Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Normal human sera contained 10-60 ng/ml of soluble membrane cofactor protein (MCP, CD46) whereas sera of > 50% of the cancer patients contained > 60 ng/ml. MCP purified by immunoaffinity chromatography from both normal and cancer patients' sera consisted of three bands of 56, 47 and 29 kDa on SDS-PAGE/immunoblotting. The upper two components were increased in cancer patient sera. The 56 and 47 kDa soluble forms served as a cofactor for factor I-mediated cleavage of C3b. MCP expressed on Chinese hamster ovary (CHO) cells protects host cells from human C3 deposition and complement-mediated cytolysis, especially by activation of the alternative pathway. In this same assay system, exogenously added soluble MCP also protected untransfected CHO cells; however, its potency was much less than that of the endogenous membrane form. For example, 8 micrograms/ml of soluble MCP was equal to 10(4) copies/cell of the expressed MCP. Recombinant soluble forms possessed similar activity to the naturally occurring soluble forms and high doses (> 150 micrograms) blocked Arthus-like reaction induced in guinea-pigs by anti-Forssman antibody. These data establish that soluble forms of MCP are present in human sera that possess cofactor activity and their concentrations, especially the 56 and 47 kDa forms, are increased in sera of cancer patients. High doses of the recombinant soluble forms may be therapeutically useful for suppressing inflammatory responses.
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PMID:Purification and functional properties of soluble forms of membrane cofactor protein (CD46) of complement: identification of forms increased in cancer patients' sera. 754

The levels of complement-regulatory molecules (complement receptor type one [CR1], decay-accelerating factor [DAF], membrane cofactor protein [MCP], and an inhibitor of membrane attack complex [CD59]) in lung cancer cells were analyzed to investigate the relation between their expression and histological subtypes, and the possibility of homologous complement deposition on cancer cells. In 25 cell lines (10 adenocarcinoma, 3 large-cell carcinoma, 7 small-cell lung cancer [SCLC], and 5 squamous cell carcinoma), flow cytometric analysis revealed that MCP was expressed in all cell lines, whereas none of the cell lines was CR1-positive. CD59 was detected in all cells. The DAF epitope defined by IA10 was expressed in all cells except one large cell carcinoma cell line. However, another epitope for anti-DAF monoclonal antibody, D17, was not detected in 5 (71.4%) SCLC and in 4 (22.2%) non-small-cell lung cancer. This disparity was seen in most cell lines, irrespective of histological subtypes. The loss of D17 reactivity seemed to be pertinent to malignant phenotype, because most of the normal pulmonary cells possessed the D17 epitope. Furthermore, a cell line lacking DAF (IA10-/D17-) allowed alternative pathway-mediated homologous complement (C3) deposition after pretreatment with anti-MCP antibody. This raises a new possibility for immunotargeting of cancer. These cell lines should be useful in studying the biology of lung cancer.
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PMID:Levels of complement regulatory molecules in lung cancer: disappearance of the D17 epitope of CD55 in small-cell carcinoma. 769 Mar 55

In this report, we have shown the expression of the complement regulatory proteins decay-accelerating factor (DAF, CD55), membrane cofactor protein (MCP, CD46) and CD59 on human D54-MG astroglioma cells by several methods, including immunofluorescence, flow cytometry and Western blotting and Northern blot analysis. These studies demonstrate that all three proteins are structurally and antigenically similar to their counterparts expressed on HepG2 and SW480 cells (hepatocyte and epithelial cell lines, respectively). D54-MG cells express mRNA for all three proteins of the appropriate size(s). The phosphatidylinositol-specific enzyme, PIPLC, cleaved DAF from the surface of D54-MG cells, demonstrating that DAF is linked by a glycophospholipid anchor as has been shown for other cell types. Flow cytometry demonstrates that primary rat astrocytes also constitutively express all three regulatory proteins. These data are the first to demonstrate the expression of CD59 on astrocytes, and the presence of all three regulatory proteins on astrocytes suggests that regulation of complement activation in the central nervous system is important in neural host defense mechanisms.
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PMID:Expression of decay-accelerating factor (CD55), membrane cofactor protein (CD46) and CD59 in the human astroglioma cell line, D54-MG, and primary rat astrocytes. 769 Mar 70

Membrane cofactor protein (MCP; CD46) is a widely expressed C regulatory protein that inhibits C activation on self-tissue. MCP binds C3b and C4b deposited on autologous cells and then serves as a cofactor for their inactivation by limited proteolytic cleavage. To characterize the DNA sequence elements responsible for controlling MCP expression, the 5' flanking region of the human MCP gene was cloned. Sequencing of 1350 nucleotides upstream from the ATG codon revealed a GC-rich region in the initial 500 nucleotides that is especially rich in the CpG dinucleotide. A CAAT box in reverse orientation, surrounded by four putative SP1 binding sites but lacking a typical TATA element, was within the first 200 nucleotides of this GC-rich region. The major transcriptional initiation site for HeLa cells, determined by primer extension and S1 nuclease protection analyses, was located 105 nucleotides from the translational start site. This overall orientation of the promoter region is characteristic of "housekeeping" genes. The MCP promoter region was further examined in HEp-2 cells by the chloramphenicol acetyltransferase (CAT) reporter gene assay, using various constructs derived from the 5' region of the MCP gene. The MCP promoter activity was confined to the GC-rich region from -624 to +96 (start site of transcription being +1). Inclusion of an AT-rich sequence from -624 to -1204 resulted in a 42% reduction in CAT activity suggesting that an inhibitor is present among the AT-rich sequences. The 5' flanking region of a highly homologous partial duplication of the MCP gene was also cloned and sequenced, and various constructs were assessed in the CAT reporter system. Many of the functionally relevant sequences seen in MCP are also found in the MCP-like 5' UT region, which is 85% homologous to MCP. The most striking difference was a 224 nucleotide deletion that was upstream from the corresponding MCP region harboring most of the promoter activity. Although expression of an MCP-like protein has not been reported, the MCP-like promoter region produced promoter activity comparable with that of MCP. These results serve as a basis for subsequent analyses of the expression of MCP in various cells and tissues and for understanding the mechanism of its modulation in inflammatory conditions. Also, through a comparison of the 5' region of MCP with other genes in the regulators of C activation gene cluster (at 1 q32), we propose a model for the evolution of the promoters in this tight linkage group.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of the promoter region of the membrane cofactor protein (CD46) gene of the human complement system and comparison to a membrane cofactor protein-like genetic element. 769 39

CD59 (protectin) and CD46 (membrane cofactor protein, MCP) are membrane-bound complement regulator proteins which inhibit complement-mediated cytolysis of autologous cells. CD59, a phosphatidyl-inositol-anchored glycoprotein, inhibits the formation of the terminal membrane attack complex (MAC) of complement and was found to be a second ligand for CD2 contributing to T-cell activation. In 20 colorectal normal mucosa samples, in ten adenomas, 71 carcinomas and in ten liver metastases derived thereof, CD59 was inconsistently expressed in the epithelial compartment. In carcinomas CD59 expression in the whole neoplastic compartment was more often found in well- and moderately differentiated tumours. By contrast, focal expression or even complete lack of CD59 was more often found in poorly differentiated tumours (P = 0.021). In addition, carcinomas without metastases at the time of operation (Dukes A/B) more often expressed CD59 in the entire neoplastic population compared to those carcinomas which had already metastasised (P = 0.018). There was no correlation between the mode of CD59 expression in colorectal carcinomas and the tumour type or location. CD46 has C3b/C4b binding and factor-I dependent cofactor activity and is broadly expressed in various cells and tissues. In the epithelial compartment of normal colorectal mucosa, of all adenomas, carcinomas and their liver metastases, CD46 was expressed throughout the epithelial compartment. Since CD46 was consistently expressed in colorectal carcinomas the low expression or even lack of CD59 in a subset of tumours might not lead to critical complement-mediated attack of CD59-negative tumour cells. Regarding CD59 as a natural T-cell ligand involved in cognate T-cell-target-cell interaction, however, loss of CD59 might well be a selection advantage, provided that tumour antigen-mediated T-cell toxicity in colorectal carcinoma exists.
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PMID:Expression of CD59, a complement regulator protein and a second ligand of the CD2 molecule, and CD46 in normal and neoplastic colorectal epithelium. 769 19

Human membrane cofactor protein (MCP, CD46) functions as an inhibitor of the complement (C) cascade to protect host cells from C attack, and as a receptor for measles virus (MV). Normal human sera contains 10-60 ng/ml of naturally produced soluble forms of MCP, which is also a cofactor for the factor I-mediated inactivation of C3b. We produced monoclonal antibodies (mAb) against MCP and a recombinant soluble form of MCP similar to the natural soluble forms, and tested their ability to block MV infection. Vero cells and CHO cells expressing human MCP were the targets. Of the antibodies tested, M75 and M177, which blocked the C regulatory activity of MCP, efficiently blocked MV infection. More than 50 micrograms/ml of the soluble form moderately blocked MV infection of CHO cells expressing MCP, but barely blocked that of Vero cells. The two mAb and the soluble form also inhibited MV H protein-mediated green monkey erythrocyte rosette formation. A quantitative analysis suggested that 30 micrograms/ml of the soluble form functionally corresponded to 0.2 microgram/ml of M177 or M75. These data established that the C regulatory function and the MV receptor function of MCP were blocked simultaneously by the individual mAb, and that soluble forms of MCP could inhibit MV infection in cells expressing human MCP, although doses far higher than the natural concentration of soluble MCP were required.
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PMID:Blocking measles virus infection with a recombinant soluble form of, or monoclonal antibodies against, membrane cofactor protein of complement (CD46). 779 36

Human seminal plasma contains 0.55 microgram/ml of membrane cofactor protein (MCP; CD46) of 60,000 MW. By ultracentrifugation, gel filtration and immunoelectron microscope methods, we found that the MCP in seminal plasma was associated with prostasomes. The functional properties of the prostasome-bound MCP were assessed in comparison with a recombinant soluble form, gamma MCP1, which is composed of four short consensus repeats (SCR), type C of the serine/threonine-rich domain (STC), and unknown significance (UK). The MCP in seminal plasma, although demonstrably bound to prostasomes, behaved more like the soluble form of MCP. In the absence of detergent it, together with factor I, degraded the fluid-phase ligand, methylamine-treated C3 [C3(MA)], which is insensitive under no-detergent conditions to the membrane form of MCP and factor I. Moreover, C3dg fragment was generated as a final product instead of C3bi during the incubation, indicating that the prostasomal MCP and proteases may be responsible for the C3dg generation. The prostasomes neutralized measles virus (MV) infectivity, while gamma MCP1, for the most part, did not. These results, taken together with the CD59 concentration on the prostasomes, suggest that the prostasomes are potential immunomodulators for complement activation, providing the C3- and C9-step inhibitors. The present report also reinforces the idea that there are two different forms of MCP in semen. One is located in the inner acrosomal membrane of spermatozoa, which appears through acrosomal reaction and spermatoon-egg interaction. The other is a prostasome-bound form maintaining activities sufficient to regulate complement activation and, probably, MV infection.
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PMID:Membrane cofactor protein (CD46) in seminal plasma is a prostasome-bound form with complement regulatory activity and measles virus neutralizing activity. 779 37

CD46 (membrane cofactor protein; MCP) is ubiquitously expressed on nucleated human cells; it has a protective function, binding C3b and C4b, which are then cleaved by serum factor I. CD46 molecules (55,000-65,000 MW) have four short consensus repeats (SCR): the function of SCR-1 and -2 is unknown; SCR-3 and -4 bind C3b and C4b. These are succeeded by the STP region, which can contain three separate regions (STP-A, -B, -C) rich in serine, threonine and proline and which are heavily glycosylated, succeeded by transmembrane and cytoplasmic tail regions (of which there are several). Multiple isoforms exist due to the different splicing of exons: STP-A and -B can thus be present or absent. So far these products can only be detected separately by polymerase chain reaction (PCR) and RNA studies; we now describe their detection by anti-peptide antibodies. Peptides whose sequences corresponded with those of STP-A and STP-B were synthesized and used for the immunization of mice; although they differ in only seven of 21 amino acids, monoclonal antibodies (mAb) that reacted specifically with STP-A but not with STP-B, and mAb that reacted specifically with STP-B but not with STP-A, were produced; these reacted specifically with native CD46 on human tissues and cell lines. STP-A mAb reacted with tissues in which STP-A RNA had been found, some leukaemias and cell lines; in normal tissue expression was mainly found in the intestine (large and small) and salivary gland. Anti-STP-B reacted with most tissues and cell lines. The antibodies should be of use in defining the expression and function of CD46 in different tissues.
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PMID:Discrimination between alternatively spliced STP-A and -B isoforms of CD46. 782 56

To coexist with complement, human tissues express membrane-integrated regulatory proteins that inhibit the activity of autologous complement on cell surfaces. Certain of these complement regulatory proteins act as obligatory cofactors for proteolytic inactivation of activated C4(C4b) by factor I. Extraembryonic tissues and in particular trophoblasts constitute an interface at risk from maternal complement during pregnancy. The present study examined syncytiotrophoblast plasma membrane (STM) cofactor activity for cleavage of immobilized methylamine-treated complement component C4(C4ma), a C4b analog by factor I. Membrane cofactor protein (MCP or CD46) provided most of the cofactor activity in STM preparations. Minor cofactor activity was derived from C4 binding protein that was firmly bound to STM. Cofactor activity for cleavage of C4ma at its two sites for factor I was enhanced at higher concentrations of STM and at lower concentrations cleavage at a C terminal site predominated. Soluble cofactor activity was present in STM preparations and was provided by 65 KDa, 55 KDa and 50 KDa soluble species of MCP that lacked amphiphilic properties. These results are consistent with a major role for MCP in regulation of C4 activity on the maternal-facing surfaces of extraembryonic tissues during human development. Soluble MCP may provide additional fluid phase complement regulatory activity in the maternotrophoblastic zone.
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PMID:Characterization of cofactor activity for factor I: cleavage of complement C4 in human syncytiotrophoblast microvilli. 800 31

Membrane cofactor protein (MCP, CD46) is an integral protein that serves as a cofactor for factor I in inactivating C3b/C4b deposited on the same cell membrane as C3bi/C4c+C4d. This C3b/C4b inactivation is closely associated with self-protection of host cells from autologous complement attack. We have studied the distribution and properties of MCP in the normal human kidney by immunohistochemical and immunoblotting methods using monoclonal antibodies against MCP. MCP was predominantly expressed on the juxtaglomerular apparatus. Glomerular capillary walls, mesangial areas, and tubulus were also MCP positive. Glomerulus MCP was composed of two major bands of 45-65 kDa, which were similar to those of lymphocyte MCP. The proportion of the high and low molecular weight components in glomerulus MCP, however, was considerably different from that of lymphocyte MCP among the individual samples tested. Glomerular epithelial cells and mesangial cells from an individual having equal amounts of high and low molecular weight components in the lymphocytes were cultured separately and the properties of their MCP investigated. MCP in the mesangial cells and glomerular epithelial cells showed profiles in which the upper band was predominant. The results may explain the unique distribution of the high and low molecular weight forms in the glomerulus. These forms of MCP together with factor I were all capable of inactivating C3b to C3bi. Message analysis suggested that glomerular epithelial cells and mesangial cells synthesized a single species of mRNA of 4.2 kb from which the polymorphic MCP species were generated. Flow cytometric analysis suggested that MCP was minimal in mesangial cells. These results, taken together with the previous reports on the distribution of other complement regulatory proteins, infer that the distribution profile of MCP is rather similar to that of DAF but differs from those of CD59 and CR1 in the normal human kidney; this may reflect the differences between their roles or functional properties in renal tissue.
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PMID:Identification and characterization of membrane cofactor protein (CD46) in the human kidneys. 802 16


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