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Query: EC:3.4.21.69 (
APC
)
16,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
protein C
anticoagulant system provides important control of the blood coagulation cascade. The key protein is
protein C
, a vitamin K-dependent zymogen which is activated to a serine protease by the thrombin-thrombomodulin complex on endothelial cells. Activated
protein C
functions by degrading the phospholipid-bound coagulation factors Va and VIIIa. Protein S is a cofactor in these reactions. It is a vitamin K-dependent protein with multiple domains. From the N-terminal it contains a vitamin K-dependent domain, a thrombin-sensitive region, four EGF) epidermal growth factor (EGF)-like domains and a C-terminal region homologous to the androgen binding proteins. Three different types of post-translationally modified amino acid residues are found in protein S, 11 gamma-carboxy glutamic acid residues in the vitamin K-dependent domain, a beta-hydroxylated aspartic acid in the first EGF-like domain and a beta-hydroxylated asparagine in each of the other three EGF-like domains. The EGF-like domains contain very high affinity calcium binding sites, and calcium plays a structural and stabilising role. The importance of the anticoagulant properties of protein S is illustrated by the high incidence of thrombo-embolic events in individuals with heterozygous deficiency. Anticoagulation may not be the sole function of protein S, since both in vivo and in vitro, it forms a high affinity non-covalent complex with one of the regulatory proteins in the complement system, the C4b-binding protein (C4BP). The complexed form of protein S has no
APC
cofactor function. C4BP is a high molecular weight multimeric protein with a unique octopus-like structure. It is composed of seven identical alpha-chains and one beta-chain. The alpha- and beta-chains are linked by disulphide bridges. The cDNA cloning of the beta-chain showed the alpha- and beta-chains to be homologous and of common evolutionary origin. Both subunits are composed of multiple 60 amino acid long repeats (short complement or consensus repeats, SCR) and their genes are located in close proximity on chromosome 1, band 1q32. Available experimental data suggest the beta-chain to contain the single protein S binding site on C4BP, whereas each of the alpha-chains contains a binding site for the
complement protein
, C4b. As C4BP lacking the beta-chain is unable to bind protein S, the beta-chain is required for protein S binding, but not for the assembly of the alpha-chains during biosynthesis.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Protein S and C4b-binding protein: components involved in the regulation of the protein C anticoagulant system. 183 51
Vitamin K-dependent protein S exists in two forms in plasma, as free protein and in a bimolecular, noncovalent complex with the regulatory
complement protein
C4b-binding protein (C4BP). The effects of C4BP on the
protein Ca
cofactor activity of protein S were studied in a plasma system and in a system using purified components from both human and bovine origin. Bovine protein S was found to interact with human C4BP with a 5-fold higher affinity than that observed for the interaction between human protein S and human C4BP. The binding of protein S, from either species, to human C4BP results in the loss of the
protein Ca
cofactor function. In bovine plasma, protein S could be totally complexed by the addition of human C4BP, with a concomitant total loss of
protein Ca
cofactor activity. The addition of purified human C4BP to human plasma resulted in only partial loss of
protein Ca
cofactor activity and the plasma protein S was not completely complexed. Human protein S functioned as a cofactor to human
protein Ca
, but not to bovine
protein Ca
, whereas bovine protein S demonstrated very little species specificity and functioned as a cofactor both with human and bovine
protein Ca
. The species specificity of the
protein Ca
-protein S interaction was useful in elucidating the effect of C4BP in the plasma system. In the system with purified bovine components, protein S was required for the degradation of factor Va by low concentrations of
protein Ca
, whereas in the system with human components
protein Ca
alone, even when added at very low concentrations, exhibited potential to degrade factor Va, and the presence of protein S only enhanced the reaction rate approximately 5-fold. In both these systems, the stimulating effect of protein S on factor Va degradation by
protein Ca
was completely lost when protein S bound to C4BP.
...
PMID:Inhibition of protein Ca cofactor function of human and bovine protein S by C4b-binding protein. 294 33
The
complement protein
C4b-binding protein plays an important role in the regulation of the
protein C
anticoagulant pathway. C4b-binding protein can bind to protein S, thereby inhibiting the cofactor activity of protein S for
activated protein C
. In this report, we describe a new role for C4b-binding protein in coagulation. We observed inhibition of the intrinsic factor X activating reaction by the complex of C4b-binding protein and protein S. At the plasma concentration of protein S, the factor X activation was inhibited for 50% and addition of C4b-binding protein led to a potentiation of the inhibition to almost 90%. Because C4b-binding protein alone had no effect on the activation of factor X, we hypothesized that binding of C4b-binding protein to protein S was a prerequisite for optimal inhibition of factor X activation. C4b-binding protein lacking the beta-chain, which is unable to bind to protein S, did not potentiate the inhibitory effect of protein S. In an earlier study, we observed that C4b-binding protein increased the binding affinity of protein S for factor VIII. Therefore, a possible interaction of C4b-binding protein with factor VIII was investigated. C4b-binding protein bound to factor VIII and to thrombin activated factor VIII in a saturable and specific way. Also, factor VIII in complex with von Willebrand factor was able to bind C4b-binding protein. The beta-chain of C4b-binding protein was not required for the interaction with factor VIII because C4b-binding protein lacking the beta-chain also bound to factor VIII. Monoclonal antibodies directed against the alpha-chain of C4b-binding protein inhibited the binding to factor VIII, whereas monoclonal antibodies directed against the beta-chain had no effect on the binding to factor VIII. This finding indicates that the binding site for factor VIII on C4b-binding protein is localized on the alpha-chains of C4b-binding protein. The potentiation by C4b-binding protein of the inhibition of the factor X activation by protein S was blocked by a monoclonal antibody directed against the alpha-chain of C4b-binding protein. This finding indicates that the potentiation of the inhibitory effect of protein S was mediated via an interaction of C4b-binding protein with factor VIII. C4b-binding protein did not bind to factor V and was not able to potentiate the inhibitory effect of protein S on prothrombinase activity.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Synergistic inhibition of the intrinsic factor X activation by protein S and C4b-binding protein. 767 Jan 8
Upon local delivery, adenovirus (Ad) serotype 5 viruses use the coxsackie and Ad receptor (CAR) for cell binding and alpha(v) integrins for internalization. When administered systemically, however, their role in liver tropism is limited because CAR-permissive and mutated viruses show similar biodistribution, a finding recently attributed to blood coagulation factor (F) IX or
complement protein
C4BP binding to the adenovirus fiber and "bridging" to either low-density lipoprotein receptor-related protein or heparan sulfate proteoglycans. Here, we show that hepatocyte transduction in vitro can be enhanced by the vitamin K-dependent factors FX,
protein C
, and FVII in addition to FIX but not by prothrombin (FII), FXI, and FXII. This phenomenon was not dependent on proteolytic activation or cell signaling activity and for FX was mediated by direct virus-factor binding. Human FX substantially enhanced hepatocyte transduction by CAR-permissive and mutated viruses in an ex vivo liver perfusion model. In vivo, global down-regulation of vitamin K-dependent zymogens by warfarin significantly diminished liver uptake of CAR-deleted Ads; however, this phenomenon was fully rescued by acute infusion of human FX. Our results indicate a common and pivotal role for distinct vitamin K-dependent coagulation factors in mediating hepatocyte transduction by adenoviruses in vitro and in vivo.
...
PMID:Multiple vitamin K-dependent coagulation zymogens promote adenovirus-mediated gene delivery to hepatocytes. 1678 98
Protein S (PS) is a Vitamin K-dependent protein that functions as a cofactor for the regulation of the coagulation system. PS works in conjunction with Activated
Protein C
to inactivate factors V and VIII. PS circulates in plasma either complexed to the
complement protein
, C4b Binding Protein or unbound. The unbound (or free) component is the functional form for the regulation of the coagulation system. PS can be measured in plasma by functional activity, the free (or unbound form) or both free and bound fractions (Total PS). The test most widely used for clinical evaluations is the Free PS Antigen assay (which is the surrogate of PS anticoagulant activity) and represents the protocol described in this chapter. The Free PS Antigen assay is an immunologic assay which specifically measures the unbound fraction of PS in test plasma. Other methods for assessing PS are also available, including PS activity and total PS Antigen assays, but protocols for these assays are not provided.
...
PMID:Assessment of Hereditary Thrombophilia: Performance of Protein S (PS) Testing. 2880 26
Borrelia burgdorferi (Bb) is the causative agent of Lyme disease in the United States, a disease that can result in carditis, and chronic and debilitating arthritis and/or neurologic symptoms if left untreated. Bb survives in the midgut of the Ixodes scapularis tick, or within tissues of immunocompetent hosts. In the early stages of infection, the bacteria are present in the bloodstream where they must resist clearance by the innate immune system of the host. We have found a novel role for outer surface
protein C
(OspC) from B. burgdorferi and B. garinii in interactions with the complement component C4b and bloodstream survival in vivo. Our data show that OspC inhibits the classical and lectin complement pathways and competes with
complement protein
C2 for C4b binding. Resistance to complement is important for maintenance of the lifecycle of Bb, enabling survival of the pathogen within the host as well as in the midgut of a feeding tick when ospC expression is induced.
...
PMID:Borrelia burgdorferi outer surface protein C (OspC) binds complement component C4b and confers bloodstream survival. 3328 28
