UMLS:C0033036 - FACTA Search

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)

Homozygous protein C (PC) deficiency is a rare genetic defect that usually results in fatal thrombotic complications (purpura fulminans and DIC), but it can be successfully managed with oral anticoagulants or PC replacement. The successful use of PC replacement for two individuals is described. The activity and antigen levels of PC in fresh frozen plasma (FFP) and prothrombin complex concentrate (PCC) are also reported. The concentration of PC in FFP is 87 +/- 15 units/dl. PC is present in all PCC analyzed; however, a ten-fold difference between the various brands and/or lots is noted. The PC activity and antigen correlates well with no significant levels of APC. Upon infusion of FFP into two homozygous PC-deficient children, the PC levels obtained were less than or equal to 30 units/dl post-infusion and undetectable after 12-18 hr. With infusions of PCC, plasma levels of PC obtained were 100-145 units/dl and less than 10 units/dl after 48 hr. The percent recovery and half-lives of PC from FFP and PCC were 49.8% and 7.8 hr, and 84% and 7.4 hr, respectively. One infant was treated every 48 hr for 2 years without significant purpura fulminans or DIC complications. The levels of the other PC system components did not change during the infusion of the PC-rich material. Based on this information, a specific replacement protocol has been developed using a PC-rich concentrate. However, several problems may arise with the "less pure" PC-rich concentrates: catheter-tip thrombosis, related large vessel thrombosis and blood-transmitted diseases. With a specific PC concentrate, replacement therapy is a viable alternative for the long-term management/treatment of homozygous PC deficiency.
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PMID:Protein C survival during replacement therapy in homozygous protein C deficiency. 150 96

Resistance to activated protein C (RAPC) has been described recently as a cause of trombophilia; this may justify up to 50% of thromboembolic disease without predisposing cause in patients under 45 years. A 29 years-old male with a previous deep venous thrombosis (DVT) in the lower left limb three years earlier, developed a DVT in the right lower limb after a trauma of the knee that required immobilization, was associated to pulmonary thromboembolism diagnosed by gammagraphic methods. The phlebographic study showed femoro-iliaco-caval venous thrombosis. The proband's father and a younger brother had a previous history of thrombotic episodes. The following tests, were performed in the proband and relatives: prothrombin time, aPTT, thrombin time, fibrinogen, (Von Clauss), antithrombin III (chromogenic), protein C and protein S (coagulometry and ELISA), plasminogen (chromogenic) and lupus anticoagulant (ITT, dRVVT, aCL). RAPC was evaluated in two different samples. The proband study was performed under oral anticoagulation treatment (OAT). Control groups were: 21 blood donors and 12 OAT patients. The results showed a decreased response to APC in the proband (ratio 1.5) and relatives: father (1.4), brothers (1.5 and 1.5), while the mother was within the normal range (> or = 2). In normal controls and OAT patients the ratio was over 2. No other abnormalities were detected in the assays performed. It is concluded that RAPC is the cause of this familial trombophilia. RAPC should be included in the evaluation study of trombophilia.
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PMID:[Familial thrombophilia due to resistance to activated protein C]. 798 58

The dependence of the activity of recombinant activated human protein C (r-APC) on each of its nine gamma-carboxyglutamic (Gla) residues (sequence positions 6, 7, 14, 16, 19, 20, 25, 26, and 29) has been assessed in purified systems and in plasma using r-mutants in which each Gla residue of r-APC was individually altered to an Asp (D) residue. The assays employed included a factor Va inactivation assay in the prothrombinase system with purified components and in plasma. In addition, a factor VIII inactivation assay in the tenase system, also with purified components, was utilized. Compared to wild-type protein (wtr-APC), the r-mutants that possessed nearly full activity in all assays were the Gla6-->D variant ([Gla6D]r-APC]) as well as [Gla14D]r-APC and [Gla19D]r-APC. In addition, another mutant (Q32-->Gla) in which a Gla was substituted for Gln (Q) at position 32, a situation that exists with other vitamin-K-dependent clotting proteins (e.g., factor IX and prothrombin), displayed full activity in all assays. Those mutants that possessed very-low-to-no activity in all assays included [Gla16D]r-APC and [Gla26D]r-APC. The other mutants showed partial and, in some cases, differential activity in these assay systems, with [Gla25D]r-APC being the most remarkable example. In this case, the factor V/Va plasma assay and the plasma-based activated partial thromboplastin time assay yielded < 25% activity, whereas nearly full activity was observed for this variant in the prothrombinase and tenase assays with purified components.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The activities of recombinant gamma-carboxyglutamic-acid-deficient mutants of activated human protein C toward human coagulation factor Va and factor VIII in purified systems and in plasma. 811 Jul 90

Pediatric patients with acute lymphoblastic leukemia (ALL) are at an increased risk of thromboembolic events. Potential responsible mechanisms include the disease process itself, treatment with chemotherapeutic agents (particularly L-Asparaginase [ASP]), or a combination of the disease and treatment. We studied thrombin regulation in 26 consecutive children with ALL and 14 healthy age-matched controls by: (1) plasma concentrations of prothrombin; (2) plasma inhibition of 125I-alpha-thrombin; and (3) four biochemical markers of in vivo thrombin activation (thrombin complexed to its inhibitor antithrombin III [ATIII; TAT], prothrombin fragment 1.2 (F1.2), activated protein C complexed to the inhibitors alpha 1 antitrypsin [APCAT]), and protein C inhibitor (APC-PCI). Measurements were made at presentation before treatment, after treatment with ASP alone, and during combination chemotherapy with and without ASP. At presentation, the capacity to generate thrombin (reflected by plasma prothrombin concentrations) and the capacity to inhibit thrombin (125I-alpha-thrombin--inhibitor complex formation) were similar in children with ALL compared with that for healthy children. After ASP alone or as part of combination chemotherapy, prothrombin levels were preserved, whereas plasma inhibition of 125I-alpha-thrombin decreased significantly because of a decrease in plasma concentrations of inhibitors, most importantly ATIII. After combination chemotherapy without ASP, plasma concentrations of ATIII and the capacity to inhibit 125I-alpha-thrombin returned to normal values, whereas prothrombin levels increased above control values. Thrombin generation in vivo also differed from healthy controls. At presentation, plasma concentrations of three of four markers of in vivo thrombin activity (TAT, F1.2, APCAT, but not APC-PCI) were increased in children with ALL. Neither ASP alone nor combination chemotherapy with or without ASP significantly altered values of these three markers. In summary, although the in vitro capacity to generate thrombin was preserved, the in vitro capacity to inhibit 125I-alpha-thrombin decreased after ASP therapy. Evidence for increased endogenous thrombin generation was documented in children with ALL at presentation and throughout treatment. We speculate that poor regulation of this thrombin may contribute to thrombotic complications in children with ALL.
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PMID:Increased endogenous thrombin generation in children with acute lymphoblastic leukemia: risk of thrombotic complications in L'Asparaginase-induced antithrombin III deficiency. 828 39

Thrombin generation is a pivotal function of plasma in haemostasis and thrombosis. Its mechanism is essentially the classical cascade, the velocity of which is governed by the availability of factors Va and VIIIa and that is confined to the surface of the procoagulant membranes which appear at the site of injury. There is no routine test that quantitatively renders the thrombin forming capacity of a plasma sample. Clotting times (PT-prothrombin time, APTT-activated partial tromboplastin time) do not reflect the over all thrombin generation and are insensitive to hypercoagulative states. The endogenous thrombin potential (ETP), i.e. the area under the thrombin generation curve, better represents this function. We developed a method to assess the ETP in the routine laboratory. The first results suggest that it is a sensitive indicator for every form of anticoagulation. It is increased in hypercoagulable states thus far studied, both congenital and acquired and can be designed to indicate deficiencies in protein C and S and APC (activated protein C) resistance.
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PMID:Thrombin generation in plasma: its assessment via the endogenous thrombin potential. 857 46

Although patients with thromboembolic disease frequently have family histories of thrombosis, well-defined defects such as inherited deficiencies of anticoagulant proteins are found only in minority of cases. Herein, we present a family study of 42 years old woman with recurrent deep vein thrombosis which occurred first time four years ago during pregnancy, in subclavian vein, in relation to cardiac stimulator implantation because of atrio-ventricular III(0) block. Her laboratory investigation demonstrated normal APTT time, prothrombin time, platelet number, antithrombin III and protein C activity. Plasma antiphospholipid antibodies contents was within the normal range. The result of activated protein C(APC) resistance test was abnormal (R=1.64). Family study revealed similar degree of APC-resistance defect in her DVT symptomatic mother and two healthy young daughters (R=1.73 and 1.54 respectively). Additionally, a slightly reduced total protein S plasma concentration was found in the patient and her two children. The influence of a slightly reduced protein S level on the results of APC-resistance was excluded by evaluation of normalized activated protein C sensitivity ratio (nAPC-SR) as described de Ronde and Bertina.
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PMID:[Thrombophilia in a family with resistance to activated protein C and protein S deficiency]. 861 15

Four hundred fifty subjects were screened for the 1691 G-->A mutation in the factor V gene. Two hundred ninety-seven patients were referred to us for unexplained thrombosis, 133 were family members of these patients and 20 were normal subjects. We studied the relationships between the mutation, resistance to APC and thrombosis. Among the 450 subjects tested, 65 belonging to 42 families were found to have the 1691 G-->A mutation in one (n = 61) or both alleles (n = 4). The prevalence of the mutation in the thrombotic patients was 13%. Resistance to APC was tested for in 247 subjects not on anticoagulant treatment (4 homozygous and 44 heterozygous for the mutation, and 199 individuals without the mutation). Incomplete cosegregation of heterozygosity for the 1691 G-->A mutation with APC resistance (APC-SR < 2.4 or n-APC-SR < 0.75) was observed, showing that the functional assay alone is insufficient for a firm diagnosis. In patients carrying the mutation, elevated levels of prothrombin fragment 1 + 2 and D-dimers pointed to increased thrombin generation in vivo. Clinical manifestations in the heterozygous subjects were very similar to those reported in heterozygous PC or PS deficiencies, but the first thrombotic event occurred later than in PC- or PS-deficient patients. Homozygosity for the factor V gene mutation appears to be a far more benign thrombotic disorder than homozygous PC and PS deficiencies.
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PMID:The 1691 G-->A mutation in the factor V gene: relationship to activated protein C (APC) resistance and thrombosis in 65 patients. 871 71

Inherited resistance to activated protein C (APC-resistance), caused by a point mutation in the factor V gene leading to replacement of Arg(R)506 with a Gln (Q), and inherited protein S deficiency are associated with functional impairment of the protein C anticoagulant system, yielding lifelong hypercoagulability and increased risk of thrombosis. APC-resistance is often an additional genetic risk factor in thrombosis-prone protein S deficient families. The plasma concentration of prothrombin fragment 1 + 2 (F1 + 2), which is a marker of hypercoagulable states, was measured in 205 members of 34 thrombosis-prone families harbouring the Arg506 to Gln mutation (APC-resistance) and/or inherited protein S deficiency. The plasma concentration of F1 + 2 was significantly higher both in 38 individuals carrying the FV:Q506 mutation in heterozygous state (1.7 +/- 0.7 nM; mean +/- SD) and in 48 protein S deficient cases (1.9 +/- 0.9 nm), than in 100 unaffected relatives (1.3 +/- 0.5 nM). Warfarin therapy decreased the F1 + 2 levels, even in those four patients who had combined defects (0.5 +/- 0.3 nM). Our results agree with the hypothesis that individuals with APC-resistance or protein S deficiency have an imbalance between pro- and anti-coagulant forces leading to increased thrombin generation and a hypercoagulable state.
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PMID:Elevated levels of prothrombin activation fragment 1 + 2 in plasma from patients with heterozygous Arg506 to Gln mutation in the factor V gene (APC-resistance) and/or inherited protein S deficiency. 881 75

We have developed a simple screening assay for evaluating the global activity of the protein C/protein S system. The new test consists of measuring the prothrombin time (PT) with bovine thromboplastin before and after activation of the PC present in the plasma sample by PROTAC, derived from Agkistrodon contortrix snake contortrix venom. Prolongation of the PT was directly related to the activity of the PC/PS system. One hundred and nineteen thrombophilic patients including 36 with PC deficiency, 22 with PS defect, 35 with APC resistance and 26 with other genetic defects predisposing to thrombosis were tested with the new assay together with 112 healthy subjects. The new test showed a high sensitivity for detection of inherited defects related to the PC/PS system (92%, 91% and 97% for PC defects, PS defects and APC resistance, respectively). Since it can be performed automatically the test could be used to screen for patients predisposed to thrombosis due to impairment of the PC/PS system and those patients who might eventually require more extensive evaluation of the PC/PS system by single component assays.
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PMID:A new global test for the evaluation of the protein C-protein S system. 883 99

Protein C is a major regulatory protein critical to physiologic anticoagulation. When activated, it selectively degrades the activated forms of factors V and VIII, thereby, down-regulating blood coagulation. Using an activated partial thromboplastin time (APTT) assay, Dahlback et al. recently reported that some individuals with thrombophilia show a poor in vitro anticoagulant response to activated protein C (APC-Resistance). Subsequent studies identified a point mutation in the gene for factor V as the underlying cause of APC-Resistance. The incidence of APC-Resistance in patients with recurrent thromboembolic events approaches 50%. The APC-Resistance phenotype is also present in approximately 5% of normal Caucasian subjects. In an attempt to develop a more sensitive and specific test system, we evaluated an assay based on Textarin(Pentapharm, Basel, Switzerland). Textarin, a protein fraction of Pseudonaja textilis venom (Australian Eastern Brown Snake) activates prothrombin in the presence of phospholipid (PL), factor V and calcium ions. Based on Textarin's requirement for factor V, we developed a Textarin time assay to test for APC-Resistance. We evaluated this test system in normal subjects and the following patient populations: stable orally anticoagulated, previously diagnosed factor V Leiden, and therapeutically heparinized samples. We found the Textarin assay to be a sensitive and specific test system to identify APC-Resistance. The phenotypic Textarin APC-Resistance test correlated more closely with the genotypic abnormality of factor VR506Q than the APTT-APC-Resistance test.
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PMID:APC-resistance as measured by a Textarin time assay: comparison to the APTT-based method. 887 45

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