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

The human cell surface complement regulatory proteins CD46 (MCP), CD55 (DAF) and CD35 (CR1) protect autologous cells from complement-mediated damage by inhibiting C3 and C5 convertases. This regulatory potential has previously been exploited in the treatment of some models of inflammatory injury by the generation of recombinant soluble (rs) proteins, such as rsCD55 and rsCD35 . More recently, we have shown that rsCD46 inhibits complement activation in the fluid phase. In this report, the ability of rsCD46, rsD55 and rsCD35 to regulate human complement activation mediated by the classical pathway in vitro was clearly demonstrated by all three soluble proteins; however, rsCD35 was a more effective inhibitor than either rsCD46 or rsCD55. A combination of rsCD46+ rsCD55 was more potent than either of these proteins alone. Cell lysis via alternative pathway activation in vitro was efficiently regulated by rsCD46 and rsCD35 to a similar extent, whereas rsCD55 was not effective. Assays of rsCD46 in vivo have previously not been possible due to difficulties in expressing sufficient quantities of protein. This limitation has been overcome and now we report the ability of rsCD46 to inhibit immune complex-mediated inflammation in a rat using the reverse passive Arthus reaction model. Administration of rsCD46 significantly reduced the size of lesion, and histological examination showed a reduction in inflammatory infiltrate and edema. These data suggest that rsCD46, in addition to rsCd55 and rsCD35, may be useful a therapeutic agent.
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PMID:A functional analysis of recombinant soluble CD46 in vivo and a comparison with recombinant soluble forms of CD55 and CD35 in vitro. 860 24

Complement in the postmortem brains of 15 cases of Pick's disease has been widely analyzed immunohistochemically and, in 2 cases, by immunoelectron microscopy. Astrocytes and the Pick bodies and cytoplasm of ballooned neurons were immunoreactive with antibodies to classical pathway components C1, C1q, C4, C2 and C3 and the terminal complex components C5, C6 and C8. In almost all cases, no immunostaining was obtained with antibodies against C9 and neoepitopes in the membrane attack complex (MAC), the complement complex responsible for cytotoxicity. However, unequivocal staining with antibodies to two soluble complement regulatory proteins, S-protein and clusterin, and to the membrane complement inhibitor CD59 was found, although three other membrane inhibitors, CR1(CD35), DAF (CD55), and MCP (CD46), were not detected. The complement immunoreactivity of astrocytes and neurons could be the result of complement biosynthesis or attack. Complement attack will be restricted by the expressed regulatory proteins. However, neurons may be the victims of attack since they show pathological change. The internalization of complement-attacked membrane, perhaps involving the genesis of Pick bodies and ballooning, may explain the intracellular immunolocalization of complement in damaged neurons. Immunoglobulins, as a possible source of complement activation, were observed in only two cases, leaving unresolved the trigger for complement activation in the other cases.
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PMID:Role of complement in the aetiology of Pick's disease? 862 48

Recent evidence suggests that complement is activated in human nasal airways in inflammatory states. Activated complement protects the nasal mucosa against microorganisms, but also has the potential to lyse the host's normal cells. Complement-mediated cell lysis depends on adsorption of complement to the cell membrane and on uninterrupted activation of the complement cascade upon the same cell membrane. In the present study, the authors investigated first whether key complement components, C3-related fragments, are adsorbed to nasal epithelial cell membrane. Second, we investigated whether nasal epithelium expresses cell membrane complement regulatory proteins that are known as interruptors of complement activation. Studies were done using fresh nasal mucosa obtained at turbinectomies from allergic rhinitis and vasomotor rhinitis patients. In addition, in order to establish an in vitro model, studies were also done using primary cell cultures of nasal epithelium. We have found that complement C3-related fragments are present on cell membranes of fresh nasal epithelium and that C3-related fragments are adsorbed to the epithelial cell membrane in nasal mucosa tissue segments and in cell cultures that were incubated with autologous serum. Adsorption of C3-related fragments to the cell membrane of cultured nasal epithelial cells was found by flow cytometry analysis to be concentration-dependent. In addition, we found that nasal epithelium in fresh tissue and in cell culture express three cell membrane complement regulatory proteins: membrane cofactor protein (MCP, CD46), decay-accelerating factor (DAF, CD55), and CD59. Our findings in fresh nasal epithelium suggest that complement activation may occur upon the nasal epithelial cell membrane during inflammation in vivo and that nasal epithelium might regulate this complement activation. Our in vitro cell culture model will allow further investigations of complement activation and regulation upon the human nasal epithelial cell membrane.
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PMID:Human nasal epithelium adsorbs complement C3-related fragments and expresses cell membrane complement regulatory proteins. 862 88

To avoid destruction by complement, normal and malignant cells express membrane glycoproteins that restrict complement activity. These include decay-accelerating factor (DAF, CD55), membrane cofactor protein (MCP, CD46) and protectin (CD59), which are all expressed on colonic adenocarcinoma cells in situ. In this study we have characterised the C3/C5 convertase regulators DAF and MCP on the human colonic adenocarcinoma cell line HT29. DAF was found to be a glycosyl-phosphatidylinositol-anchored 70-kDa glycoprotein. Blocking experiments with F(ab')2 fragments of the anti-DAF monoclonal antibody BRIC 216 showed that DAF modulates the degree of C3 deposition and mediates resistance to complement-mediated killing of the cells. The expression and function of DAF were enhanced by tumour necrosis factor alpha (TNF alpha) and interleukin-1 beta (IL-1 beta). Cells incubated with interferon gamma (IFN gamma) did not alter their DAF expression. Two MCP forms were expressed, with molecular masses of approximately 58 kDa and 68 kDa, the lower form predominating. MCP expression was up-regulated by IL-1 beta, but not by TNF alpha or INF gamma. Expression of DAF and MCP promotes resistance of colonic adenocarcinoma cells to complement-mediated damage, and represents a possible mechanism of tumour escape.
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PMID:Characterisation of the complement-regulatory proteins decay-accelerating factor (DAF, CD55) and membrane cofactor protein (MCP, CD46) on a human colonic adenocarcinoma cell line. 864 Aug 47

Membrane cofactor protein (MCP; CD46) is a widely distributed C3b/C4b-binding glycoprotein that inhibits complement activation on host cells. MCP is expressed primarily as four isoforms that arise by alternative splicing of a single gene. The differences reside in the domains for O-glycosylation and cytoplasmic tails. Tissue-specific expression of isoforms and the differential processing of precursors mediated by the cytoplasmic tails suggest that isoform variations are biologically significant. The goal of these experiments was to characterize the complement inhibitory profile of the four commonly expressed isoforms. The MCP isoforms (BC) with a larger O-glycosylation domain bound C4b more efficiently than the C isoforms, which are smaller and less glycosylated in this region. Additionally, cytoprotection assays of individual clones of transfected isoforms bearing equivalent copy numbers demonstrated that the BC isoforms also provided enhanced protection in a classical pathway-mediated system and cleaved cell-bound C4b more efficiently than the C isoforms. Taken together, these data demonstrate that BC isoforms preferentially protect against the classical pathway of complement. Such findings indicate a physiologic role for isoform variation and have therapeutic implications for use of MCP isoforms as complement inhibitors in such areas as xenotransplantation.
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PMID:Membrane cofactor protein (MCP; CD46). Isoforms differ in protection against the classical pathway of complement. 866 15

Membrane cofactor protein (MCP; CD46), a widely distributed regulatory protein of the complement system, was analyzed for expression in polarized epithelial cells. Both a human and a simian (Vero C1008) cell line were found to contain endogenous MCP mainly on the basolateral surface. Transfected Madin-Darby canine kidney cells stably expressing human MCP delivered this protein also predominantly to the basolateral surface. A deletion mutant lacking the cytoplasmic tail was transported in a nonpolarized fashion, indicating that the targeting signal for the basolateral transport is located in the cytoplasmic domain. A characteristic feature of MCP is the presence of various isoforms that contain either of two different cytoplasmic tails as a consequence of alternative splicing. Two isoforms differing only in the cytoplasmic tail (tail 1 or 2) were analyzed for polarized expression in Madin-Darby canine kidney cells. Surface biotinylation, as well as confocal immunofluorescence microscopy, indicated that both proteins were transported to the basolateral surface. Because no sequence similarity has been observed, the two tails contain different basolateral targeting signals. A deletion mutant lacking the only tyrosine residue in tail 1 retained the polarized expression indicating that, in contrast to most basolateral sorting signals, the transport signal of the tail 1 isoform is not dependent on tyrosine. The maintenance of a targeting motif in two distinct cytoplasmic tails suggests that the basolateral expression of MCP in polarized epithelial cells is of physiological importance.
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PMID:Two different cytoplasmic tails direct isoforms of the membrane cofactor protein (CD46) to the basolateral surface of Madin-Darby canine kidney cells. 870 45

Glomerular expression of intercellular adhesion molecule-1 (ICAM1) (CD54) and membrane cofactor protein (MCP; CD46) and positive infiltrating cells in leukocyte function associated antigen-1 (LFA1)alpha (CD11a) and C3bi receptors (CR3/CD11b, CR4/CD11c) were examined by the indirect immunoperoxidase method on 43 sets of repeated renal biopsy specimens from patients with immunoglobulin A nephropathy. Twenty-four-hour urine protein at the time of renal biopsy was also evaluated. Glomerular infiltration of LFA1alpha+ cells was significantly correlated with glomerular expression of ICAM1 (r = 0.494, P < 0.0001). Glomerular complement receptor type 4 (CR4)+ cells were significantly correlated with glomerular expression of MCP (r = 0.405, P < 0.0001). The glomerular expressions of ICAM1 and MCP were significantly correlated with each other (r = 0.700, P < 0.00001). The glomerular infiltrations of LFA1alpha+ and CR4+ cells were highly correlated with each other (r = 0.884, P < 0.00001), and both cell types were significantly correlated with urine protein (respectively, r = 0.426 and 0.478, P < 0.001 and 0.0001). When the change in these parameters between the time of the initial and follow-up biopsies was evaluated, there was a significant correlation between the change in glomerular expression of ICAM1 (DeltaICAM1) and MCP (DeltaMCP) as well as between the change in glomerular infiltration of LFA1alpha+ cells (DeltaLFA1alpha+) and CR4+ cells (DeltaCR4+). Both DeltaLFA1alpha+ and DeltaCR4+ were significantly correlated with the change in urine protein. These findings suggest that ICAM1/LFA1 interaction and MCP-mediated C3bi/C3biR interaction cooperate and participate in persistent glomerular infiltration of immune cells in immunoglobulin A nephropathy, and that these LFA1alpha+ and C3biR+ cells contribute to the induction of proteinuria.
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PMID:Intercellular adhesion molecule-1/leukocyte function associated antigen-1-mediated and complement receptor type 4-mediated infiltration and activation of glomerular immune cells in immunoglobulin A nephropathy. 871 20

Membrane cofactor protein (MCP, CD46) of the complement system is a measles virus (MV) receptor. Human lymphocytes express a heavily glycosylated (H) and a lightly glycosylated (L) form of MCP, which confers a two-band profile on SDS-PAGE the ratio of which is controlled genetically and organ-specifically. In contrast, granulocytes express a single heavily glycosylated form regardless of lymphocyte MCP phenotype. We investigated susceptibility to MV of granulocytes and lymphocytes from individuals with different lymphocyte MCP phenotypes. In any individual, granulocytes were > 10-fold less susceptible to MV than lymphocytes, and the lymphocytes with predominant H form were generally less susceptible to those with an increasing amount of L form. Thus, lymphocytes always exhibit high susceptibility to MV compared to granulocytes in all individuals. This finding may explain the lymphopenia and immunosuppression observed secondary to MV infection.
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PMID:Human lymphocytes are more susceptible to measles virus than granulocytes, which is attributable to the phenotypic differences of their membrane cofactor protein (CD46). 871 5

During measles virus (MV) infection, lymphopenia and immune suppression are observed in humans, yet the mechanisms underlying these effects remain unknown except that membrane cofactor protein (MCP, CD46) acts as a receptor for MV, accelerating entry of the virus into host cells. CD46 is a complement regulator, the role of which is to protect host cells from the autologous complement system. Thus, it encompasses complement-related and MV-mediated immune modulation. In this review, I discuss the structural and functional differences between CD46 on lymphocytes and on granulocytes, which partly explain the higher susceptibility of lymphocytes to MV than other blood cells to clarify the mechanisms of MV-mediated lymphopenia and immune suppression, and help resolve the T cell immunity dysfunction secondary to virus infection including HIV.
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PMID:CD46, a complement regulatory protein/measles virus receptor, and its relation to hematological disorders. 885 67

CD46 (membrane cofactor protein, MCP) is a cell surface complement regulatory protein which may have an additional role in human sperm-egg interaction. A soluble form (sCD46) has also been detected in a number of biological fluids, most notably seminal plasma. The present study has employed a monoclonal antibody-based ELISA to assay sCD46 in reproductive tract fluids in normal and pathological conditions. Large amounts of sCD46 were detected in seminal plasma of both fertile and infertile men (combined mean, 4859 ng/ml). Vasectomized men had lower levels (mean, 2421 ng/ml), indicating contributory sources both before and after the vas deferens ligation site. Pre-colostrum also contained relatively high quantities (mean, 445 ng/ml), whereas breast milk (mean, 117 ng/ml), peritoneal fluid (mean, 154 ng/ml) and follicular fluid (mean, 107 ng/ml), as well as uterine (mean, 208 ng/ml), umbilical (mean, 166 ng/ml) and peripheral (mean, 206 ng/ml) blood plasma, had sCD46 levels within a comparable range. Amniotic fluid had low sCD46 concentrations (mean, 22 ng/ml). In endometriosis, peritoneal fluid levels of sCD46 were significantly raised (mean, 199 mg/ml). These results indicate distinctive fluid compartmentalisation of sCD46 consistent with a biological function in human reproductive tract fluids.
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PMID:Soluble CD46 (membrane cofactor protein, MCP) in human reproductive tract fluids. 890 53


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