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: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A chimeric cDNA, encoding residues 1-46 (the gamma-carboxyglutamic acid module and its trailing helical stack) of human coagulant factor (f) VII, bound to residues 47-419 of human anticoagulant protein C (PC), was constructed and expressed. The resulting protein, r-[delta GD-HSPC/[symbol: see text] GD-HSfVII]PC, was properly processed with regard to signal/propeptide release, cleavage of the K156R dipeptide, Gla and Hya contents, and the presence of glycosylation. The mutant protein displayed normal dependencies on Ca2+ for adoption of its metal ion-dependent conformation and for binding to acidic phospholipid vesicles. The chimera failed to recognize a monoclonal antibody (MAb) specific for the Ca(2+)-induced conformation of the Gla domain (GD) of PC, but did react with another MAb directed in part to the Ca(2+)-dependent conformation of the GD of fVII. Further, this chimeric protein possessed similar steady state constants as wild-type r-PC toward activation by thrombin and thrombin/thrombomodulin. The activated form of the chimera was very similar to that of its wild-type counterpart in its whole plasma anticoagulant activity, as well as its activity toward inactivation of coagulation factor VIII. The chimeric protein did not bind to the fVII cofactor, tissue factor, showing that the GD/HS domain region of fVII is insufficient for that particular interaction. The results demonstrate that the GD/HS of fVII, when present in the PC and APC background, serves to maintain the Ca2+/PL-related functions of these latter proteins, and suggest that the Ca2+ and PL-dependent interactions of the GD-HS of PC are sufficiently general in nature such that the GD-HS regions of other proteins of this type can satisfy most of the requirements of PC and APC. The data presented also offer support for the independent nature of the domain unit consisting of the GD/HS module.
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PMID:Properties of a recombinant chimeric protein in which the gamma-carboxyglutamic acid and helical stack domains of human anticoagulant protein C are replaced by those of human coagulation factor VII. 918 4

Development of IgE-mediated allergic conditions is dependent on the secretion of a Th2 cytokine pattern, including IL-4, IL-5, and IL-13. The induction of anergy would be one mechanism to abrogate cytokine secretion by Th2 cells, which may be pivotal to the allergic response. We demonstrate here that incubation of cloned human CD4+ phospholipase A2 (PLA)-specific Th2 cells with antigenic peptide, in the absence of professional APC, results in a state of nonresponsiveness. The anergic T cells failed to proliferate or secrete IL-4 in response to optimal stimulation with PLA and autologous, professional APC. Secretion of IL-5 and IL-13, however, was only partially inhibited. The anergic state of the Th2 cells was not associated with CD3 or CD28 down-regulation. However, anergy did appear to be closely related to alterations in signaling pathways, mediated through the TCR, of the cells. In contrast to untreated Th2 cells, anergized Th2 cells failed to respond to anti-CD3 mAb with either increased tyrosine kinase activity or increased levels of tyrosine phosphorylation of p56(lck) or ZAP70. A strong and sustained intracellular calcium flux, observed in untreated Th2 cells in response to anti-CD3 mAb, was absent in anergic Th2 cells. Furthermore, the induction of anergy seems to represent an active process, associated with increased levels of basal tyrosine kinase activity, cytokine production, and CD25 up-regulation in anergic Th2 cells. Together, our results indicate that anergy in Th2 cells is associated with defective transmembrane signaling through the TCR.
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PMID:Defective TCR stimulation in anergized type 2 T helper cells correlates with abrogated p56(lck) and ZAP-70 tyrosine kinase activities. 920 Apr 38

Most epidemiological and animal studies show a positive correlation of the dietary intake of fat with the incidence of colon cancer, whereas an inverse correlation of the dietary intake of fiber. In rats fed a diet low in fat and high in wheat bran fiber and calcium, a significant decrease was reported in the number of azoxymethane-induced aberrant crypt foci compared with those fed a high-fat, low-fiber and low-calcium diet. Mutations in the human APC gene play a key role, not only in familial adenomatous polyposis, but also in many sporadic cancers of the entire digestive tract. We previously constructed a mouse strain Apc(delta716), carrying a truncation mutation at codon 716 of the Apc gene, the homolog of human APC (10). The heterozygous mice developed numerous intestinal polyps, and all microadenomas dissected from the earliest polyps had already lost the wild-type allele, indicating the loss of heterozygosity. Using these Apc(delta716) knockout mice, we have investigated the effect of a low-fat and high-fiber diet (LRD for 'low-risk' diet) on intestinal polyposis, and compared it with that of a high-fat and low-fiber diet (HRD for 'high-risk' diet). The mice were fed either diet for 7 weeks, and the number and size of intestinal polyps were scored. The LRD-fed mice had fewer polyps than the HRD-fed mice, by 36% in the small intestine and by 64% in the colon. As for the polyp size distribution, there was no significant difference between the HRD- and LRD-fed mice. These results indicate that LRD can suppress intestinal polyposis compared with HRD which does not, and suggest that its suppression is at the initiation of polyp formation. This is likely to be due to a decreased frequency of loss of heterozygosity, rather than a retarded growth of the polyp adenomas.
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PMID:Suppression of intestinal polyp development by low-fat and high-fiber diet in Apc(delta716) knockout mice. 936 91

Human peripheral blood contains a small subpopulation of immature dendritic cells (iDC) distinguished from circulating monocytes by their low expression of CD14. We utilized leukapheresis and countercurrent centrifugal elutriation to obtain myeloid origin mononuclear cell (MOMC) fractions of monocytes and iDC for study. These subpopulations were ultrastructurally and immunophenotypically similar before culture. After a 20- to 96-h culture either alone, with recombinant human granulocyte-monocyte CSF, or with endotoxin, greater up-regulation of costimulatory molecule expression was observed among iDC than among monocytes, and only iDC expressed the activation molecule CD83. Treatment with rhIL-4 caused many MOMC to develop morphologic properties of dendritic cells within 96 h, but costimulatory molecule up-regulation and CD14 down-regulation were heterogeneous, and CD83 expression was infrequent. In contrast, calcium ionophore (CI) treatment induced rapid and consistent effects in MOMC from both healthy volunteers and cancer patients, including down-regulated CD14 expression, acquisition of dendritic cell morphologic properties, up-regulated MHC and costimulatory molecule expression, and de novo CD83 expression. Many such effects occurred within 20 h of treatment. CI treatment activated purified CD14+ monocytes and also enhanced the spontaneous activation of purified CD14-/dim iDC in culture. Unfractionated MOMC, purified monocytes, and purified iDC displayed equivalently enhanced T cell-sensitizing efficiency following CI treatment. CD4+ T cell sensitization to keyhole limpet hemocyanin and CD8+ T cell sensitization to MART-1 melanoma-associated peptide were achieved in a single culture stimulation. Therefore, circulating monocytes and iDC can be induced by CI to manifest properties of activated DC, providing large numbers of efficient, nontransformed autologous APC for T cell sensitization strategies.
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PMID:Calcium ionophore-treated peripheral blood monocytes and dendritic cells rapidly display characteristics of activated dendritic cells. 937 70

This study compared the effects of 1 year of monotherapy with a calcium-channel antagonist (nilvadipine; NIL), an angiotensin-converting enzyme (ACE) inhibitor (temocapril; TEM), or a new vasodilator (cadralazine; CAD) on left ventricular (LV) hypertrophy in essential hypertension. Furthermore, to elucidate the mechanism responsible for regression of LV hypertrophy after treatment, LV mass index (LVMI) by echocardiography, plasma renin activity (PRA), aldosterone (PAC), norepinephrine, and atrial natriuretic peptide (ANP) concentration were measured before and after treatment. Thirty-six patients were randomly assigned to the NIL, TEM, or CAD groups. Blood pressure (BP) before treatment was 174 +/- 10/104 +/- 7, 173 +/- 18/103 +/- 8, and 171 +/- 16/103 +/- 7 mm Hg (mean +/- SD) in NIL, TEM, and CAD groups, respectively. BP was lower after treatment with each of the three test drugs than after the placebo period, and there were no differences in BP reduction among three groups. LVMI, in NIL and TEM, was reduced from 129 +/- 48 to 115 +/- 39 g/m2 and from 117 +/- 39 to 88 +/- 20 g/m2 (p < 0.05 and p < 0.01, respectively), whereas, in the CAD group, it was increased (110 +/- 30 to 138 +/- 27 g/m2; p < 0.01). In the CAD group, PAC decreased and ANP increased significantly. The change in LVMI correlated with that in BP for TEM and with that in ANP in all patients. These data indicated that LV volume overload as well as LV pressure overload may contribute to LV hypertrophy and that monotherapy with CAD is not desirable from the point of view of LV mass reduction in essential hypertension.
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PMID:The effects of long-term treatment on left ventricular hypertrophy in patients with essential hypertension: relation to changes in neurohumoral factors. 938 47

Variant proteins containing charge-to-alanine mutations of single amino acid residues and clusters of such groups contained in the epidermal growth factor 1 (EGF1) homology unit of human protein C (PC) have been accomplished, resulting in the following recombinant (r) mutant proteins: r-[E56A/H57A]PC; r-[H66A]PC; r-[D71A]PC; r-[D79A/R81A]PC; r-[E85A/R87A]PC; and r-[R91A/E92A]PC. Studies of the mutant proteins with a variety of Ca2+-dependent and Ca2+-independent monoclonal antibodies not only led to identification of the epitopes of these antibodies, but also confirmed the importance of D/beta-hydroxyaspartic acid (Hya)71 as one probable coordination site for Ca2+. Employing these antibodies, it was also revealed that Ca2+ binding to its site in the EGF1 region of PC did not influence Ca2+ binding or adoption of the Ca2+-dependent conformation of the gamma-carboxyglutamic acid domain of this same protein. In addition, the Ca2+-induced inhibition of PC activation by thrombin, and the kinetic constants for activation of PC by the thrombin/thrombomodulin complex, were only modestly affected by any of the mutations. The mutants r-[E56A/H57A]APC and r-[H66A]APC displayed at least 70% of wild type r-APC activity in a fVIII inactivation assay, while r-[D79A/R81A]APC, r-[E85A/R87A]APC and r-[R91A/E92A]APC possessed only approximately 40% activity in that same assay. The special role of D/Hya71 in this process was confirmed by showing that r-[D71A]APC was inactive in the fVIII-inactivation assay. These findings demonstrate that some of the charged residues of EGF1, most notably those in the carboxy-terminal region of this domain, participate as partial determinants of the anticoagulant activity of APC. Overall, with the exceptions noted, the data generally suggest that the charged residues of the EGF1 domain of PC, and the Ca2+ binding site contained within this module, are likely more involved with maintenance of the overall structural integrity of this module rather than with its direct functional interactions with effectors, activators, or substrates of PC and APC. Lastly, functional Ca2+ binding to the Gla domain of PC is not significantly influenced by the binding of Ca2+ to the EGF1 module.
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PMID:The functions of the first epidermal growth factor homology region of human protein C as revealed by a charge-to-alanine scanning mutagenesis investigation. 946 48

The soluble thrombomodulin (TM) subspecies in human urine detected by polyclonal anti-human TM IgG were isolated and characterized. 105, 85, 80, 56, 33, 31 and 28 kDa subspecies under reducing conditions was comparable to 78, 66, 56, 200, 52, 30 and 25 kDa under non-reducing conditions, respectively, in the two-dimensional electrophoresis. Each subspecies under non-reducing conditions, except the 200 and 52 kDa molecules, was constituted of single subspecies, whereas the 200 and 52 kDa molecules were constituted of the tetramer of the 56 kDa subspecies of reducing conditions and a dimer of the 33 kDa subspecies, respectively. NH2-terminal amino acid sequences of the 105, 85 and 80 kDa subspecies maintained Ala1-Pro2-Ala3- of intact human TM, however, 56, 33, 31 and 28 kDa subspecies started from Glu137-Gln138-, Gln214-Gly215-, Ser228-Val229- and Ala240-Ile241-, respectively. All subspecies obtained under non-reducing conditions exhibited cofactor activity for thrombin-dependent protein C activation ranging from 58 to 162 pmol APC/min/nmol TM at 0.4 mM Ca2+ indicating that all of the subspecies maintained the fourth to sixth repeat of epidermal growth factor-like structure of intact TM. 85, 80, 56, 33, 31 and 28 kDa subspecies were suggested to lack both chondroitin sulfate glycosaminoglycan (CSGAG), transmembrane and cytoplasmic domains of intact TM, while 105 kDa subspecies lack only CSGAG from the results of kinetic properties and the interaction with phospholipid vesicles composed from phosphatidylcholine and phosphatidylethanolamine.
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PMID:Characterization of soluble thrombomodulin fragments in human urine. 949 86

Among bacterial toxins, the adenylate cyclase toxin of Bordetella pertussis (CyaA) has a unique mechanism of entry that consists in the direct translocation of its catalytic domain across the plasma membrane of target cell, a mechanism supposed to be independent of any endocytic pathway. Here, we report that the CyaA toxin is delivered to the cytosolic pathway for MHC class I-restricted Ag presentation. Using peritoneal macrophages as APC, we show that the OVA 257-264 CD8+ epitope genetically inserted into a detoxified CyaA (CyaA-OVA E5) is presented to CD8+ T cells by a mechanism requiring 1) proteasome processing, 2) TAP, and 3) neosynthesis of MHC class I. We demonstrate that the presentation of CyaA-OVA E5, like the translocation of CyaA into eukaryotic cells, is dependent on extracellular Ca2+ and independent of vacuolar acidification. Moreover, inhibitors of the phagocytic and macropinocytic endocytic pathways do not affect the CyaA-OVA E5 presentation. The absence of specific cellular receptors for CyaA correlates with the ability of various APC to present the recombinant CyaA toxin, including dendritic cells, macrophages, splenocytes, and lymphoid tumoral lines. Taken together, our results show that the CyaA presentation pathway is not cell type specific and is unrelated to a defined type of endocytic mechanism. Thus, it represents a new and unconventional delivery of an exogenous Ag into the conventional cytosolic pathway.
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PMID:Direct delivery of the Bordetella pertussis adenylate cyclase toxin to the MHC class I antigen presentation pathway. 997 58

Protein C (PC) is activated to an essential anticoagulant enzyme (activated PC or APC) by thrombin (T) bound to thrombomodulin (TM), a membrane receptor present on the surface of endothelial cells. The understanding of this complex biological system is in part limited due to the lack of integration of experimental and structural data. In the work presented here, we analyze the PC-T-TM pathway in the context of both types of information. First, structural analysis of the serine protease domain of PC suggests that a positively charged cluster of amino acids could be involved in the activation process. To investigate the importance of these basic amino acids, two recombinant PC mutants were constructed using computer-guided site-directed mutagenesis. The double mutant had the K62[217]N/K63[218]D substitution and in the single mutant, K86[241] was changed to S. Both mutants were activated by free thrombin at rates equivalent to that of wild-type PC (wt-PC) and they demonstrated similar calcium-dependent inhibition of their activation. The K86[241]S mutant and wt-PC were activated by thrombin bound to soluble TM at a similar rate. In contrast, the K62[217]N/ K63[218]D mutant was activated by the T-TM complex at a 10-fold lower catalytic efficiency due to a lowering in k(cat) and increase in Km. Molecular models for PC and thrombin bound to a segment of TM were developed. The experimental results and the modeling data both indicate that electrostatic interactions are of crucial importance to orient PC onto the T-TM complex. A key electropositive region centered around loops 37[191] and 60[214] of PC is defined. PC loop 37[191] is located 7-8 A from the TM epidermal growth factor (EGF) 4 while the loop 60[214] is about 10 A away from TM EGF4. Both loops are far from thrombin. A key function of TM could be to create an additional binding site for PC. The Gla domain of PC points toward the membrane and away from thrombin or the EGF modules of TM during the activation process.
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PMID:Probing the activation of protein C by the thrombin-thrombomodulin complex using structural analysis, site-directed mutagenesis, and computer modeling. 1022 94

T cell activation by the specific Ag results in dramatic changes of the T cell phenotype that include a rapid and profound down-regulation and degradation of triggered TCRs. In this work, we investigated the fate of the TCR-associated ZAP-70 kinase in Ag-stimulated T cells. T cells stimulated by peptide-pulsed APCs undergo an Ag dose-dependent decrease of the total cellular content of ZAP-70, as detected by FACS analysis and confocal microscopy on fixed and permeabilized T cell-APC conjugates and by Western blot on total cell lysates. The time course of ZAP-70 consumption overlaps with that of zeta-chain degradation, indicating that ZAP-70 is degraded in parallel with TCR internalization and degradation. Pharmacological activation of protein kinase C (PKC) does not induce ZAP-70 degradation, which, on the contrary, requires activation of protein tyrosine kinases. Two lines of evidence indicate that the Ca2+-dependent cysteine protease calpain plays a major role in initiating ZAP-70 degradation: 1) treatment of T cells with cell-permeating inhibitors of calpain markedly reduces ZAP-70 degradation; 2) ZAP-70 is cleaved in vitro by calpain. Our results show that, in the course of T cell-APC cognate interaction, ZAP-70 is rapidly degraded via a calpain-dependent mechanism.
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PMID:Degradation of ZAP-70 following antigenic stimulation in human T lymphocytes: role of calpain proteolytic pathway. 1038 98


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