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
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.
...
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
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.
...
PMID:Complement and pregnancy: new insights into the immunobiology of the fetomaternal relationship. 144 17
A glycoprotein of apparent molecular weight 58,000 (unreduced)/68,000 (in its reduced form) (gp 58/68), which is one of the fibronectin/collagen receptors of Trypanosoma cruzi, was purified to homogeneity from the trypomastigote forms of the Tehuantepec and Y strains of the parasite. Purified gp 58/68 inhibited formation of cell-bound and fluid-phase alternative pathway
C3 convertase
in a dose-dependent fashion, as assessed using purified human complement components. Gp 58/68 differed from the human regulatory proteins H, DAF,
MCP
and CR1 and from previously reported regulatory proteins on the parasite membrane in that it was unable to enhance decay-dissociation of preformed alternative pathway
C3 convertase
sites, did not serve as a co-factor for I-mediated cleavage of C3b and had no inhibitory activity on the classical pathway convertases. The inhibitory effect of gp 58/68 was most likely dependent on an interaction of the protein with factor B rather than with C3b. Gp 58/68 provides trypomastigotes with an additional potential mechanism for escaping complement lysis by the human alternative pathway.
...
PMID:gp 58/68, a parasite component that contributes to the escape of the trypomastigote form of T. cruzi from damage by the human alternative complement pathway. 297 33
In an effort to elucidate the activation status of neutrophils (PMN) in inflammatory joint disease the expression of relevant cell surface proteins was examined using immunofluorescence and flow cytometry. Paired samples of SF and peripheral blood were obtained from 18 patients with RA and PMN purified using methods designed to minimize activation in vitro. We then used flow cytometry to measure expression of the four membrane complement regulatory molecules, decay accelerating factor (DAF; CD55), complement receptor 1 (CR1; CD35), membrane cofactor protein (
MCP
; CD46) and CD59; two adhesion molecules of the integrin family LFA1 (alpha chain, CD11a), complement receptor 3 (CR3; alpha chain, CD11b), and their common beta chain (CD18); the major receptor for immune complexes Fc gamma RIII (CD16), and the leucocyte common antigen tyrosine phosphatase (L-CA; CD45). Expression of these molecules was also measured on peripheral blood PMN from 18 age- and sex-matched normal controls. In RA, SF PMN expressed significantly higher levels of the complement regulators CD55 and CD35, the adhesion molecule CR3 (CD11b/CD18) and of CD45 but significantly lower levels of CD46 and CD11a in comparison with blood PMN from the same patient. Expression of CD59 and CD16 did not differ between the two groups. These changes may increase adhesiveness and complement resistance of PMN in SF compared with blood. PMN from RA expressed significantly less of all the
complement C3 convertase
regulators (CD55, CD46, CD35), all the adhesion molecules (CD11a, CD11b, CD18) and the phosphatase CD45 than did blood PMN from age and sex-matched control individuals.
...
PMID:Expression of complement regulatory molecules and other surface markers on neutrophils from synovial fluid and blood of patients with rheumatoid arthritis. 805 95
Previous studies have suggested that the residues 727-768 of human (Hu) C3 contain the binding sites for CR1, factor H, and factor B. Here, we have (1) characterized further some of the C3 structural requirements for its binding to CR1, H, and B, (2) investigated the functions associated with these C3-ligand interactions, and (3) studied the relationship of
MCP
-binding sites in C3 with those for CR1, H, and B. Hu C3 molecules in which residues 727-768 were deleted (designated C3delta727-768) or substituted with the corresponding segment of cobra venom factor, Xenopus, or trout C3 (chimeric C3s) were expressed in the baculovirus system and analyzed for their reactivity with C3-binding proteins. In contrast to wild-type iC3 which, in the presence of CR1, is cleaved by factor I to iC3b-a and C3c-a and C3dg, all chimeric C3s were cleaved only to iC3b-a. In addition, the cleavage of deleted (C3delta727-768) iC3 to iC3b-a by factor I in the presence of CR1 was significantly reduced, whereas it remained unaltered in the presence of
MCP
. Cleavage of iC3 to iC3b-a by factor I and H was similar in all expressed C3s except C3delta727-768, whose cleavage was significantly reduced. All of the expressed molecules except C3delta727-768 were capable of forming the fluid-phase alternative pathway
C3 convertase
, and all reacted with properdin. These results suggest that during cleavage of iC3 by factor I and CR1, or H, CR1 and H bind to at least two sites on C3 and that the
MCP
binding site(s) on C3b are different from those for CR1. They also indicate that some or all of the C3 residues that are directly involved in, or contribute to, the structure of one of the CR1 and H binding sites are located within residues 727-768. These studies also demonstrate that, although this segment of C3 may be involved in C3-factor B interaction, other residues in addition to 736EE (previously implicated in B binding) must also contribute significantly to this interaction.
...
PMID:Dissection of CR1, factor H, membrane cofactor protein, and factor B binding and functional sites in the third complement component. 864 30
The membrane-bound complement regulators decay-accelerating factor (DAF, CD55), membrane cofactor protein (
MCP
, CD46), and CD59 are broadly expressed proteins that act together to protect host tissues from autologous complement. Comparison of expression profiles of these proteins between normal and pathological tissues could reveal a mechanism by which tumor cells evade complement-mediated killing. Expression of the regulators was therefore examined in the normal human uterine cervix, in cervical intraepithelial neoplasia (CIN; n = 23), and in cervical squamous carcinomas (n = 6). DAF and
MCP
were reciprocally expressed in normal ectocervical epithelium.
MCP
was confined predominantly to the basal and parabasal layers with more extensive expression in metaplastic squamous epithelium. An apparent expansion in
MCP
expression was observed in more severe premalignant lesions whereas cervical carcinoma were uniformly
MCP
positive. By contrast, DAF expression appeared unaltered in premalignant lesions and variable in carcinomas. However, increased DAF was observed in stromal cells directly adjacent to infiltrating tumor cells. A low molecular weight DAF product was detected in tumors, and preliminary evidence suggests this may be derived from stromal cells. Overall, changes in expression of
C3 convertase
regulators in both the stromal and epithelial compartments may be important for evasion of immune surveillance in cervical cancer.
...
PMID:Expression of the complement regulatory proteins decay accelerating factor (DAF, CD55), membrane cofactor protein (MCP, CD46) and CD59 in the normal human uterine cervix and in premalignant and malignant cervical disease. 935 72
Previous studies have shown that DAF (or CD55), a cell surface inhibitor of autologous C3 activation, is present in tears and that > 90% of the
C3 convertase
regulatory activity in tear fluid resides in this protein (Lass JH et al., Invest Ophth Vis Sci 1990; 31:1136-48). This study investigated whether (i) the membrane cofactor protein (
MCP
or CD46), an additional factor that regulates C3 activation, and (ii) the membrane inhibitor of reactive lysis (MIRL or CD59), a cell surface regulator that acts to prevent formation of the membrane attack complex, are also present in tears, and if so, are functional. Two-site immunoradiometric assays showed that
MCP
is present in tears at low levels (42 + 8 ng/ml, n = 8) while CD59 is present at levels (222 + 78 ng/ml, n = 14) comparable to those of DAF (325 + 289 ng/ml, n = 12). The concentrations of CD59 (i) were increased two-fold or more in closed eye tears, and (ii) were decreased in reflex tears. Western blotting showed that CD59 protein in tears migrates with an apparent mol. wt similar to membrane CD59 protein. Phenyl-Sepharose adsorption and Triton X-114 partitioning of tear CD59 as well as of tear DAF however, showed that both proteins are devoid of GPI anchors. Assays using cobra venom factor-activated human serum and guinea pig erythrocytes showed that CD59 is functionally active in inhibiting autologous C5b-9-mediated lysis and, under constitutive conditions, accounts for > 85% of the C9 inhibitory activity in tear fluid.
...
PMID:Tears contain the complement regulator CD59 as well as decay-accelerating factor (DAF). 1120 47
C3 convertase
regulatory proteins, decay accelerating factor (DAF, CD55) and membrane cofactor protein (
MCP
, CD46), have complementary function and transfected into non-human cells might confer protection against human complement. This may be an effective strategy to alleviate C-mediated cell damage by combining the two activities. In this study, we constructed a dicistronic mammalian expression vector pcDNA3-MCPIRESDAF using the internal ribosomal entry sites (IRES) of the encephalomyocarditis virus (EMCV), and stable cell lines were obtained by G418 screening. Integration of extraneous genes was identified by PCR. RT-PCR and Western blotting analysis demonstrated that the EMCV IRES allowed for efficient co-expression of hMCP and hDAF in NIH3T3 cells stably transfected with pcDNA3-MCPIRESDAF. Human complement-mediated cytolysis assays showed that co-expressed DAF and
MCP
proteins could provide more significant protection against complement-mediated cytolysis than either hMCP or hDAF alone. These results suggest that DAF and
MCP
synergize the actions of each other, and the IRES-mediated polycistronic vector should improve the efficiency and effectiveness of multi-gene delivery. The pcDNA3-MCPIRESDAF vector has potential therapeutic value for effectively controlling complement activation, thereby increasing the possibility of inter-species transplantation.
...
PMID:Co-expression of human complement regulatory proteins DAF and MCP with an IRES-mediated dicistronic mammalian vector enhances their cell protective effects. 1897 20
The atypical Hemolytic Uremic Syndrome (aHUS) is a rare thrombotic microangiopathy leading to end stage renal disease in approximately 60% of patients. Over the last decade, a clear link has been demonstrated between this disease and defective complement regulation. The hallmark of the aHUS is the association with mutations in complement alternative pathway genes. Endothelial damage is related to complement dysregulation, but the exact mechanism is just starting to be elucidated. Screening for and characterization of mutations in the components of the
C3 convertase
(C3 and FB) or its regulators (FH, FI,
MCP
, and Thrombomodulin) or anti-FH antibodies has become an indispensable part of the disease's diagnostic. This review will initially summarize current knowledge on the understanding of complement activation and regulation, followed by a description on the genetic analysis as well as the methods used for complement protein quantification. Another part of this review will focus on the mechanisms of action of aHUS-associated mutations. We will emphasize on when and why some mutations lead to protein deficiency, while others result in - to dysfunctional but normally expressed proteins. Finally, we will discuss how the therapy of aHUS patients can be modified according to the functional consequences of each particular genetic defect.
...
PMID:Alternative complement pathway assessment in patients with atypical HUS. 2121 49
Hemolytic uremic syndrome (HUS) is a thrombotic microangiopathy (TMA) disorder characterised by the association of haemolytic anaemia, thrombocytopenia and acute renal failure. Atypical forms (non-shigatoxin related forms) may be familial or sporadic, frequently with relapses and most of them lead to end stage renal failure. During the last years, different groups have demonstrated genetic predisposition to atypical HUS (aHUS) involving five genes encoding for complement components which play a role in the activation or control of the alternative pathway: encoding factor H (CFH), accounting for 30% of aHUS; CD46 (encoding membrane cofactor protein [
MCP
]) accounting for approximately 10% of aHUS; CFI (encoding factor I) accounting for an estimated 5-15% of patients; C3 (encoding C3) accounting for approximately 10% of aHUS; and rarely CFB (encoding factor B). Predisposition to aHUS is inherited with incomplete penetrance. It is admitted that mutations confer a predisposition to develop aHUS rather than directly causing the disease and that a second event (genetic or environmental) is required for disease manifestation. HUS onset follows a triggering event in most cases (frequently banal seasonal infection and pregnancy). Uncontrolled
C3 convertase
leads to increased deposition of C3b on vascular endothelium and participates to the prothrombotic state. The phenotype of aHUS is variable ranging from mild forms, with complete recovery of renal function to severe forms with end stage renal disease within the first year after the onset. Overall, the outcome is severe with a mortality rate of 10% and with more than 60% of patients on dialysis. The most severe prognosis was in the CFH mutation group. There is a high risk of recurrence of the disease after renal transplantation in patients with mutations in CFH, CFI, CFB and C3. Plasma therapy may allow complete haematological remission but frequently with persistent renal damage. Some patients are plasma resistant and some are plasma dependent. The recent progress in the determination of the susceptibility factors for aHUS, have allowed to propose new diagnostic tests including a molecular genetic testing and may permit to consider some new specific treatments in this disease (human plasma-derived CFH or complement inhibitors).
...
PMID:[Atypical hemolytic-uremic syndrome related to abnormalities within the complement system]. 2137 30
1
2
Next >>
