UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Exit from mitosis in eukaryotic cells is regulated by the cyclosome (also called anaphase promoting complex or APC), a multisubunit ubiquitin ligase that acts on mitotic cyclins. Previous studies in a cell-free system from clam oocytes have shown that the activation of the cyclosome at the end of mitosis involves its phosphorylation by protein kinase Cdk1/cyclin B. Genetic and biochemical studies have furthermore indicated that cyclosome activity also requires a WD-40 repeat containing protein called Fizzy (FZY) or Cdc20. It has been suggested [Fang et al. (1998) Mol. Cell 2, 163-171] that in the presence of FZY, the phosphorylation of the cyclosome is not critical for its activation. By contrast, we find that the activity of the interphase, non-phosphorylated form of the cyclosome from clam embryos is not stimulated by FZY to a significant extent. However, when interphase cyclosome is first incubated with protein kinase Cdk1/cyclin B, the subsequent supplementation of FZY greatly stimulates its cyclin-ubiquitin ligase activity. Furthermore, phosphatase treatment of purified mitotic cyclosome prevents its stimulation by FZY, a process that can be reversed by the action of protein kinase Cdk1/cyclin B. We conclude that in the early embryonic cell cycles, the primary event in the activation of the cyclosome at the end of mitosis is its Cdk1-dependent phosphorylation and activation by FZY takes place in a subsequent process.
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PMID:Phosphorylation of the cyclosome is required for its stimulation by Fizzy/cdc20. 1038 65

Critical steps in the methodology of mutation analysis on routinely fixed, paraffin-embedded samples have been evaluated, including extraction and purification of DNA, amplification of gene fragments in various sizes, and screening for mutations. The DNA was extracted from tissue sections with proteinase K, using various procedures, and purified. The mutation cluster region of the APC gene was amplified with polymerase chain reaction to generate either two large or four small overlapping DNA fragments. The GC-clamped fragments were screened for mutations with temperature gradient gel electrophoresis, and mutations were identified with sequencing. The DNA was easily amplified as large fragments from fresh or unfixed-frozen samples. However, DNA amplification of large fragments from archival samples was successful in only 40 of the 114 tumor specimens analyzed (35%). Prolonged extraction, either at 55 degrees C or at 37 degrees C, gave no better results. Polymerase chain reaction of smaller fragments, with sizes between 200 and 270 base pairs (bp), was successful for 97% of the amplification reactions when using DNA that was purified with silica. Screening with temperature gradient gel electrophoresis was reproducible and sensitive with a detection limit of 5% mutated DNA in the presence of an excess of wild-type DNA.
Diagn Mol Pathol 1999 Mar
PMID:Optimizing the APC gene mutation analysis in archival colorectal tumor tissue. 1040 88

FVIII is synthesized as a single chain precursor of approximately 280 kD with the domain structure of A1-A2-B-A3-C1-C2 and it circulates as a series of metal ion-linked heterodimers that result from cleavages at B-A3 junction as well as additional cleavages within B domain. Factor VIII is converted to its active form, factor VIIIa, upon proteolytic cleavages by thrombin and is a heterotrimer composed of the A1, A2, and A3-C1-C2 subunits. A1 subunits of factor VIIIa terminates with 36 residue segment (Met337-Arg372) rich in acidic residues. This segment is removed after cleavages at Arg336 by activated protein C, which results in inactivation of the cofactor. In the present study, site-directed mutagenesis of FVIII at Arg336 to Gln336 was performed in order to produce an inactivation resistant mutant rFVIII (rFVIIIm) with an extended physiological stability. A recombinant mutant heavy chain of FVIII (rFVIII-Hm; Arg336 to Gln336) and wild-type light chain of FVIII (rFVIII-L) were expressed in Baculovirus-insect cell (Sf9) system, and a biologically active recombinant mutant FVIII (rFVIIIm) was reconstituted from rFVIII-Hm and rFVIII-L in the FVIII-depleted human plasma containing 40 mM CaCl2. The rFVIIIm exhibited cofactor activity of FVIIIa (2.85 x 10(-2) units/mg protein) that sustained the high level activity during in vitro incubation at 37 degrees C for 24 h, while the cofactor activity of normal plasma was declined steadily for the period. These results indicate that rFVIIIm (Arg336 to Gln336) expressed in Baculovirus-insect cell system is inactivation resistant in the plasma coagulation milieu and may be useful for the treatment of hemophilia A.
Exp Mol Med 1999 Jun 30
PMID:Synthesis of recombinant blood coagulation factor VIII (FVIII) heavy and light chains and reconstitution of active form of FVIII. 1041 Mar 9

This study evaluated the potential contribution of the APC gene to malignant transformation in patients with renal cell carcinoma. We tested 36 human renal cell carcinoma samples and 18 adjacent normal kidney tissues for the expression of APC protein, both wild and truncated types, by western blot using antibodies that recognize either the carboxy or the amino epitope of the APC protein. The same tumor samples together with autologous peripheral blood were also analyzed at the DNA level. Using specific oligonucleotide primers for exons 11 and 15, gene instability was followed by polymerase chain reaction/loss of heterozygosity (LOH) (on the basis of restriction fragment length polymorphism). Molecular data were also compared to pathohistological diagnosis, TNM stage, and patient's age using multivariate statistical methods. All normal renal tissues revealed expression of the wild-type APC protein. Neither wild nor mutant type proteins were found in 36% (13/36) of tumor samples; the rest of tumor tissues expressed the wild-type protein (312 kDa). Mutated APC protein, with a molecular weight of 117 kDa, was found in only one tumor sample. From 36 tumor samples 16 (44.4%) were informative for RsaI exon 11 polymorphic site, while only half of these (8/16) demonstrated LOH. From 13 tumor samples that had no detectable protein product by western blot analysis eight were homozygous for the exon 11 polymorphism and were tested for another polymorphic site, MspI/exon 15. The overall proportion of LOH cases for both polymorphisms tested was 52.9% (9/17). Pathohistological diagnosis and molecular data showed no correlation. However, multivariate analysis determined a stage strong positive correlation of age and TNM with the presence of LOH and the absence of the wild-type APC protein. Out results suggest that the APC tumor suppressor gene plays a role in renal carcinogenesis. Alterations in this gene are responsible for tumor evolution and progression, but cannot be considered as a first event in tumor initiation.
J Mol Med (Berl) 1999 May
PMID:Loss of heterozygosity and protein expression of APC gene in renal cell carcinomas. 1042 94

Background: Resistance to activated protein C(APC) is the most prevalent identifiable risk factor for inherited thrombophilia. Over 90% of APC resistance results from a single point mutation in the Factor V gene. The mutation, termed FV R506Q of FV Leiden, predicts an abnormal Factor Va protein in which arginine, at amino acid position 506, is replaced by glutamine, rendering Factor Va resistant to proteolytic inactivation by APC, thus establishing a life long hypercoagulable state. The current study compared three different polymerase chain reaction (PCR)-based approaches for the detection of FV R506Q. Methods and Results: Sixty-seven patient blood samples were genotyped by (1) analyzing for loss of a Mnl I recognition site, an acquired restriction-fragment-length polymorphism (RFLP) due to FV R506Q; (2) primer-engineered RFLP wherein the presence of FV R506Q results in generation of a novel Nla III recognition site; and (3) allele-specific PCR. Sixty-five of 67 patient samples yielded concordant genotype results by all three PCR methods. Of the remaining 2 of the 67 patients, a "nondiagnostic" result was obtained for either allele-specific PCR or primer-engineered RFLP. Conclusions: A comparative analysis of 67 patient samples demonstrated that primer engineered RFLP and allele-specific PCR offer feasible alternative or confirmatory testing approaches to Mnl I RFLP for the detection of FV R506Q. A high degree of diagnostic concordance was observed for all three methods, and no false positive or negative results were observed with the Mnl I RFLP technique.
Mol Diagn 1996 Dec
PMID:Resistance to Activated Protein C: Comparison of Three Different PCR Methods for Detection FV R506Q. 1046 76

Background: Elevated levels of homocysteine are an independent risk factor for venous thrombosis. A common mutation in methylenetetrahydrofolate reductase (MTHFR), an enzyme required for efficient homocysteine metabolism, creates a thermolabile (tl-) enzyme with reduced activity that may predispose to hyperhomocysteinemia. Methods and Results: To assess whether this common mutation is a risk factor venous thromboembolism, a polymerase chain reaction-based genotyping assay was used to compare the prevalence of this mutation in a group with thrombosis versus several control groups. Of the 331 thrombosis subjects, 47% were heterozygous and 11% homozygous for tl-MTHFR. In comparison, heterozygotes constituted 42-47% and homozygous 15-16% of each of three control groups (totaling 593 subjects). There was no significant difference in the tl-MTHFR homozygote frequency or allele frequency between the thrombosis and control study groups. Although the prevalence of the factor V R506Q (Leiden) mutation causing activated protein C resistance was significantly higher in the thrombosis (19%) than in the control groups (4-9%), the concomitant presence of tl-MTHFR with factor V R506Q did not contribute to any excess thrombotic risk. Conclusions: Although the tl-MTHFR mutation may predispose to hyperhomocysteinemia, a known risk factor for venous thrombosis, this common genotype is not a direct genetic risk factor for venous thrombosis, either alone or in combination with the factor V R506Q mutation.
Mol Diagn 1997 Mar
PMID:Risk of Venous Thrombosis in Carriers of a Common Mutation in the Homocysteine Regulatory Enzyme Methylenetetrahydrofolate Reductase. 1046 93

In Wnt signaling, beta-catenin and plakoglobin transduce signals to the nucleus through interactions with TCF-type transcription factors. However, when plakoglobin is artificially engineered to restrict it to the cytoplasm by fusion with the transmembrane domain of connexin (cnxPg), it efficiently induces a Wnt-like axis duplication phenotype in Xenopus. In Xenopus embryos, maternal XTCF3 normally represses ventral expression of the dorsalizing gene Siamois. Two models have been proposed to explain the Wnt-like activity of cnxPg: 1) that cnxPg inhibits the machinery involved in the turnover of cytosolic beta-catenin, which then accumulates and inhibits maternal XTCF3, and 2) that cnxPg directly acts to inhibit XTCF3 activity. To distinguish between these models, we created a series of N-terminal deletion mutations of cnxPg and examined their ability to induce an ectopic axis in Xenopus, activate a TCF-responsive reporter (OT), stabilize beta-catenin, and colocalize with components of the Wnt signaling pathway. cnxPg does not colocalize with the Wnt pathway component Dishevelled, but it does lead to the redistribution of APC and Axin, two proteins involved in the regulation of beta-catenin turnover. Expression of cnxPg increases levels of cytosolic beta-catenin; however, this effect does not completely explain its signaling activity. Although cnxPg and Wnt-1 stabilize beta-catenin to similar extents, cnxPg activates OT to 10- to 20-fold higher levels than Wnt-1. Moreover, although LEF1 and TCF4 synergize with beta-catenin and plakoglobin to activate OT, both suppress the signaling activity of cnxPg. In contrast, XTCF3 suppresses the signaling activity of both beta-catenin and cnxPg. Both exogenous XLEF1 and XTCF3 are sequestered in the cytoplasm of Xenopus cells by cnxPg. Based on these data, we conclude that, in addition to its effects on beta-catenin, cnxPg interacts with other components of the Wnt pathway, perhaps TCFs, and that these interactions contribute to its signaling activity.
Mol Biol Cell 1999 Oct
PMID:Membrane-anchored plakoglobins have multiple mechanisms of action in Wnt signaling. 1051 57

Calcium-binding epidermal growth factor (EGF)-like modules are found in numerous extracellular and membrane proteins involved in such diverse processes as blood coagulation, lipoprotein metabolism, determination of cell fate, and cell adhesion. Vitamin K-dependent protein S, a cofactor of the anticoagulant enzyme activated protein C, has four EGF-like modules in tandem with the three C-terminal modules each harbouring a Ca(2+)-binding consensus sequence. Recombinant fragments containing EGF modules 1-4 and 2-4 have two Ca(2+)-binding sites with dissociation constants ranging from 10(-8) to 10(-5) M. Module-module interactions that greatly influence the Ca(2+) affinity of individual modules have been identified. As a step towards an analysis of the structural basis of the high Ca(2+) affinity, we expressed the Ca(2+)-binding EGF pair 3-4 from human protein S. Correct folding was shown by (1)H NMR spectroscopy. Calcium-binding properties of the C-terminal module were determined by titration with chromophoric chelators; binding to the low-affinity N-terminal site was monitored by (1)H-(15)N NMR spectroscopy. At physiological pH and ionic strength, the dissociation constants for Ca(2+) binding were 1.0x10(-6) M and 4. 8x10(-3) M for modules 4 and 3, respectively, i.e. the calcium affinity of the C-terminal site was about 5000-fold higher than that of the N-terminal site. Moreover, the Ca(2+) affinity of EGF 4, in the pair 3-4, was about 9000-fold higher than that of synthetic EGF 4. The EGF modules in protein S are known to mediate the interaction with factor Xa. We have now found modules 3-4 to be involved in this interaction. However, the individual modules 3 and 4 manifested no measurable activity.
J Mol Biol 1999 Oct 29
PMID:EGF-like module pair 3-4 in vitamin K-dependent protein S: modulation of calcium affinity of module 4 by module 3, and interaction with factor X. 1054 57

The ubiquitin-dependent proteolysis of mitotic cyclin B, which is catalyzed by the anaphase-promoting complex/cyclosome (APC/C) and ubiquitin-conjugating enzyme H10 (UbcH10), begins around the time of the metaphase-anaphase transition and continues through G1 phase of the next cell cycle. We have used cell-free systems from mammalian somatic cells collected at different cell cycle stages (G0, G1, S, G2, and M) to investigate the regulated degradation of four targets of the mitotic destruction machinery: cyclins A and B, geminin H (an inhibitor of S phase identified in Xenopus), and Cut2p (an inhibitor of anaphase onset identified in fission yeast). All four are degraded by G1 extracts but not by extracts of S phase cells. Maintenance of destruction during G1 requires the activity of a PP2A-like phosphatase. Destruction of each target is dependent on the presence of an N-terminal destruction box motif, is accelerated by additional wild-type UbcH10 and is blocked by dominant negative UbcH10. Destruction of each is terminated by a dominant activity that appears in nuclei near the start of S phase. Previous work indicates that the APC/C-dependent destruction of anaphase inhibitors is activated after chromosome alignment at the metaphase plate. In support of this, we show that addition of dominant negative UbcH10 to G1 extracts blocks destruction of the yeast anaphase inhibitor Cut2p in vitro, and injection of dominant negative UbcH10 blocks anaphase onset in vivo. Finally, we report that injection of dominant negative Ubc3/Cdc34, whose role in G1-S control is well established and has been implicated in kinetochore function during mitosis in yeast, dramatically interferes with congression of chromosomes to the metaphase plate. These results demonstrate that the regulated ubiquitination and destruction of critical mitotic proteins is highly conserved from yeast to humans.
Mol Biol Cell 1999 Nov
PMID:Cell cycle-regulated proteolysis of mitotic target proteins. 1056 81

The zebrafish (Danio rerio) is a unique animal model in which saturation mutagenesis has been used to identify genes involved in vertebrate development. The relevance of the zebrafish as a genetic model for hemostasis depends, in large part, on the degree of similarity between the zebrafish and mammalian systems. The diminutive size of the zebrafish poses technical problems for analysis of coagulation. This study describes methods to obtain citrated whole blood and plasma from the zebrafish, analyze in vitro coagulation in small plasma volumes, obtain uniform dosing of zebrafish with oral anticoagulants, and demonstrate specific factor activities via chromogenic assays. Analysis of the zebrafish system demonstrates the presence of both the intrinsic and extrinsic pathways of coagulation, evidence for prothrombin, factor X, protein C, antithrombin, and heparin cofactor II activity, and a requirement for vitamin K dependent gamma-carboxylation of zebrafish hemostatic proteins. Induction of a morphologically recognizable bleeding phenotype by warfarin treatment is also demonstrated. Characterization of zebrafish coagulation provides evidence that major hemostatic pathways are conserved between zebrafish and man. These similarities indicate that the zebrafish is a relevant genetic model for identification of novel genes involved in hemostasis and thrombosis.
Blood Cells Mol Dis
PMID:Analysis of blood coagulation in the zebrafish. 1057 49

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