Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:3.5.1.52 (
PNGase F
)
1,527
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We recently developed an enzyme-linked immunosorbent assay (ELISA) for total protein S (PS) antigen using the monoclonal antibody S-12. During the screening of thrombophilic patients we identified a patient, who was using marcoumar, with 0% PS by monoclonal ELISA and 23% PS by polyclonal ELISA. Further analysis of this patient and his family showed that the patient was a compound heterozygote for type 1 PS deficiency and for an abnormal PS molecule (PS-Heerlen) that was not recognized by the S-12 antibody. Similar observations were made in two sisters from an unrelated Dutch family. Subsequent studies showed that PS Heerlen has a slightly lower molecular weight (71,000) than normal PS (73,000), binds normally to C4b-binding protein, and retains full
activated protein C
cofactor activity. The alteration in the PS Heerlen molecule was identified as a substitution of Ser460 by Pro, which is due to a unique T---C transition in exon 13 of the active PS-alpha gene. The substitution occurs in the consensus sequence for the potential N-linked glycosylation of Asn458. Digestion with
N-glycanase
showed that normal PS probably contains three N-linked oligosaccharide side chains, while PS Heerlen contains only two (Asn458 not glycosylated?). Segregation analysis in the two original families showed that the presence of the genetic abnormality was always associated with the PS-Heerlen phenotype. The frequency of the PS-Heerlen allele was found to be 0.52% in the general population and 0.67% in a population of patients with unexplained thrombophilia. There is no evidence that the PS Heerlen allele is associated with an increased risk for thrombosis.
...
PMID:Heerlen polymorphism of protein S, an immunologic polymorphism due to dimorphism of residue 460. 214 91
Bovine plasma protein C inhibitor was purified; it was then characterized in comparison with human protein C inhibitor. The specific inhibitory activity of the purified inhibitor for bovine
activated protein C
was 8,500 times that of the inhibitor in plasma. The purified inhibitor showed a single band with Mr 56,000 by SDS-PAGE at pH 7.0, and two bands at pH 8.8, a major one with Mr 56,000 and a minor one with Mr 105,000, under both unreduced and reduced conditions. The pI range of the inhibitor was between 4.4 and 6.1. The Mr of the inhibitor was reduced by treatment with neuraminidase, O-glycanase, and also with
glycopeptidase
-A, suggesting that the inhibitor has both Asn-linked and Ser/Thr-linked carbohydrate chains. Twenty-seven of the NH2-terminal 49 amino acid residues of the bovine inhibitor, which lacks the first 4 residues from the NH2-terminal amino acid sequence of human inhibitor, were identical to those of the human inhibitor. The bovine inhibitor inhibited bovine and human
activated protein C
, human thrombin, Factor Xa, Factor XIa, and plasma kallikrein with Ki = 1.0, 5.2, 2.6, 3.0, 1.3 X 10(-8) M, and 4.5 X 10(-9) M, respectively. The inhibitory rates for
activated protein C
and thrombin were accelerated significantly in the presence of heparin or negatively charged dextran sulfate. However, the acceleration by heparin or dextran sulfate for the inhibition of Factor Xa, Factor XIa, and plasma kallikrein was not significant. The bovine inhibitor did not inhibit human Factor XIIa or plasmin.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Bovine plasma protein C inhibitor with structural and functional homologous properties to human plasma protein C inhibitor. 216 Apr 49
To investigate fetal development of
protein C
, a pregnant ovine model was used.
Protein C
was isolated from ovine plasma, and a polyclonal antibody was raised. Citrated plasma was obtained from undisturbed chronically catheterized fetal lambs. On Western blot, nonreduced adult ovine
protein C
had a molecular mass of 70 kD. Fetal ovine
protein C
was determined to have a molecular mass of 4 to 6 kD larger than the adult molecule. Crossed immunoelectrophoresis demonstrated slightly increased anodal migration of the fetal form. Isoelectric focusing demonstrated a decreased pI of the fetal molecule (4.45 versus 4.6). The ovine
protein C
molecules were deglycosylated with
N-glycanase
. Deglycosylated fetal
protein C
migrated more similarly to the adult form, although a portion of the fetal form persisted. These experiments demonstrate the first example of a unique fetal form of a vitamin K-dependent protein and are compatible with increased glycosylation of fetal ovine
protein C
. It is speculated that altered posttranslational processing may exist as a general process by which certain coagulation proteins are modified during fetal development. mRNA was isolated from maternal and fetal hepatic tissue and analyzed by Northern hybridization. Fetal plasma concentration and hepatic mRNA for
protein C
were both 40% of normal maternal values from midgestation onward. At term,
protein C
mRNA increased to adult range (p < 0.025), although plasma protein C concentration decreased slightly (p < 0.001). A transition from fetal to adult
protein C
form was found beginning 6 d before term birth, with a doubling time of 24 h. These data are compatible with a gestationally determined maturation of ovine
protein C
.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Identification of a unique form of protein C in the ovine fetus: developmentally linked transition to the adult form. 778 46
Recombinant human
Protein C
(rHPC), expressed in human kidney 293 cells, has a higher anticoagulant activity than plasma HPC, while its in vivo circulatory half-life is essentially unaltered compared to that of the natural protein. In seeking to elucidate the molecular basis for the improved efficacy of the recombinant antithrombotic drug, we focused on the carbohydrate moiety of rHPC.
Protein C
is a heavily post-translationally modified serine protease with four N-glycosylation sites. Glycosyl composition analysis of rHPC revealed a 5-fold higher fucose content and a 2-fold lower sialic acid content compared to plasma HPC. In addition, we found that rHPC contains N-acetylgalactosamine (2.6 mol GalNAc/mol rHPC) in its Asn-linked oligosaccharides, while plasma HPC is devoid of GalNAc. The Asn-linked oligosaccharides of rHPC were released by
N-glycanase
and separated into 25 fractions by high-pH anion-exchange chromatography. The most abundant oligosaccharides were structurally characterized by glycosyl composition and linkage analysis, in conjunction with 1H-NMR spectroscopy at 600 MHz. The structure of the major neutral oligosaccharide in rHPC was determined to be: [formula: see text] Two representatives of the sialylated oligosaccharides in rHPC are: [formula: see text] and [formula: see text] Thus, many of the Asn-linked oligosaccharides in rHPC were found to terminate in GalNAc beta (1-->4)GlcNAc beta (1-->.), in NeuAc alpha (2-->6)GalNAc beta (1-->4)GlcNAc beta (1-->.), and/or in GalNAc beta (1-->4)[Fuc alpha (1-->3)]GlcNAc beta (1-->.). Since the latter trisaccharide was first [Yan, S.B., Chao, B.Y. and Van Halbeek,H. (1992) J. Cell. Biochem., 16D, 151] observed in the Asn-linked oligosaccharides of rHPC derived from human kidney 293 cells, we propose to label the GalNAc beta-(1-->4)[Fuc alpha (1-->3)]GlcNAc beta (1-->.) terminal trisaccharide the PC-293 determinant. The PC-293-containing oligosaccharides may contribute to the higher anticoagulant activity of rHPC as compared to plasma HPC.
...
PMID:Novel Asn-linked oligosaccharides terminating in GalNAc beta (1-->4)[Fuc alpha (1-->3)]GlcNAc beta (1-->.) are present in recombinant human protein C expressed in human kidney 293 cells. 813 Mar 92
An important risk factor for thrombosis is the polymorphism R506Q in factor V that causes resistance of factor Va to proteolytic inactivation by
activated protein C
(
APC
). To study the potential influence of the carbohydrate moieties of factor Va on its inactivation by
APC
, factor V was subjected to mild deglycosylation (neuraminidase plus
N-glycanase
) under nondenaturing conditions. The
APC
resistance ratio values (ratio of activated partial thromboplastin time [APTT] clotting times with and without
APC
) of the treated factor V were increased (2.4 to 3.4) as measured in APTT assays. O-glycanase treatment of factor V did not change the
APC
resistance ratio. The procoagulant activity of factor V as well as its activation by thrombin was not affected by mild deglycosylation. Treatment of factor V with neuraminidase and
N-glycanase
mainly altered the electrophoretic mobility of the factor Va heavy chain, whereas treatment with O-glycanase changed the mobility of the connecting region. This suggests that the removal of the N-linked carbohydrates from the heavy chain of factor Va, which is the substrate for
APC
, is responsible for the increase in susceptibility to inactivation by
APC
. Thus, variability in carbohydrate could account for some of the known variability in
APC
resistance ratios, including the presence of borderline or low
APC
resistance ratios among patients who lack the R506Q mutation.
...
PMID:The carbohydrate moiety of factor V modulates inactivation by activated protein C. 919 57
Human protein S (HPS) has three potential N-linked glycosylation sites at Asn458, 468, 489. To study the role of glycosylation at these sites, PCR mutagenesis was used to abolish the consensus sequence of each N-linked glycosylation site (Asn458-->Gln, Ser460-->Gly; Asn468-->Gln, Thr470-->Gly; Asn489-->Gln, Thr491-->Gly) in full-length HPS cDNA. Each resulting construct was expressed in human kidney 293 cells by stable transfection of cDNA/SV40/adeno/pBR322-derived expression vectors, and conditioned medium was collected for recombinant protein purification. SDS-PAGE gels revealed that glycosylation mutants migrate identically and faster than the wild-type rHPS, showing that each of the three potential N-glycosylation sites contain a similar amount of carbohydrate. Mass spectral analysis yielded similar results and a molecular mass of approximately 78,000 for wild-type HPS. To demonstrate that the difference in mobility between wild-type and mutant protein S is due to their carbohydrate content, plasma-derived HPS and recombinant HPS were subjected to
N-glycanase
digestion and subsequently shown to migrate identically on SDS-PAGE gels. All forms of HPS have similar time courses for cleavage by alpha-thrombin. Functional studies indicate that wild-type rHPS possesses the same cofactor specific activity as plasma-derived HPS, as tested by a standard clotting assay. Asn458 and Ser460 mutant rHPS have only a slightly higher cofactor activity, whereas the other four mutants have similar clotting activities, compared to wild-type rHPS. In a purified component system, glycosylation mutants of protein S showed a slightly enhanced ability to stimulate
APC
-mediated factor Va inactivation after an initial lag phase. The interaction of rHPS glycosylation mutants with human C4b-binding protein (C4bp) was also studied by solution phase equilibrium binding assay. Two mutants (Asn458, Ser480) have marginally lower dissociated constants (Kd) with C4bp, whereas the others have the same apparent Kd as wild-type rHPS.
...
PMID:The effect of N-linked glycosylation on molecular weight, thrombin cleavage, and functional activity of human protein S. 924 50
Factor V (FV) is a single-chain plasma protein containing 13-25% carbohydrate by mass. Studies were done to determine if these carbohydrate moieties altered the
activated protein C
(
APC
)-catalyzed cleavage and inactivation of both FV and the cofactor which results from its activation by alpha-thrombin, factor Va(IIa) (FVa(IIa)). Treatment of purified FV with
N-glycanase
and neuraminidase under nonprotein-denaturing conditions removed approximately 20-30% of the carbohydrate from the heavy chain region of the molecule. When glycosidase-treated FV was analyzed in an aPTT (activated partial thromboplastin time)-based
APC
sensitivity assay, the
APC
sensitivity ratio (APC-SR) increased from 2.34 to 3.33. In contrast, when glycosidase-treated FV was activated with alpha-thrombin, the addition of the resulting FVa(IIa) to the plasma-based
APC
sensitivity assay produced no substantial increase in the
APC
-SR. Additional functional analyses of the
APC
-catalyzed inactivation of FVa(IIa) in an assay consisting of purified components indicated that both glycosidase-treated and untreated FVa(IIa) expressed identical cofactor activities and were inactivated at identical rates. Analyses of the
APC
-catalyzed cleavage of glycosidase-treated FV at Arg(306), the initial cleavage site, revealed a 10-fold rate increase when compared to untreated FV. In contrast, and consistent with functional assays, similar analyses of FVa(IIa), derived from those FV species, revealed near-identical rates of
APC
-catalyzed cleavage at both the Arg(506) and Arg(306)sites. These combined results indicate that N-linked carbohydrate moieties play a substantial role in the
APC
-catalyzed cleavage and inactivation of FV but not FVa(IIa) at position Arg(306) and that the Arg(306) cleavage sites of FV and FVa(IIa) are distinct substrates for
APC
.
...
PMID:Carbohydrate moieties on the procofactor factor V, but not the derived cofactor factor Va, regulate its inactivation by activated protein C. 1181 62
BJ-48, a serine protease from the venom of Bothrops jararacussu, was purified to homogeneity using affinity chromatography on p-aminobenzamidine-agarose followed by HPLC gel filtration. BJ-48 presented 52kDa by SDS-PAGE analysis and 48,036Da by electron spray mass spectrometry. The enzyme was shown to be highly glycosylated with 42% of N-linked carbohydrates composed of Fuc(1):GalN(4):GlcN(5):Gal(1):Man(2) and a high content of sialic acid residues (8-12%). BJ-48 had optimal esterase activity at pH 7.5 and displayed maximum catalytic rate at 50 degrees C. Its hydrolytic activity was strongly inhibited by aprotinin and dithiothreitol while N-tosyl-l-phenylalanine chloromethyl ketone, 6-aminocaproic acid, E-64 and soybean trypsin inhibitor (SBTI) were ineffective. The kinetics of BJ-48 with chromogenic substrates revealed an unprecedented selectivity (10(4)-fold) for Arg over Lys in P1. BJ-48 proved to be a thrombin-like enzyme (TLE) with a specific fibrinogen-clotting activity of 73.4NIH units/mg. The TLE rapidly digested human fibrinogen Bbeta chain, but the Aalpha chain was cleaved specifically to release fibrinopeptide A with k(cat)/K(m)=2.1 microM(-1)s(-1). The TLE showed no activity toward other thrombin substrates like
protein C
, protease-activated receptor-1 or inhibitors such as hirudin and antithrombin. A non-denaturing procedure using
PNGase F
and neuraminidase followed by hydrophobic interaction chromatography was employed to obtain active BJ-48 forms with variable carbohydrate content. Compared to the native enzyme, total or partially deglycosylated BJ-48 forms presented up to 2-fold reduction in their specific activities upon heating at 55/65 degrees C or treatment with SBTI. These results point out a role for BJ-48 glycosylation in thermostability and controlling the access of some canonical protein inhibitors to the active site.
...
PMID:BJ-48, a novel thrombin-like enzyme from the Bothrops jararacussu venom with high selectivity for Arg over Lys in P1: Role of N-glycosylation in thermostability and active site accessibility. 1743 97
