EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The complement (C) regulatory proteins decay-accelerating factor (DAF, CD55) and membrane cofactor protein (MCP, CD46), which control C3 convertases, together with CD59, an inhibitor of the membrane attack complex (MAC), were found to be present in the developing human placenta from at least 6 weeks of gestation until term. Immunostaining revealed differences in the distribution of these proteins on the fetally derived trophoblast epithelium, especially in early placentae which contain trophoblast populations of diverse proliferative potential and differentiation status. Expression of all three proteins occurred on the terminally differentiated syncytiotrophoblast epithelium covering chorionic villi and which is in direct contact with maternal blood. CD59 was also expressed on the underlying villous cytotrophoblast cells and on their extra-villous derivatives. These two populations showed differential expression of the C3 convertase regulators. Villous cytotrophoblast cells expressed MCP but were largely devoid of DAF. Proliferation of this population to generate extra-villous cytotrophoblast cell columns was associated with both an increase in DAF expression and a decrease in MCP expression. Throughout placental development, expression of DAF appeared to be lower than that of MCP and CD59 as assessed by solid-phase binding assays on isolated trophoblast membranes. Early placentae were also found to contain both DAF+ and DAF- chorionic villi. Conversely, expression of CD59 appeared comparatively high and transcripts for CD59 were found to be much more abundant than those for DAF in purified trophoblast cells. C regulatory proteins appear to play an important role throughout gestation in protecting the fetally derived human conceptus from maternal C. The differential expression patterns of the proteins on trophoblast may reflect differences in requirement for specific functional activities at different locations within the placenta.
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PMID:Complement regulatory proteins at the feto-maternal interface during human placental development: distribution of CD59 by comparison with membrane cofactor protein (CD46) and decay accelerating factor (CD55). 137 64

Immunohistochemical studies were performed to establish the distribution of membrane cofactor protein (MCP; CD46), decay-accelerating (DAF; CD55) and homologous restriction factor (HRF20; CD59), in normal skin appendages, and in benign and malignant skin neoplasms. At least two of these regulators were detected on normal eccrine glands, apocrine glands and sebaceous glands. They were also found in cellular naevi (CN), seborrhoeic keratoses (SK), basal cell carcinoma (BCC), Bowen's disease (BD), squamous cell carcinoma (SCC) and Paget's disease (PD). Although there were slight differences in their distribution, these regulators were found in all the cells examined, indicating that they are essential factors in human skin as well as other organs, and in neoplasms, in preventing autologous complement attack.
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PMID:Distribution of complement regulators (CD46, CD55 and CD59) in skin appendages, and in benign and malignant skin neoplasms. 137 63

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

Most human nucleated cells and cell lines possess C3 step regulators, decay-accelerating factor (DAF; CD55) and membrane cofactor protein (MCP; CD46) and an inhibitor of membrane attack complex (MAC) formation (p18; CD59). Unless DAF and MCP were simultaneously blocked by their antibodies, Mg(2+)-EGTA-human serum treatment did not induce C3 deposition on most nucleated cells. Furthermore, less than 20% lysis occurred even after the block of all the three factors. In contrast, three myeloid cell lines, U-937, HL-60 and p39, were found to exhibit unusual C3 deposition or cytolysis. U-937 possessed DAF and MCP but lacked p18, and about 50% was lysed by treatment with anti-DAF and anti-MCP followed by Mg(2+)-EGTA-serum, which caused C3, C5 and C8 deposition. Anti-DAF evoked similar but less complement (C) deposition and cytolysis while anti-MCP alone did not, although it enhanced the anti-DAF-mediated C deposition and cytolysis. Thus, once the C3 step is overcome, U-937 is attacked by the late components leading to cytolysis because of the absence of p18. On the other hand, HL60 allowed the deposition of C3 by blocking of either DAF or MCP followed by the Mg(2+)-EGTA-serum treatment. C5, C8 and C9 were subsequently deposited but resulted in no lysis. Lysis of 60% was attained by the additional blocking of p18. Thus, HL60 is poorly protected by C3 and C9 step regulation. Strikingly, extensive C3 deposition occurs on p39 without any antibody treatment, suggestive of the presence of unique alternative pathway activators. However, little cytolysis was induced on p39 even by blocking of all three inhibitors with antibodies. These results suggest that in activation of the alternative pathway on myeloid cells, C3 step is controlled by the inhibitors and alternative pathway activators, and C-mediated cytolysis is blocked by p18 and additional regulatory mechanisms or factors which assist in protection of nucleated host cells from MAC attack. Susceptibility to homologous C of these cell lines, therefore, reflects relatively low potency of C regulation on their membrane.
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PMID:Alternative complement pathway-mediated myeloid cell cytotoxicity: repertoire of membrane factors participating in regulation of C3 deposition and cytolysis. 171 91

A natural killer (NK) target, K562 (a human erythroblastoid cell line), was found by flow cytometry to express three complement regulatory membrane proteins on its surface: decay-accelerating factor (DAF, CD55), membrane cofactor protein (MCP, CD46) and p18 (CD59). We examined the effects of F(ab')2 of polyclonal antibodies raised against DAF and MCP and monoclonal antibody to p18 on the susceptibility of K562 to cytolysis by homologous lymphocytes, granulocytes and complement. C3bi-deposition was induced on K562 when the cells were treated with both anti-DAF and anti-MCP. Lymphocyte-mediated K562 cytolysis was markedly enhanced by these two antibodies whereas anti-p18 barely affected the degree of cytolysis. Complement immunocytolysis, on the other hand, became highest by combination treatment with the three antibodies, although anti-p18 and either anti-DAF or anti-MCP induced little potentiation of cytolysis. Granulocytes showed the least cytolysis and minimal potentiation of lysis by treatment with both anti-DAF and anti-MCP.
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PMID:Enhancement of lymphocyte-mediated K562 cytotoxicity by antibodies against complement membrane cofactor protein (CD46) and decay-accelerating factor (CD55). 171 46

Membrane co-factor protein (MCP; CD46) is an integral membrane protein with molecular weight (MW) of the two species of 63 kD and 55 kD, and regulates autologous complement activation, with the activity of factor I cofactor. The quantity of each species is genetically regulated, and two codominantly inherited allelic variants account for the three phenotypic patterns. By immunohistochemical study, MCP was found both in the intercellular spaces of the epidermis and on the endothelial cells in the dermis of normal human skin in vivo. The intensity of the staining pattern was higher in the basal layer than in the granular layer. By Western blot analysis with use of a monoclonal antibody, MCP in the epidermis appeared as several bands ranged from 60-50 kD, with a major band of 56 kD, which was different from those in either polymorphonuclear cells, platelets, and cultured keratinocytes. No other variants were found in the epidermis obtained from skin of 20 normal humans. Complement activation in human skin may be regulated at several steps, including DAF and HRF20, thereby protecting cells from autologous complement attack.
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PMID:Expression and characterization of membrane co-factor protein (MCP) in human skin. 194 Apr 44

Human gametes and pre-implantation embryos express selectively several complement regulatory proteins. Membrane cofactor protein (MCP, CD46) and decay accelerating factor (DAF, CD55) are regulators for C3 convertases and protectin (CD59) is an inhibitor of the membrane attack complex. These three proteins were identified on human sperm and found to be functional. CD55 and CD59 were both expressed by the plasmic membrane of unfertilized oocytes and pre-implantation embryos. CD46 was not present on unfertilized oocytes but appeared at the 6/8 cell-stage embryo when human gene expression first occurs. Complement receptor 1 (CR1, CD35) and MHC class I antigens were not found on oocytes neither on embryos. Such a selective expression of complement regulatory proteins associated with the lack of MHC class I antigens may represent an immune protective mechanism by which human gametes and pre-implantation embryos escape from complement-mediated damage during their travel through the female genital tract. Indeed uterine, tubal and follicular fluids contain all the components of the complement cascade, including classical and alternative pathways. Nevertheless participation of CD46 and CD59 in cell to cell interaction during fertilization and/or implantation cannot be excluded. CD59 is an adhesive molecule involved in the rosette phenomena and CD46 has been described as the human receptor for measles virus, which binds through a fusion protein. Monoclonal antibodies raised against these two proteins (CD46 and CD59) are able to inhibit heterospecific fertilization between zona-free hamster oocytes and human spermatozoa suggesting the role of these proteins during fertilization.
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PMID:[Expression and role of complement regulatory proteins on human gametes and pre-implantation embryos]. 749 32

Decay-accelerating factor (DAF) is a membrane protein that protects host cells from attack by its own complement. Although DAF expression on endothelial cells is thought to increase pathophysiologically, little is known about the natural mediators that modulate DAF expression on endothelial cells. In this study, we evaluated the effect of histamine on DAF expression on human umbilical vein cells (HUVEC). HUVEC were cultured with histamine, and DAF expression on HUVEC was determined by flow cytometry after immunostaining with a mAb to DAF. DAF expression on HUVEC was increased at 10 microM histamine, and the final level was increased time-dependently by 150% to 200% after a 24-h incubation with 100 microM histamine. The histamine-induced DAF expression was inhibited by actinomycin D and cycloheximide and accompanied by an increase in the DAF mRNA level, indicating that both transcription and translation are required. In addition, the histamine-induced DAF expression was inhibited by pyrilamine, an H1 blocker, but not by cimetidine, an H2 blocker, indicating that histamine induces the DAF expression through H1 receptors. We also demonstrated that the turnover of DAF is faster than that of MCP and CD59, and DAF is released into the culture supernatant. DAF is a glycosylphosphatidylinositol-linked protein that is released from HUVEC by a phosphatidylinositol-specific phospholipase C. Although HUVEC also contain the glycosylphosphatidylinositol-anchored complement inhibitor CD59, this was not released during a 24-h incubation, suggesting that the shedding of DAF from HUVEC is not caused by PI-PLC but by other enzymes, possibly proteinases. These results suggest that histamine, which is released from mast cells and basophils by complement-derived anaphylatoxins, increases the complement defense ability of endothelial cells by increasing their levels of DAF expression.
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PMID:Decay-accelerating factor on human umbilical vein endothelial cells. Its histamine-induced expression and spontaneous rapid shedding from the cell surface. 750 66

U937 cells are known to be relatively sensitive to C-mediated killing and have been reported to show variable expression of CD59. We have obtained stable CD59+ and CD59- sublines of the U937 cell line. Expression of other C-regulatory proteins, decay-accelerating factor (DAF), MCP and CR1, was similar on both cell lines. Although the sublines were morphologically similar and expressed similar amounts of most surface antigens, qualitative difference in expression of CD13 and CD64 and a quantitative difference in CD15 expression was observed. Sensitivity to C-mediated killing of the cell lines was measured using classical pathway activation. Both cell lines appeared to be equally sensitive to C-mediated killing. Monoclonal antibodies against CD59, which neutralize CD59 and enhance killing of most cell lines (including K562, HL60 and Molt4), did not enhance the killing of the CD59- cells but, surprisingly, also did not enhance killing of the CD59+ U937 subline. CD59 was expressed on the U937 subline at similar levels to that on HL60 and K562 cells, was glycosylphosphatidylinositol (GPI) anchored and could be immunoprecipitated from cell extracts. However, unlike these other cell lines, U937 cell extracts were negative in a Western blot using a variety of anti-CD59 antibodies even when ultrasensitive detection methods were used. These results indicate that the CD59+ U937 cell expresses a form of CD59 which is dysfunctional and structurally abnormal.
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PMID:Presence of a dysfunctional form of CD59 on a CD59+ subclone of the U937 cell line. 751 99

Complement-dependent cytotoxicity (CDC) mediated by a chimeric anti-Lewis Y monoclonal antibody (cH18A; human IgG1) was investigated in this study. Human lung adenocarcinoma cell lines (PC7, PC9, and PC14) were used as the target cells. PC7 and PC9 cells, expressed Lewis Y antigen and were lysed by cH18A as effectively as by the parent mouse anti-Lewis Y antibodies (mH18A) in a concentration-dependent manner. PC14 cells did not express Lewis Y antigen and were not lysed by either cH18A or mH18A. cH18A mediated CDC activity against PC7 and PC9 cells was enhanced by the combined use of monoclonal antibodies directed against CD46(MCP), CD55(DAF), and CD59. These molecules are complement-regulatory proteins which protect host cells from CDC. PC7 and PC9 cells, showed high levels of surface expression of these proteins, PC7 cells were more susceptible to cH18A-mediated CDC than PC9 cells. Use of multiple blocking antibodies to the complement-regulatory proteins produced more enhancement of cH18A-mediated CDC than a single antibody. Moreover, expression of CD55 and CD59 by PC7 and PC9 cells was decreased after treatment with PI-PLC, resulting in increased susceptibility to cH18A-mediated CDC. Although the reason is unknown, PC7 cells became more susceptible to CDC than PC9 cells after PI-PLC treatment even in the absence of cH18A. These data suggest that chimeric monoclonal antibodies can be used to induce CDC against lung adenocarcinoma, and that such CDC is potentiated by a variety of antibodies blocking compliment-regulatory proteins on the tumour cell surface.
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PMID:Augmented lung adenocarcinoma cytotoxicity by the combination of a genetically modified anti-Lewis Y antibody and antibodies to complement regulatory proteins. 754 16

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