and more hydrophilic than that from a wild-type cell line. These cell lines should be useful in further studies on the pathogenesis of PNH.
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PMID:Deficient surface expression of glycosylphosphatidylinositol-anchored proteins in B cell lines established from patients with paroxysmal nocturnal hemoglobinuria. 128 30

Murine monoclonal antibodies specific for neoepitopes expressed by C9 incorporated into membrane attack complexes and by membrane-bound C3b and iC3b have been prepared and characterised. These reagents were used to determine the extent and locus of complement activation in synovial-tissues obtained from patients with rheumatoid arthritis and osteoarthritis. In the four rheumatoid arthritis patients there was extensive deposition of C3 activation products and C5b-9 complexes onto the synovial membrane and the pattern of deposition of both neoantigens in serial tissue sections was very similar. There was less extensive staining for C3 and, particularly, C9 neoepitopes on the apical surface of vessel endothelia. In two of four osteoarthritic patients a similar pattern of C3 and C9 neoepitope deposition was found; in the remaining patients no C5b-9 could be located. Synovial vessel walls, but not synovial cells, from both groups of patients stained extensively for the complement regulatory protein CD59. In synovial membranes from patients with osteoarthritis, C9 appeared to be present predominantly in SC5b-9 complexes whereas in rheumatoid arthritis patients no evidence of S-protein incorporation into membrane attack complexes could be demonstrated, suggesting that in rheumatoid arthritis there is damage to the synovial membrane as a result of complement activation and C5b-9 deposition.
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PMID:Immunohistochemical determination of complement activation in joint tissues of patients with rheumatoid arthritis and osteoarthritis using neoantigen-specific monoclonal antibodies. 128 67

The membrane attack complex (MAC) of complement in humans is regulated by several membrane-bound proteins; however, no such proteins have so far been described in other species. Here we report the isolation and characterization of a rat erythrocyte membrane glycoprotein of molecular mass 21 kDa which inserts into cell membranes and is a potent inhibitor of the rat MAC. This protein, here called rat inhibitory protein (RIP), was first partially purified by column chromatography from a butanol extract of rat erythrocyte membranes. Monoclonal antibodies (Mabs) were raised against RIP and used for its affinity purification. Affinity-purified RIP was shown to inhibit in a dose-dependent manner the cobra venom factor (CVF)-mediated 'reactive' lysis of guinea pig erythrocytes by rat complement. Conversely, the anti-RIP MAbs 6D1 and TH9 were shown to markedly enhance the CVF-mediated lysis of rat erythrocytes by rat complement. RIP acted late in the assembly of the MAC (at or after the C5b-8 stage) and was releasable from the membranes of rat erythrocytes by phosphatidylinositol-specific phospholipase C. These features, together with its size, deglycosylation pattern and N-terminal amino acid sequence, lead us to conclude that RIP is the rat homologue of the human MAC-inhibitory protein CD59 antigen.
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PMID:Isolation and characterization of a membrane protein from rat erythrocytes which inhibits lysis by the membrane attack complex of rat complement. 137 9

The erythrocyte membrane inhibitor of the human terminal complement proteins, surface antigen CD59, has previously been shown to enter into a detergent-resistant complex with either the membrane-bound complex of C5b-8 or C5b-9 (Meri, S., Morgan, B. P., Davies, A., Daniels, R. H., Olavesen, M. G., Waldmann, H. and Lachmann, P. J. (1990) Immunology 71, 1-9; Rollins, S. A., Zhao, J., Ninomiya, H., and Sims, P. J. (1991) J. Immunol, 146, 2345-2351). In order to further define the interactions that underlie the complement-inhibitory function of CD59, we have examined the binding interactions between 125I-CD59 and the isolated components of human complement membrane attack complex, C5b6, C7, C8, and C9. By density gradient analysis, we were unable to detect interaction of 125I-CD59 with any of these isolated complement components in solution. Specific binding of 125I-CD59 to C8 and C9 was detected when these human complement proteins were adsorbed to either plastic or to nitrocellulose, suggesting that a conformational change that accompanies surface adsorption exposes a CD59-binding site that is normally buried in these serum proteins. The binding of 125I-CD59 to plastic-adsorbed C8 and C9 was saturable and competed by excess unlabeled CD59, with half-maximal binding observed at 125I-CD59 concentrations of 80 and 36 nM, respectively. No specific binding of 125I-CD59 was detected for surface-adsorbed human C5b6 or C7 nor was such binding observed for C8 or C9 isolated from rabbit serum. Binding of CD59 to human C8 and C9 was not mediated by the phospholipid moiety of CD59, implying association by protein-protein interaction. In order to further define the binding sites for CD59, ligand blotting with 125I-CD59 was performed after separation of C8 into its noncovalently associated subunits (C8 alpha-gamma and C8 beta) and after alpha-thrombin digestion of C9. These experiments revealed specific and saturable binding of 125I-CD59 to C8 alpha-gamma subunit (half-maximal binding at 75 nM), but not to C8 beta, and specific and saturable binding to the 37-kDa fragment (C9b) of thrombin-cleaved C9 (half-maximal binding at 35 nM), but not to the 25-kDa C9a fragment. Partial reduction of C8 alpha-gamma revealed that only C8 alpha polypeptide exhibited affinity for CD59, and no specific binding to the C8 gamma chain was detected.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The human complement regulatory protein CD59 binds to the alpha-chain of C8 and to the "b"domain of C9. 137 90

Recent studies have revealed that human trophoblast expresses three membrane-bound proteins which function specifically to regulate the activity of complement. These proteins are already known to be widely distributed in normal adult tissues where they protect host cells from damage resulting from the fortuitous deposition of activated complement components. Their activities are focused at two distinct steps in the complement pathway. Decay accelerating factor (DAF, CD55) and membrane co-factor protein (MCP, CD46) act at the level of the C3 convertase enzymes which activate C3 to C3b. A further protein, CD59, directly regulates the formation and function of the terminal cytolytic membrane attack complex (MAC) by specifically interacting with C8 and C9. These proteins appear to play an important role in the maintenance of normal human pregnancy. DAF, MCP and CD59 are all expressed where trophoblast surfaces are in contact with maternal blood and tissues and expression occurs from at least 6 weeks of gestation. The semi-allogeneic human conceptus therefore appears to be effectively protected from maternal complement-mediated damage arising either from alternative or classical pathway activation or in a bystander fashion following a response to microbial infection in the mother. Complement regulatory protein deficiency disorders with clinically demonstrable consequences especially in terms of haemolytic disease are known to exist and have proved valuable in establishing the biological role of these proteins in vivo. The demonstration of this new family of immunoregulatory proteins on trophoblast raises important questions about the potential involvement of these products in pregnancy pathologies.
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PMID:Complement and pregnancy: new insights into the immunobiology of the fetomaternal relationship. 144 17

We investigated the ability of membrane-bound human complement regulatory proteins to control complement-driven humoral immune reactions on murine microvasculature. The human complement regulatory proteins CD59 and DAF were expressed using heterologous promoters in a variety of tissues in transgenic mice. Animals expressing these gene products are healthy and exhibit significant levels of endothelial cell expression of CD59 and DAF in cardiac muscle. Transgenic hearts perfused with human plasma exhibited profound reductions in the level of complement deposition compared with nontransgenic controls. We have also produced transgenic pigs that express these two human genes. Our results indicate that expression of complement regulatory proteins can control activation of complement and suggest that these proteins may have therapeutic applications in some inflammatory diseases and in the development of xenogeneic organs for human transplantation.
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PMID:Protection of xenogeneic cardiac endothelium from human complement by expression of CD59 or DAF in transgenic mice. 748 24

Analysis of complement inhibitory proteins present on the surface of Raji cells (obtained from the European Collection of Animal Cell Cultures; originally established from human Burkitt's lymphoma) revealed two populations of cells. These populations differed in their expression of the glycosyl-phosphatidylinositol (GPI)-anchored inhibitors CD59 and decay-accelerating factor (DAF). Two stable clones were established by limiting dilution of the original cell culture. Raji+3 expressed CD59 and DAF whereas Raji-26 expressed neither inhibitor. Both clones expressed membrane cofactor protein (MCP). Analyses of other cell surface proteins (CD19, CD35, CD48 and CD58 (transmembrane form)) revealed similar levels of expression of transmembrane proteins by both clones. However, CD48 was expressed only by Raji+3. As CD48, DAF and CD59 are all GPI-anchored molecules it is likely that a defect in the GPI-anchoring mechanism is responsible for the generation of the second population of cells. The two clones demonstrated markedly different sensitivities to complement. When equally sensitized cells from both clones were treated with normal human serum (12.5%) for 1 hr at 37 degrees, the Raji+3 clone was resistant to complement-mediated lysis, whereas approximately 70% of the Raji-26 cells were lysed. However, by using specific antibody to block the function of membrane-bound complement inhibitors, lysis of Raji+3 was demonstrated. Whilst blocking of one inhibitor only on the cell had little effect on cell killing, blocking of two or more inhibitors significantly increased cell lysis. Our results demonstrated that all three inhibitors expressed by these cells contributed to protection against classical pathway-mediated complement activation. However, whilst a limited protective role was seen for MCP, CD59 and DAF appeared to be of far more importance for protection from complement-mediated lysis via the classical pathway.
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PMID:Characterization of a glycosyl-phosphatidylinositol anchor-deficient subline of Raji cells. An analysis of the functional importance of complement inhibitors on the Raji cell line. 749 Jan 34

The complement system is an important branch of the innate immune response, constituting a first line of defence against invading microorganisms which activate complement via both antibody-dependent and -independent mechanisms. Activation of complement leads to (a) a direct attack upon the activating cell surface by assembly of the pore-forming membrane attack complex (MAC), and (b) the generation of inflammatory mediators which target and recruit other branches of the immune system. However, uncontrolled complement activation can lead to widespread tissue damage in the host, since certain of the activation products, notably the fragment C3b and the C5b-7 complex, can bind nonspecifically to any nearby cell membranes. Therefore it is important that complement activation is tightly regulated. Our own cells express a number of membrane-bound control proteins which limit complement activation at the cell surface and prevent accidental complement-mediated damage. These include decay-accelerating factor, complement receptor 1 and membrane cofactor protein, all of which are active at the level of C3/C5 convertase formation. Until recently, cell surface control of MAC assembly had been attributed to a single 65-kD membrane protein called homologous restriction factor (alternatively named C8-binding protein and MAC-inhibiting protein). However a second MAC-inhibiting protein has since been discovered and it is now clear that this protein plays a major role in the control of membrane attack. This review charts the rapid progress made in elucidating the protein and gene structure, and the mechanism of action of this most recently discovered complement inhibitor, CD59.
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PMID:Membrane defence against complement lysis: the structure and biological properties of CD59. 750 56

Membrane attack complexes of complement occur around thyroid follicles in Graves' disease and Hashimoto's thyroiditis. The lytic potential of such complexes is controlled by membrane-bound and fluid phase regulators and we have investigated the role of these in autoimmune thyroid disease. By immunohistochemical staining, clusterin and S-protein were found in all nine thyroid specimens from patients with Graves' disease and S-protein was found in one of two Hashimoto glands. CD46, CD55 and CD59 were found on thyroid cells in all specimens. CD46 and CD55 expression occurred on thyroid cells cultured in vitro and was increased significantly by culture with interleukin-1 (IL-1) and interferon-gamma (IFN-gamma), which are known to be released by the lymphocytic infiltrate in these conditions. Blocking CD55 had a weak and inconsistent effect on complement-mediated thyroid cell killing in vitro but, in four of five experiments, blocking CD46 enhanced killing. However, the effect of blocking CD59 was greater in all cases than blocking CD46 or CD55. Expression of these fluid phase and membrane-bound proteins may be important in determining the severity of thyroid damage produced by complement fixation in Graves' disease and Hashimoto's thyroiditis.
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PMID:Expression and function of multiple regulators of complement activation in autoimmune thyroid disease. 751

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