Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 role of two protein C gamma-carboxyglutamic acid domain mutations in familial thrombosis, protein CVermont (Bovill, E. G., Tomczak, J. A., Grant, B., Bhushan, F., Pillemer, E., Rainville, I.R., and Long, G. L. (1992) Blood 79, 1456-1465), was investigated. Two single mutations (Glu20-->Ala and Val34-->Met) and the naturally occurring double mutation were created by site-directed mutagenesis and were expressed in human kidney 293 cells. Purified recombinant protein C with the mutation glutamate to alanine at position 20 is defective in the assays of activated partial thromboplastin time, factor Va inactivation, and fibrinolysis. Mutation from valine to methionine at position 34 has only a minor effect. Activation of Glu20 mutants by thrombin-thrombomodulin was not enhanced by phospholipid vesicles and showed a different calcium dependence compared with the wild type, suggesting that Gla20 is important in the interaction of the protein C Gla domain with a phospholipid-mediated site on the thrombomodulin molecule. Glu20-substituted protein C is not inhibited by calcium ion in its interaction with the calcium-dependent monoclonal antibody H-11, suggesting that this mutation has lost the calcium-induced, lipid-independent conformational transition of the protein C Gla domain. These data indicate that the loss of Gla20 causes the major familial dysfunction of protein C to associate with phospholipid as well as to undergo Ca(2+)-dependent, lipid-independent conformational changes and are consistent with the importance of Gla20 in both external and internal Ca2+ binding based upon the x-ray-derived structure of the homologous Gla domain in bovine prothrombin.
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PMID:Molecular mechanism for familial protein C deficiency and thrombosis in protein CVermont (Glu20-->Ala and Val34-->Met). 796 68

We have examined the properties of several human protein C (HPC) derivatives with substitutions for acidic residues near the thrombin cleavage site, including changing the P3' Asp to Asn (D172N), Gly (D172G), Ala (D172A), or Lys (D172K). The rate of thrombin-catalyzed activation of D172N, D172G, and D172A was increased 4-9-fold compared to wild-type HPC, primarily due to a reduction in the inhibitory effect of calcium and a resulting increase in affinity for free alpha-thrombin. There was no significant increase in activation rate or affinity with these 3 derivatives in the absence of calcium, confirming that P3' Asp affects calcium dependency in the native protein C molecule. With charge reversal at P3' (D172K), there was a 30-fold increase in activation rate in the presence of calcium, but unlike the other derivatives, there was a substantial effect (5-fold) on the activation rate and affinity for free alpha-thrombin in the absence of calcium. Thus, protein C affinity for thrombin appears to be influenced by a combination of calcium-dependent and -independent effects of the acidic P3' residue.
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PMID:Charge reversal at the P3' position in protein C optimally enhances thrombin affinity and activation rate. 800 90

Proteoglycans play pivotal roles in the regulation of thrombin. Thrombomodulin (TM) binds thrombin through protein-protein contacts and a chondroitin sulfate moiety. The complex activates the anticoagulant zymogen, protein C. Thrombin and a thrombin mutant with Arg93, Arg97, and Arg101 changed to Ala bind soluble TM lacking the chondroitin sulfate with comparable affinities, but the mutant binds TM containing chondroitin sulfate 45-fold weaker than thrombin. A simple hyperbolic relationship describes the Ca2+ dependence of protein C activation with the thrombin mutant-TM complex whether or not the TM contains chondroitin sulfate. A similar Ca2+ dependence is observed with wild type thrombin only when the TM contains chondroitin sulfate. Thus, charge neutralization of Arg93, Arg97, and Arg101 mimics the functional effects of the chondroitin sulfate. The mutant and wild type thrombin are inhibited at comparable rates by antithrombin +/- the pentasaccharide capable of inducing the "active" antithrombin conformation, but heparin acceleration of antithrombin inhibition of the mutant is reduced by more than 95%. Binding studies revealed that the mutant has a > or = 20-fold decrease in heparin affinity. We conclude that heparin and chondroitin sulfate interact with one or more of these Arg residues. These basic residues appear to play a critical role in the regulation of thrombin activity.
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PMID:Glycosaminoglycan contributions to both protein C activation and thrombin inhibition involve a common arginine-rich site in thrombin that includes residues arginine 93, 97, and 101. 802 55

Clinical manifestations of arterial and venous thrombosis in a family with protein C deficiency was associated with two mutations in the light chain of protein C: Glu20-->Ala and Val34-->Met. Further studies showed that the mutation Glu20-->Ala which eliminated a gamma-carboxylation site was exclusively responsible for the anticoagulant defect of activated protein C (APC). Membrane-bound human factor Va is inactivated by APC after two sequential cleavages of the heavy chain at Arg506 and Arg306. Human factor Va inactivation by human recombinant APC (rAPC) and a mutant molecule with an alanine instead of a glutamic acid at position 20 (rAPC(gamma 20A)) was investigated in the presence and absence of phospholipid vesicles. During a 2-hour incubation period of the cofactor with either rAPC or rAPC(gamma 20A). In the absence of a membrane surface, factor Va is cleaved quantitatively at Arg506 and retains approximately 60% of its initial cofactor activity. After a 2-hour incubation period with rAPC membrane-bound factor Va has no cofactor activity, whereas in the presence of a membrane surface and rAPC(gamma 20A) factor Va retains 60% of its initial cofactor activity. The completed loss in factor Va cofactor activity upon incubation of the membrane-bound cofactor with phospholipid vesicles and rAPC is associated with cleavages at Arg506 and Arg306, whereas membrane-bound factor Va cleavage at Arg306 by rAPC(gamma 20A) is impaired, resulting in a cofactor that is cleaved at Arg506. Slow cleavage at Arg306 occurs when membrane-bound factor Va is incubated with rAPC(gamma 20A) and only small amounts of fragments of M(r) = 45,000 and 30,000 are noticed. Our data show that the genetic defect which leads to the absence of a gamma-carboxylation site at Glu20 impairs membrane binding of human APC, which in turn is required for cleavage of factor Va at Arg306 and inactivation of the cofactor. The consequence of impaired membrane-dependent cleavage at Arg306 is manifested in vivo by venous and arterial thrombosis.
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PMID:Loss of membrane-dependent factor Va cleavage: a mechanistic interpretation of the pathology of protein CVermont. 804 58

Mutation of the p53 gene is thought to be a late event in human colorectal carcinogenesis, involved in the malignant conversion of the adenoma to the carcinoma. One of the questions that we hoped to address was whether, in vivo, a single mutational event in one p53 gene is sufficient to confer a significant growth advantage on a colonic epithelial cell. Such a growth advantage could result either from an increase in growth rate and/or loss of response to inhibitory growth signals naturally present in the colonic crypt. We therefore introduced the pC53-SCX3 143 (Val-Ala) p53 mutation into a non tumorigenic adenoma derived cell line, AA/C1, which contained a truncating APC mutation, activating K-ras mutation but was wild-type for the p53 protein. High levels of mutant p53 protein were detected in the pC53-SCX3 transfected AA/C1 cell lines but was found not to affect either the in vitro (colony forming efficiency, anchorage independence) or in vivo (tumorigenicity in nude mice) growth, when compared to vector control or the parental AA/C1 cell line. In addition, to test whether the cells become less sensitive to inhibitory growth factors, the response of the cell lines to the naturally occurring growth inhibitor TGF beta was also investigated. Even though TGF beta had previously been implicated in the control of growth of intestinal epithelium, expression of the mutant p53 protein did not affect the sensitivity of the parental AA/C1 cell line to TGF beta. Under the experimental conditions tested expression of the 143 (Val-Ala) p53 protein was unable to affect the in vitro or in vivo growth characteristics of the adenoma derived AA/C1 cell line. When compared to other studies, these results suggest that the genetic background of the individual recipient cell may greatly influence the effect of expression of a particular p53 mutation.
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PMID:Transfection and expression of mutant p53 protein does not alter the in vivo or in vitro growth characteristics of the AA/C1 human adenoma derived cell line, including sensitivity to transforming growth factor-beta 1. 815 11

The endothelial surface plays an important role in the pathogenesis of atherosclerosis and the regulation of coagulation. It has become increasingly clear that while perturbed endothelial cells generate procoagulant activity, under normal conditions they possess multiple antithrombotic and anticoagulant mechanisms, including generation of prostacyclin and plasminogen activators and synthesis of thrombomodulin as a cell surface cofactor for thrombin-catalyzed activation of protein C. In addition, anticoagulantly active heparan sulfate proteoglycans, including heparin-like molecules are apparently present on the vascular surface. Previous studies showed that homocysteine, a thromboatherogenic and atherogenic agent, inhibits an endothelial thrombomodulin-protein C anticoagulant pathway. We examined whether homocysteine might affect another endothelial anticoagulant mechanism; i.e., heparin-like glycosaminoglycan-antithrombin III interactions. Incubations of cultured endothelial cells with homocysteine reduced the amount of antithrombin III bound to the cell surface in a dose- and time-dependent fashion. In contrast with a marked reduction in the maximal antithrombin III binding capacity, the radioactivity of [35S] sulfate incorporated into heparan sulfate on the cell surface was minimally reduced. Although neither net negative charge nor proportion in total glycosaminoglycans of cell surface heparan sulfate was altered by homocysteine treatment, a substantial reduction in antithrombin III binding capacity of heparan sulfate isolated from homocysteine-treated endothelial cells was found using both affinity chromatography and dot blot assay techniques. The antithrombin III binding activity of endothelial cells decreased after preincubation with homocysteine, cysteine, or 2-mercaptoethanol, containing a sulfhydryl group; no reduction in binding activity was observed after preincubation with methionine, alanine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Heparan sulfate proteoglycan of endothelial cells: homocysteine suppresses anticoagulant active heparan sulfate in cultured endothelial cells]. 817 41

Carbohydrates are T cell independent antigens because they do not bind to MHC molecules. However, glycopeptides might potentially bind to MHC molecules via their peptide component for presentation to T cells. We have conjugated the disaccharide galabiose [Gal alpha (1-4)Gal beta] to the amino terminus of a T cell peptide determinant from hen egg-white lysozyme [HEL(52-61)]. The resulting glycopeptide (Gal2-52-61) and a nonglycosylated analogue containing tyrosine and glutamic acid at the amino-terminus (YE-52-61) bound equally well to purified I-Ak. T cell hybridomas were produced after immunization with Gal2-52-61. Many of the T cell hybridomas were glycopeptide-specific and responded to Gal2-52-61 but not to nonglycosylated synthetic peptides or to HEL presented by APC, indicating that the carbohydrate moiety influenced T cell recognition. Recognition was lost with the amino terminal attachment of the disaccharide to a peptide six amino acids longer at the amino terminus than HEL(52-61). Recognition also was lost with peptides containing only a single galactosyl residue or with galabiose bound to a different I-Ak binding peptide. T cells directed to Gal2-52-61 recognized glycopeptides having significant variation in the disaccharide structure, such as HEL(52-61) glycopeptides carrying lactose, cellobiose, or hepta-o-acetylated galabiose. Peptide residues were important features of the T cell epitope; Ala substitutions of two critical T cell contact residues of HEL(52-61) (Tyr53 and Leu56) abrogated T cell reactivity to the glycopeptides without affecting binding to I-Ak. In conclusion, we propose that these T cells recognize a peptide conformation specific to glycopeptide-I-Ak complexes and that this recognition does not involve specific interaction between the carbohydrate moiety and the T cell receptor.
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PMID:Glycopeptides bind MHC molecules and elicit specific T cell responses. 836 Apr 71

Previous studies showed that homocysteine, a thrombo-atherogenic and atherogenic agent, inhibits an endothelial thrombomodulin-protein C anticoagulant pathway. We examined whether homocysteine might affect another endothelial anticoagulant mechanism; i.e., heparin-like glycosaminoglycan-antithrombin III interactions. Incubations of porcine aortic endothelial cell cultures with homocysteine reduced the amount of antithrombin III bound to the cell surface in a dose- and time-dependent fashion. The inhibitory effect was observed at a homocysteine concentration as low as 0.1 mM, and the maximal suppression occurred at 1 mM of homocysteine after 24 h. In contrast with a marked reduction in the maximal antithrombin III binding capacity (approximately 30% of control), the radioactivity of [35S]sulfate incorporated into heparan sulfate on the cell surface was minimally (< 15%) reduced. The cells remained viable after homocysteine treatment. Although neither net negative charge nor proportion in total glycosaminoglycans of cell surface heparan sulfate was altered by homocysteine treatment, a substantial reduction in antithrombin III binding capacity of heparan sulfate isolated from homocysteine-treated endothelial cells was found using both affinity chromatography and dot blot assay techniques. The antithrombin III binding activity of endothelial cells decreased after preincubation with 1 mM homocysteine, cysteine, or 2-mercaptoethanol; no reduction in binding activity was observed after preincubation with the same concentration of methionine, alanine, or valine. This sulfhydryl effect may be caused by generation of hydrogen peroxide, as incubation of catalase, but not superoxide dismutase, with homocysteine-treated endothelial cells prevented this reduction, whereas copper augmented the inhibitory effects of the metabolite. Thus, our data suggest that the inhibited expression of anticoagulant heparan sulfate may contribute to the thrombogenic property resulting from the homocysteine-induced endothelial cell perturbation, mediated by generation of hydrogen peroxide through alteration of the redox potential.
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PMID:Homocysteine, a thrombogenic agent, suppresses anticoagulant heparan sulfate expression in cultured porcine aortic endothelial cells. 837 90

Thrombomodulin (TM) is an endothelial cell surface-bound cofactor in thrombin-dependent formation of activated protein C, a potent anticoagulant. Cofactor activity has been localized to the carboxyl-terminal half of the six epidermal growth factor-like (EGF) domains of TM (TME). To identify residues in TME that are critical for activity, 77 alanine point mutants were made between Cys-333 and Cys-462 by site-directed mutagenesis (all residues except Ala, Cys, Gly, and Pro). Mutants were expressed in Escherichia coli and cofactor activity measured directly in periplasmic extracts obtained by osmotic shock. Critical residues were defined as those which when mutated had less than 25% cofactor activity of a reference TME. Western blots of non-reduced samples confirmed that alanine substitutions did not significantly decrease expression levels or result in the formation of multimers. In EGF4, which is essential for protein C activation by the thrombin-TM complex, critical residues were: Asp-349, Glu-357, Tyr-358, and Phe-376. In EGF5-EGF6, critical residues within a proposed acidic thrombin-binding region were: Glu-408, Tyr-413, Ile-414, Leu-415, Asp-416, Asp-417, Asp-423, Ile-424, Asp-425, and Glu-426. A potential Ca(2+)-binding site, which is comprised of residues Asp-423, Asp-425, Glu-426, Asn-439, Leu-440, and Phe-444, was also identified and overlaps the thrombin-binding region. Asp-461, in the C-loop of EGF6 previously shown to be critical for thrombin binding, was also critical. Asp-398, Asp-400, Asn-402, and Asn-429 in EGF5 were also critical. Thus, rapid alanine-scanning mutagenesis of TME has identified 22 critical residues in the region comprising EGF4-6, which is essential for thrombin binding and protein C activation by the thrombin-TM complex.
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PMID:Alanine-scanning mutagenesis of the epidermal growth factor-like domains of human thrombomodulin identifies critical residues for its cofactor activity. 838 15

Thrombomodulin (TM) is a cofactor for activation of protein C by thrombin. We showed that 80-90% of this cofactor activity is lost by oxidation of Met388, located within the short interdomain loop between epidermal growth factor-like domains 4 and 5 (Glaser, C. B., Morser, J., Clarke, J. H., Blasko, E., McLean, K., Kuhn, I., Chang, R.-J., Lin, J.-H., Vilander, L., Andrews, W. H., and Light, D. R. (1992) J. Clin. Invest. 90, 2565-2573). For each of the 3 amino acids of the loop, site-specific mutants are described in which, 1) all possible single amino acid substitutions are made, 2) deletions are made, or 3) alanine is inserted adjacent to each residue of the loop. Most substitutions within the loop (38/57) result in a > 50% decrease in cofactor activity, while changes in the length of this region result in > 90% loss of activity. Only the Met388-->Leu mutant has higher cofactor activity (2-fold) than wild-type TM. A number of soluble and full-length TM analogs with the Met388-->Leu substitution are improved thrombin cofactors, whether produced in bacteria, insect, or mammalian cells. Detailed kinetic analysis of a soluble TM analog consisting of the six EGF-like domains secreted from insect cells shows that the enhanced activity of the Met388-->Leu mutant results from an increased catalytic efficiency (kcat/Km). This enhancement is maximal at physiological concentrations of calcium. The loss of activity following Met388 oxidation in the wild-type protein is the result of both decreased binding to thrombin (Kd effect) and a decreased interaction of the TM.thrombin complex with protein C (Km effect). We demonstrate the critical role of this interdomain loop in the biological anticoagulant properties of TM.
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PMID:The short loop between epidermal growth factor-like domains 4 and 5 is critical for human thrombomodulin function. 838 6


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