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Query: UNIPROT:P36980 (
CFHR2
)
30
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The human
factor H-related gene 2
(
FHR2
) encodes a serum protein structurally and immunologically related to complement factor H. We describe the isolation and genomic organization of the human
FHR2
gene from a yeast artificial chromosome library. The
FHR2
gene is organized in five exons and spans about 7 kilobases (kb) of human genomic DNA. A comparison with the corresponding cDNA sequence (clone
DDESK59
) shows that the analyzed
FHR2
gene has a deleted region within exon 4. A new splice acceptor site created in the truncated exon indicates that the analyzed gene could be translated to a truncated protein. Further, we demonstrate that the genes for
FHR2
and beta subunit of coagulation factor XIII are located in the same 165 kb YAC DNA. Thus, the three structurally related genes FXIIIb,
FHR2
, and
factor H
are linked on human chromosome 1 in the regulators of complement activation (RCA) gene cluster. The physical linkage of the
FHR2
and the
factor H
genes provides additional evidence for a close relatedness of complement factor H and the
factor H
-related proteins. The linkage and the almost exclusive organization in short consensus repeat-containing domains indicates a close evolutionary relationship of the FXIIIb,
FHR2
, and
factor H
genes.
...
PMID:The human factor H-related gene 2 (FHR2): structure and linkage to the coagulation factor XIIIb gene. 767 21
We have generated monoclonal antibodies (mAbs) specific for the C-terminus of
factor H
that can be used as inhibitory antibodies for heparin binding and for the specific detection of
factor H
and
factor H
-related proteins (FHRs) in plasma and triacylglycerol-rich lipoproteins. Four distinct mAbs were established: IXF9 (IgG1), VD3 (IgG2a), VIG8 (IgG1) and IIC5 (IgG1). Each reacts specifically with FHR-1 and
factor H
(and also with
FHR-2
in the case of VIG8), but none binds to the related FHR-3 and FHR-4 proteins nor to
factor H
-like protein 1. By the use of deletion mutants of
factor H
and by comparing the reactivity with FHR-1 and
FHR-2
, the binding epitopes of the mAbs were identified and localized to different short consensus repeats (SCRs): mAbs IXF9 and VD3 bind to related or even identical sites within SCR18 (
factor H
) and SCR3 (FHR-1) respectively. mAbs VIG8 and IIC5 bind to different epitopes located within SCRs 19 to 20 of
factor H
and SCRs 4 to 5 of FHR-1 respectively. Only mAb VIG8 reacts with the corresponding SCRs 3 to 4 of
FHR-2
. These antibodies are useful for the detection of the corresponding proteins in biological specimens such as fractions of lipoproteins. In addition, mAb VIG8 has the unique feature of inhibiting binding of
factor H
to heparin. Given the recent identification of a heparin- and a C3b-binding domain within the C-terminus of
factor H
, these mAbs should provide useful tools for functional analysis and for the precise localization of the domain(s) required for this interaction.
...
PMID:The C-terminus of factor H: monoclonal antibodies inhibit heparin binding and identify epitopes common to factor H and factor H-related proteins. 951 60
The
factor H
gene family provides a prime example of a multidomain multifunctional protein family whose individual members are defined by conserved common structural elements and display diverse but often overlapping functions. The six identified members of this protein family represent secreted plasma proteins that are primarily synthesized in the liver. Here, we summarize the current understanding of the function of these proteins and suggest a common role in complement control. Factor H is the best characterized member and acts as a complement regulator. The protein displays cofactor activity for factor I in the degradation of the central complement component C3b, acts as a decay accelerating factor for the C3 convertase, C3bBb and is a competitor for factor B binding to C3b. Factor H is a multifunctional protein and displays functions outside the complement system: it binds to the cellular integrin receptor (CD11b/CD18), interacts with cell surface glycosaminoglycans and also binds to the surface of certain pathogenic microorganisms. In addition,
factor H
has several binding sites for the C3 protein. The
factor H
-like protein 1 (FHL-1) or reconectin shares the complement regulatory functions with
factor H
and interacts with heparin. The protein displays cell spreading activity and binds to the N-terminus of the streptococcal M protein. The function of the
factor H
-related proteins (FHR-1 to FHR-4) is currently under investigation. These proteins are differently distributed. Three proteins (FHR-1,
FHR-2
and FHR-4) are constituents of lipoproteins, while FHR-3 interacts with heparin. Binding to C3b and C3d has been demonstrated for FHR-3 and FHR-4 and the two proteins display a cofactor related activity.
...
PMID:The factor H protein family. 1040 66
The
factor H
family of genes has been localised to human chromosome 1q32. This region encodes various proteins involved in complement regulation and is known as the regulators of complement activation (RCA) gene cluster. The
factor H
genes encode seven known plasma proteins. Using fluorescence in situ hybridisation (FISH), radiation hybrid (RH) mapping and BLAST alignment analysis, we have established that the
factor H
-related 5 (FHR-5) gene is closely linked to the other
factor H
gene family members. Analysis of the genomic sequence indicates that the FHR-5 gene is situated between
FHR-2
and the non-complement protein factor XIIIb (Fl3B). Like all members of the
factor H
family. transcription of FHR-5 is in the telomeric direction. Furthermore, the short consensus repeats (SCRs) of FHR-5 are encoded by individual exons and splicing is of type 1. These data allow the generation of a more complete map of the
factor H
gene family.
...
PMID:Location and structure of the human FHR-5 gene. 1204 28
Many of the complement regulatory genes within the RCA cluster (1q32) have arisen through genomic duplication and the resulting high degree of sequence identity is likely to predispose to gene conversion events. The highest degree of identity is between the genes for
factor H
(CFH) and five
factor H
-related proteins--CFHL1,
CFHL2
, CFHL3, CFHL4, and CFHL5. CFH mutations are associated with atypical hemolytic uremic syndrome (aHUS). In the Newcastle cohort of 157 aHUS patients we have identified CFH mutations in 25 families or individuals. Eleven of these 25 independent mutations are either c.3226C>G,Q1076E; c.3572C>T,S1191L; c.3590T>C,V1197A or combined c.3572C>T,S1191L/c.3590T>C,V1197A. Sequence analysis shows that all four of these changes could have arisen as a result of gene conversion between CFH and CFHL1. Analysis of parental samples in two patients with S1191L/V1197A has shown that the changes are de novo thus providing conclusive evidence that gene conversion is the mutational mechanism in these two cases. To confirm that S1191L and V1197A are disease predisposing we examined their functional significance in three ways - analysis of the C3b/C3d binding characteristics of recombinant mutant S1191L/V1197A protein, heparin affinity chromatography and haemolytic assays of serum samples from aHUS patients carrying these changes. The results showed that these changes resulted in impaired C3b binding and a defective capacity to control complement activation on cellular surfaces. We, therefore, provide conclusive evidence that gene conversion is responsible for functionally significant CFH mutations in aHUS.
...
PMID:De novo gene conversion in the RCA gene cluster (1q32) causes mutations in complement factor H associated with atypical hemolytic uremic syndrome. 1647 May 55
Spirochetes belonging to the Borrelia burgdorferi sensu lato complex differ in resistance to complement-mediated killing by human serum. Here, we characterize complement sensitivity of a panel of B. lusitaniae isolates derived from ticks collected in Germany and Portugal as well as one patient-derived isolate, PoHL. All isolates are highly susceptible to complement-mediated lysis in human serum and activate complement predominantly by the alternative pathway, leading to an increased deposition of complement components C3, C6, and the terminal complement complex. Interestingly, serum-sensitive B. lusitaniae isolates were able to bind immune regulator
factor H
(CFH), and some strains also bound CFH-related protein 1 (CFHR1) and
CFHR2
. Moreover, CFH bound to the surface of B. lusitaniae was inefficient in mediating C3b conversion. Furthermore, the identification and characterization of a potential CFH-binding protein, OspE, revealed that this molecule possesses a significantly reduced binding capacity for CFH compared to that of CFH-binding OspE paralogs expressed by various serum-resistant Borrelia species. This finding suggests that a reduced binding capability of CFH is associated with an increased serum sensitivity of B. lusitaniae to human complement.
...
PMID:Inadequate binding of immune regulator factor H is associated with sensitivity of Borrelia lusitaniae to human complement. 2082 2
Borrelia burgdorferi evades complement-mediated killing by interacting with complement regulators through distinct complement regulator-acquiring surface proteins (CRASPs). Here, we extend our analyses to the contribution of CRASP-4 in mediating complement resistance of B. burgdorferi and its interaction with human complement regulators. CRASP-4 (also known as ErpC) was immobilized onto magnetic beads and used to capture proteins from human serum. Following Western blotting,
factor H
(CFH), CFH-related protein 1 (CFHR1),
CFHR2
, and CFHR5 were identified as ligands of CRASP-4. To analyze the impact of native CRASP-4 on mediating survival of serum-sensitive cells in human serum, a B. garinii strain was generated that ectopically expresses CRASP-4. CRASP-4-producing bacteria bound CFHR1,
CFHR2
, and CFHR5 but not CFH. In addition, transformed spirochetes deposited significant amounts of lethal complement components on their surface and were susceptible to human serum, thus indicating that CRASP-4 plays a subordinate role in complement resistance of B. burgdorferi.
...
PMID:Contribution of the infection-associated complement regulator-acquiring surface protein 4 (ErpC) to complement resistance of Borrelia burgdorferi. 2240 34
Borrelia burgdorferi, the etiological agent of Lyme disease, exploits an array of strategies to establish infection and to overcome host innate and adaptive immune responses. One key borrelial immune escape mechanism involves the inactivation of host complement attack through acquisition of human immune regulators
factor H
(CFH),
factor H
-like protein 1 (FHL1),
factor H
-related protein 1 (CFHR1),
CFHR2
, and/or CFHR5. Binding of these host proteins is primarily mediated by bacterial surface-exposed proteins that have been collectively referred to as complement regulator-acquiring surface proteins, or CRASPs. Different strains of B. burgdorferi produce as many as 5 different CRASP molecules that comprise 3 distinct, genetically unrelated groups. Depending on bacterial genetic composition, different combinations of these proteins can be found on the borrelial outer surface. The 3 groups differ in their gene location, gene regulatory mechanisms, expression patterns during the tick-mammal infection cycle, protein sequence and structure as well as binding affinity for complement regulators and other serum proteins. These attributes influence the proteins' abilities to contribute to complement resistance of this emerging human pathogen. In this review, we focus on the current knowledge on structure, function, and gene regulation of these B. burgdorferi infection-associated proteins.
...
PMID:Complement regulator-acquiring surface proteins of Borrelia burgdorferi: Structure, function and regulation of gene expression. 2321 63
Mutations and deletions within the human CFHR gene cluster on chromosome 1 are associated with diseases, such as dense deposit disease, CFHR nephropathy or age-related macular degeneration. Resulting mutant CFHR proteins can affect complement regulation. Here we identify human
CFHR2
as a novel alternative pathway complement regulator that inhibits the C3 alternative pathway convertase and terminal pathway assembly.
CFHR2
is composed of four short consensus repeat domains (SCRs). Two
CFHR2
molecules form a dimer through their N-terminal SCRs, and each of the two C-terminal ends can bind C3b. C3b bound
CFHR2
still allows C3 convertase formation but the
CFHR2
bound convertases do not cleave the substrate C3. Interestingly
CFHR2
hardly competes off
factor H
from C3b. Thus
CFHR2
likely acts in concert with
factor H
, as
CFHR2
inhibits convertases while simultaneously allowing
factor H
assisted degradation by factor I.
...
PMID:Human factor H-related protein 2 (CFHR2) regulates complement activation. 2426 Jan 21
The renal disorder C3 glomerulopathy with dense deposit disease (C3G-DDD) pattern results from complement dysfunction and primarily affects children and young adults. There is no effective treatment, and patients often progress to end-stage renal failure. A small fraction of C3G-DDD cases linked to
factor H
or C3 gene mutations as well as autoantibodies have been reported. Here, we examined an index family with 2 patients with C3G-DDD and identified a chromosomal deletion in the complement factor H-related (CFHR) gene cluster. This deletion resulted in expression of a hybrid
CFHR2
-CFHR5 plasma protein. The recombinant hybrid protein stabilized the C3 convertase and reduced
factor H
-mediated convertase decay. One patient was refractory to plasma replacement and exchange therapy, as evidenced by the hybrid protein quickly returning to pretreatment plasma levels. Subsequently, complement inhibitors were tested on serum from the patient for their ability to block activity of
CFHR2
-CFHR5. Soluble CR1 restored defective C3 convertase regulation; however, neither eculizumab nor tagged compstatin had any effect. Our findings provide insight into the importance of CFHR proteins for C3 convertase regulation and identify a genetic variation in the CFHR gene cluster that promotes C3G-DDD. Monitoring copy number and sequence variations in the CFHR gene cluster in C3G-DDD and kidney patients with C3G-DDD variations will help guide treatment strategies.
...
PMID:Complement factor H-related hybrid protein deregulates complement in dense deposit disease. 2433 59
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