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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)
CR1
, CR2, DAF,
MCP
, factor H, C4bp, factor B, and C3 are members of a family of structurally related molecules, the majority of which belong to the complement system. Several of these molecules also share functional features such as cofactor and decay/dissociation activity and compete with one another in binding to C3b. Since factor H appears to bind to multiple sites in C3, we investigated the relationship between the factor H- and
CR1
-binding sites in C3b. Factor H binding to C3b is inhibited by either the C3c or C3d fragments, and addition of both fragments together augments this inhibition. One monoclonal anti-C3c antibody, anti-C3-9, which recognizes a neoantigenic epitope expressed upon cleavage to C3 to C3b, inhibited both factor H and
CR1
binding to EC3b cells. This monoclonal antibody (MoAb) also inhibited factor B binding to EC3b. Two observations further supported our hypothesis that these molecules bind to proximal sites in C3b. First, a synthetic peptide spanning this region of C3b (C3(727-768)) inhibited factor H binding. Second, antibodies raised against this peptide inhibited binding to
CR1
, factor H, and factor B to C3b. These data show that H binds to at least two sites in C3b: the site in the C3c fragment is within the identified
CR1
-binding domain while the site in the C3d fragment surrounds the CR2-binding site.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Segment spanning residues 727-768 of the complement C3 sequence contains a neoantigenic site and accommodates the binding of CR1, factor H, and factor B. 137 Oct 73
Levels of the membrane complement regulatory proteins, C3b/C4b receptor (
CR1
, CD35), membrane cofactor protein (
MCP
, CD46), and decay-accelerating factor (DAF, CD55), expressed on cells from patients with haematological malignancies and normal subjects were assessed by flowcytometry using the respective monoclonal antibodies (mAbs). All myeloid and most lymphoid leukaemia samples tested were
CR1
-negative: two of the 42 leukaemia samples expressed minute amounts of
CR1
. Lack of
CR1
in leukaemia cells was confirmed with two mAbs raised against
CR1
, 31R, and 243R, which recognized different epitopes and induced different degrees of
CR1
-mediated fluorescent shift on flow-cytometry in granulocytes and erythrocytes.
MCP
was increased in most chronic myelogenous leukaemia (CML) and chronic lymphocytic leukaemia (CLL), and was also increased in majority of acute nonlymphocytic leukaemia (ANLL), acute lymphocytic leukaemia (ALL) and non-Hodgkin's lymphoma (NHL). Levels of DAF were also high in CML and CLL, and were variable in other types of leukaemia: some were DAF-negative while others expressed extremely high levels of DAF. In CML patients, the high level of
MCP
and the lack of
CR1
were normalized after medical treatment. These results are in agreement with the data obtained with human leukaemia cell lines, and support the hypothesis that
CR1
is essentially a differentiated cell antigen and that a high level of
MCP
reflects some malignant transformation or an immature stage in blood cells.
...
PMID:Levels of complement regulatory proteins, CD35 (CR1), CD46 (MCP) and CD55 (DAF) in human haematological malignancies. 138 49
C3-deposition is a key step for activation of the complement system, which involves C9-mediated immunocytolysis, immunoadherence, C3 receptor-mediated phagocytosis, NK potentiation, anaphylatoxin release, and amplification of C3 activation. Foreign material is eliminated even in the preimmune stage by these complement functions. Self cells, on the other hand, must circumvent the C3-attack, so that they express complement regulatory proteins, namely C3b/C4b receptor (
CR1
, CD35), decay-accelerating factor (DAF, CD55), membrane cofactor protein (
MCP
, CD46). We herein review the properties of these regulatory proteins and discuss the relationships between disease processes and the aberrance of these regulatory proteins.
...
PMID:[Cell-associated complement regulatory proteins and their relation to disease processes]. 172 33
The structural genes of human complement regulatory proteins are clustered on chromosome 1 at position q3.2. Human chromosome 1 was transferred into a mouse fibroblast cell line, A9 [designated as A9(neo-1)], and the surface expression of its gene products participating in complement regulation, namely C3b/C4b receptor (
CR1
, CD35), decay-accelerating factor (DAF, CD55), membrane co-factor protein (
MCP
, CD46) and C3d/EB virus receptor (CR2, CD21), were assessed using respective monoclonal antibodies by flow cytometry.
CR1
became positive within 7 days of culture.
MCP
appeared in a small population of cells by Day 3 and, together with DAF, began to increase on Day 7. CR2 appeared on Day 14. The order of the expression was
CR1
greater than DAF =
MCP
greater than CR2. On Day 42, however, all became negative except for
MCP
, which was markedly diminished. These human regulatory proteins were specifically associated with the presence of human chromosome 1, since none of them were expressed on human chromosome 12-transferred A9 cells [A9(neo-12)]. Intact A9 and A9(neo-12) cells activated human complement via the alternative pathway. The activation of this pathway was suppressed in the A9(neo-1) cells that expressed
CR1
, DAF and
MCP
. Slight protective activity was still observed in the 42-day cultured A9(neo-1) cells expressing only trace
MCP
. These results suggest that human complement regulators, expressed via the transferred human chromosome 1, can protect heterologous cells from complement, overcoming their ability to activate the human alternative pathway.
...
PMID:Human complement regulatory proteins expressed on mouse A9 cells containing a human chromosome 1. 172 16
The human regulators of complement activation gene cluster (RCA cluster) have been partially characterized with yeast artificial chromosomes (YACs). While the data confirm many points previously elucidated, the finer resolution of YAC mapping has allowed the discovery and/or localization of partial gene duplications, the determination of gene orientations, and the measurement of gaps between known genes. Here nine overlapping YACs that encompass a genomic region of 800 kb, encoding four RCA genes and three gene-like elements, are described. The encoded genes and two of the gene-like elements share the same orientation and are ordered (5' to 3') DAF, CR2,
CR1
,
MCP
-like,
CR1
-like, and
MCP
. A C4bp-like region lies upstream from DAF and is likely to correspond to one recently observed by F. Pardo-Manuel, J. Rey-Campos, A. Hillarp, B. Dahlback, and S. Rodriguez de Cordoba (1990, Proc. Natl. Acad. Sci. USA 87: 4529-4533).
MCP
-like, a new genetic element, was discovered and found to be homologous to the 5' portion of the
MCP
gene. Two large gaps of 85 kb (between CR2 and DAF) and 110 kb (between DAF and the C4bp-like element) could carry additional RCA genes. The arrangement of
CR1
,
MCP
-like,
CR1
-like, and
MCP
, in that order, strongly suggests that this region was generated by a single duplication of neighboring
CR1
/
CR1
-like and
MCP
/
MCP
-like forerunners. The RCA YACs will now serve as convenient DNA sources for the subcloning and further characterization of this region.
...
PMID:Analysis of the human regulators of complement activation (RCA) gene cluster with yeast artificial chromosomes (YACs). 174 Mar 38
The reaction of radiolabeled C3b-binding proteins with C3b-coated particles has been investigated.
CR1
binding was inhibited by factor H and factor B (in the presence of properdin), but not by properdin alone. CR2 and
MCP
binding were also inhibited by factor H. Therefore factor H, factor B,
CR1
, CR2 and
MCP
probably comprise a group of mutually competitive proteins with similar or overlapping binding sites on C3b. These results correlate with their structural homology and suggest that they all evolved from a single C3b-binding molecule. Factor H,
CR1
and
MCP
are also cofactors for the factor-I-mediated cleavage of C3b. A species incompatibility between rat factor I and human
CR1
for the cleavage of human C3b suggests the possibility that cofactors may also function by interacting directly with factor I.
...
PMID:Competition for binding sites on C3b by CR1, CR2, MCP, factor B and factor H. 213 50
We have identified and characterized C3b binding proteins of two primates, orangutan (Pongo pygmaeus) and gorilla (Gorilla gorilla). Detergent solubilized 125I surface-labeled E and PBMC were subjected to affinity chromatography with homologous or human iC3/C3b. These ligands bound a 225,000 single chain protein from orangutan E and PBMC and a 220,000 protein from gorilla E. Proteins of the same Mr were immunoprecipitated by a rabbit polyclonal and two murine mAb to the human
CR1
(CD35). The C3b binding protein of gorilla E aligned with that of the common human
CR1
polymorphic size variant. Human or orangutan iC3 was also a ligand for a surface-labeled protein doublet of 59,000 and 65,000 from orangutan E. The doublet pattern and mol wts are similar to membrane cofactor protein (or CD46). Further, this doublet was immunoprecipitated by a mAb to human
MCP
. The
MCP
-like protein doublet was not isolated from gorilla or human E. Decay accelerating factor (DAF) of orangutan E was also identified and was structurally and antigenically distinct from the
MCP
-like protein. Orangutan or gorilla E preparations were a cofactor for the cleavage of human iC3 by human factor I and produced the same cleavage fragments as human
CR1
. Cofactor activity of orangutan E was partially inhibited by preclearance of
CR1
and more completely inhibited by preclearance of
MCP
. Cofactor activity of gorilla E was inhibited by coincubation with a monoclonal antibody to human
CR1
. These data indicate that the orangutan and gorilla high m.w. proteins are equivalent to human
CR1
. The orangutan E membrane protein doublet with m.w. of 59,000 and 65,000 possesses biochemical, antigenic, and functional properties of human membrane cofactor protein.
...
PMID:Characterization of CR1- and membrane cofactor protein-like proteins of two primates. 214 Mar 91
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
The classical and alternative pathway of complement activation are regulated by a series of fluid phase and cell-bound factors, some of which at the same time serve as receptors for fragments of C3 and C4. These molecules are factor H,
CR1
(C3b/C4b receptor), CR2 (C3d/EBV receptor), C4BP (C4b binding protein), DAF (decay accelerating factor),
MCP
(membrane cofactor protein; earlier designated p45/70), CR3 (iC3b receptor or Mac-1) and CR4 (protein 150/95). Due to structural, genetic and functional features these factors are members of one or several newly recognized large families of proteins: (1) molecules with 60 amino acids long repeats (H,
CR1
, CR2, C4BP, DAF); (2) proteins with 1,2-diacylglycerol membrane anchoring (DAF); (3) proteins with a heterodimer structure and preference for ligands containing the tripeptide arginine-glycine-asparagine (CR3, CR4). Recognizing the above mentioned regulators and receptors of the complement system as belonging to these protein families opens new perspectives for further genetic and functional research of mutual interest to complement and noncomplement scientists.
...
PMID:Structural and functional relationships among receptors and regulators of the complement system. 297 57
The complement receptors on macrophage are responsible for their binding and ingestion of opsonized targets. The two established receptors are
CR1
, which recognizes C3b, and CR3, which recognizes iC3b, the natural product of C3b from cleavage by the complement control protein factor I and its cofactors.
CR1
belongs to a group of proteins that contain a structural element characterized by its size of 60-65 amino acids, and four conservatively positioned cysteines, which engage in a self-contained 1-3, 2-4 disulphide arrangement. This structural unit is called SCR (short consensus repeat) and is found in the complement proteins C1r, C1s, C2, factor B, factor H, C4BP, DAF,
MCP
and CR2, each of which interacts with some cleavage products of C3 and/or C4.
CR1
has 30 SCR units accounting for its entire extracellular structure. It has a transmembrane segment and a small cytoplasmic domain. CR3 is a heterodimer containing an alpha and beta subunit held together by non-covalent forces. The beta subunit is also found in the two leukocyte antigens, LFA-1 and p150,95, which have alpha subunits distinct from that of CR3. The beta subunit contains 56 cysteine residues, 42 of which lie in a span of 256 residues immediately adjacent to the transmembrane segment. It shares extensive sequence homology with subunits of membrane protein complexes that bind fibronectin and vitronectin, implicating that they all belong to an extended set of surface adhesion molecules not restricted to the immune system. p150,95 is also expressed on macrophages and it has iC3b binding activity. It also shares some functional properties with CR3 as an adhesion surface molecule.
...
PMID:C3 receptors on macrophages. 297 18
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