Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0409974 (lupus)
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Although Virchow postulated 100 years ago that hypercoagulability states exist, it has only been in recent years that methods of documenting hypercoagulability have been developed. These clotting tendencies can be acquired or congenital. The common causes of acquired clotting tendencies include conditions which result in tissue and cellular damage, shock, transfusion reactions, and tissue necrosis. Certain drugs and drug reactions, and certain disease states which include blood dyscrasias and cancer are also associated with clotting problems. In certain diseases such as homocystinuria, hyperlipidemia, and lupus erythematosus, abnormal clotting tendencies may also develop. Important advances in the recognition of hypercoagulability have come with the documentation that congenital clotting abnormalities exist. Moreover, these abnormalities are proving to be more common than are congenital bleeding syndromes. Patients who appear to have spontaneous clotting manifestations and are under 40 years of age should be screened for one of these abnormalities. These congenital clotting tendencies can be classified as defects in thrombosis inhibitors, dysfibrinogenemias, or defects in fibrinolysis. The first thrombotic inhibitor defect recognized was antithrombin III deficiency which was reported in 1965. Subsequently, Protein C, Protein S, and Heparin cofactor II deficiencies have been recognized as contributing to thrombotic tendencies. Dysfibrinogenemias are relatively rare and most are associated with bleeding problems; however, 11% of the abnormal fibrinogens are associated with a clotting tendency. The reason appears to be that these fibrins are resistant to fibrinolysis. The most common defects which are associated with thrombotic tendencies appear, at the present time, to be due to defects in fibrinolysis. These include hypoplasminogenemia, decreases in plasminogen activator, increases in plasminogen activator inhibitor, and Factor XII deficiency.
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PMID:Acquired and congenital clotting syndromes. 223 69

Proteins C and S are two vitamin K-dependent plasma proteins that work in concert as a natural anticoagulant system. Activated protein C is the proteolytic component of the complex and protein S serves as an activated protein C binding protein that is essential for assembly of the anticoagulant complex on cell surfaces. The anticoagulant activity is expressed through the selective inactivation of Factors Va and VIIIa. Many patients deficient in proteins C and S have been described and have an associated thrombotic tendency, but not all heterozygous protein C and S deficient individuals experience thrombotic complications. Multiple mechanisms and/or drugs can lead to acquired deficiencies of these proteins: oral anticoagulation, liver disease, DIC and in the case of protein S, lupus erythematosus, nephrotic syndrome, pregnancy and certain hormones. The anticoagulant activity of protein C decreases rapidly after administration of warfarin (i.e., with a time course similar to Factor VII). This rapid decrease may lead to a transient imbalance and contribute to coumarin induced skin necrosis. Protein S antigen levels do not decrease as rapidly, but protein S functional levels are often low in patients with an acute thrombus. The discrepancy between antigen and function results from elevations in C4b-binding protein, which complexes reversibly with protein S. Unlike free protein S, the complex does not function in the anticoagulant pathway. The available information all suggest that deficiency of protein C and protein S should be considered a risk factor contributing to recurrent thrombotic disease and that the function of these proteins is altered by many common clinical conditions which have associated an increased risk of thrombosis.
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PMID:Anticoagulation proteins C and S. 295 34

Protein C (PC), a 62,000-molecular weight vitamin K-dependent serine protease zymogen, is a natural anticoagulant that occurs in plasma at 4 mg/L. Activated PC inactivates clotting factors V and VIII and is also profibrinolytic. Activated PC is enhanced in its anticoagulant activity by protein S (PS), another vitamin K-dependent protein. Protein S is found in platelets and endothelial cells as well as in plasma. Inherited PC deficiency and PS deficiency have been associated with venous thrombosis. Both heterozygous PC and PS deficiency appear to be inherited in an autosomal dominant manner in some families. Homozygous PC deficiency presents as neonatal purpura fulminans and results in massive venous thrombosis of the skin and other organs within the first few days of life. Symptomatic heterozygous PC deficiency and PS deficiency have been treated with oral anticoagulants, successfully minimizing recurrence of thrombosis. Coumarin-induced skin necrosis, a rare complication of oral anticoagulant therapy usually seen within three to five days of initiation of therapy, has also been associated with heterozygous PC deficiency. The short half-life of PC (six to eight hours) compared with most of the vitamin K-dependent clotting factors (greater than 30 hours) is the probable reason for this paradoxical response to oral anticoagulants in some PC-deficient patients, since a transient imbalance of procoagulant and anticoagulant factors may exist during initiation of oral anticoagulant therapy. Acquired deficiency of the PC pathway occurs in disseminated intravascular coagulation and possibly other diseases such as those associated with a lupus anticoagulant.
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PMID:Coumarin necrosis, neonatal purpura fulminans, and protein C deficiency. 296 8

Resistance to Activated Protein C (APC) was evaluated using 3 different methods: two of them were based on the prolongation of the Activated Partial Thromboplastin Time (APTT) using 2 different APTT reagents in the presence of APC, whereas the third method was based on the prolongation of prothrombin time when APC is added. The three methods were significantly correlated. APTT-based assays were sensitive to factor XII deficiency, whereas thromboplastin-based assay was sensitive to factor VII deficiency (< 0.5 UI/ml), which surestimates the response to APC. In contrast, an increase in factor VIII (F. VIII) level is associated with a decreased response to APC, when APTT-based assays are used, whereas thromboplastin-based assay is unmodified. During pregnancy, a decreased response to APC is observed, which is not only due to the increase in F. VIII, since thromboplastin-based assay is also modified. In Protein S (PS) immuno-depleted plasma, the low response to APC is corrected by addition of free PS: the thromboplastin-based assay was the most sensitive one to PS deficiency. However, in patients with congenital PS deficiency, there was no correlation between APC-resistance and free PS level. In patients with lupus anticoagulant, discrepancies were observed between the 3 methods, but with a high frequency of low response to APC. For the 3 assays, there was a good differentiation and correlation between normal and pathological results, the thromboplastin-based assay being perhaps the most discriminating. However, 3 unrelated thrombophilic patients showed normal results using thromboplastin-based assay, although they were APC-resistant using APTT-based assays. For 2 patients, this discrepancy can be explained by high levels of F. VIII. For the last patient, an abnormal F. VIII, resistant to APC can be suspected.
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PMID:Resistance to activated protein C: evaluation of three functional assays. 781 60

The Antiphospholipid Syndrome is defined by the association between peculiar clinical manifestations, namely arterial and/or venous thrombosis, recurrent abortions and thrombocytopenia, and the antiphospholipid antibodies. These antibodies are directed to plasma proteins bound to anionic phospholipids or other anionic surfaces: so far, beta 2-glycoprotein I is the best known and characterized antiphospholipid 'cofactor' (this issue is specifically treated in other parts of this journal). In recent years, such a role has been reported also for prothrombin, activated Protein C, Protein S, Annexin V, Thrombomodulin, high- and low-molecular weight kininogens. Anti-prothrombin antibodies are detected in approximately 50% of the antiphospholipid-positive patients; conversely, limited data are available regarding the prevalence the other antibodies. 'Cofactors' are necessary for the expression of both the immunological and the functional properties of their respective antiphospholipid antibodies. In particular, the recognition of the calcium-mediated prothrombin/lipid complex by anti-prothrombin antibodies hampers prothrombin activation, thus causing the prolongation of the phospholipid-dependent coagulation reactions. The interaction between antiphospholipid antibodies and natural inhibitors of coagulation such as activated Protein C, its non-enzymatic accessory protein Protein S or Thrombomodulin might increase the risk to develop thromboembolic events. Similarly, the presence of antibodies to surface-bound Annexin V has been hypothesized to play a role in recurrent abortions and fetal deaths. However, to clearly establish whether and which antiphospholipid antibodies represent risk factors for the thromboembolic events of the antiphospholipid syndrome, further studies of their behaviour and properties as well as the identification and characterization of (possibly) other antibodies are required.
Lupus 1996 Oct
PMID:Non beta 2-glycoprotein I cofactors for antiphospholipid antibodies. 890 67

Acquired activated protein C resistance (APCR) has been hypothesized as a possible mechanism by which antiphospholipid antibodies (APLAs) cause thrombotic events (TEs). However, available evidence for an association of acquired APCR with APLAs is limited. More importantly, an association of acquired APCR with TEs has not been demonstrated. The objective of the study was to determine, in pediatric patients with systemic lupus erythematosus (SLE), whether (1) acquired APCR is associated with the presence of APLAs, (2) APCR is associated with TEs, and (3) there is an interaction between APCR and APLAs in association with TEs. A cross-sectional cohort study of 59 consecutive, nonselected children with SLE was conducted. Primary clinical outcomes were symptomatic TEs, confirmed by objective radiographic tests. Laboratory testing included lupus anticoagulants (LAs), anticardiolipin antibodies (ACLAs), APC ratio, protein S, protein C, and factor V Leiden. The results revealed that TEs occurred in 10 (17%) of 59 patients. Acquired APCR was present in 18 (31%) of 58 patients. Acquired APCR was significantly associated with the presence of LAs but not ACLAs. Acquired APCR was also significantly associated with TEs. There was significant interaction between APCR and LAs in the association with TEs. Presence of both APCR and LAs was associated with the highest risk of a TE. Protein S and protein C concentrations were not associated with the presence of APLAs, APCR, or TEs. Presence of acquired APCR is a marker identifying LA-positive patients at high risk of TEs. Acquired APCR may reflect interference of LAs with the protein C pathway that may represent a mechanism of LA-associated TEs. (Blood. 2001;97:844-849)
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PMID:Acquired activated protein C resistance is associated with lupus anticoagulants and thrombotic events in pediatric patients with systemic lupus erythematosus. 1115 6

Infection with human immunodeficiency virus (HIV) may lead to hemostatic imbalances. Forty-nine consecutive patients with acute opportunistic infections were screened for thrombophilic parameters. A follow-up investigation was performed after 10 +/- 8 weeks in 26 patients. In acutely ill patients, the incidence of protein S deficiency was 67% (33/49) and of protein C deficiency 25% (12/49), while at the follow-up visit the incidences were 54% (14/26) and 8% (2/26), respectively. Protein S and protein C levels increased significantly from initial to follow-up visit (p < 0.05). Lupus anticoagulants were not detected and anticardiolipin IgG antibodies were present in 11.4% (5/44). Three patients presented with deep venous thrombosis on admission; in two, protein S or protein C deficiency was observed. In conclusion, an acquired protein S and protein C deficiency often develop in patients with HIV and acute illness; this may be reversible after treatment for opportunistic infections.
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PMID:Acquired protein C and protein S deficiency in HIV-infected patients. 1465 42

The clinical picture of venous or arterial thrombosis in the presence of circulating antiphospholipid antibodies is referred to as the antiphospholipid syndrome. A 5-month-old baby girl who was quite healthy so far was referred to our clinic with irritability, vomiting, and abdominal distension for 30 hours. Surgical exploration exposed a gangrenous ileal segment about 15 cm long. The postoperative period was unremarkable. Investigation to identify the risk factors for mesenteric thrombosis found anticardiolipin antibodies (isotype Ig G) and decreased protein C level. Protein S and antithrombin III were within normal levels. Hb electrophoresis results showed no HbS, and neither Factor V Leiden nor prothrombin 20210 mutations were detected. Eight months postoperatively, anticardiolipin antibodies were found within normal levels. Lupus anticoagulant, ds DNA, and ss DNA were negative. Direct coombs test and protein C, C3, and C4 were also within normal levels. She had no thrombotic episode in the 24 months postoperatively, although no anticoagulant medication was administered. To the authors' knowledge this case is the first report of segmental intestinal infarction in transient antiphospholipid syndrome in the pediatric population.
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PMID:Transient antiphospholipid syndrome in an infant with segmental small bowel infarction. 1469 90

Interference of anti-phospholipid antibodies with the protein C pathway has been suggested to play a role in the development of thrombosis in the anti-phospholipid syndrome. We studied the effect of IgG preparations containing anti-prothrombin antibodies of 17 lupus anticoagulant-positive patients and 12 controls on the inactivation of factor Va (FVa) by activated protein C (APC) in a system with purified coagulation factors. Test IgG was incubated with human prothrombin, phospholipid vesicles and CaCl(2). Protein S, FVa and APC were added and the APC-dependent loss of FVa activity was monitored over time. The residual amount of FVa remaining after 10 min was 14 +/- 4% (mean +/- SD) when 1.5 mg/ml normal IgG was present and ranged between 17% and 82% with 1.5 mg/ml patient IgG. Twelve patients IgG gave values of residual FVa >22% (i.e. 2 SD above the mean of controls), indicating that APC-mediated inactivation of FVa was significantly inhibited. The inhibition was strictly dependent on the presence of prothrombin, proportional to the concentration of IgG and strongly diminished at a 20-fold higher phospholipid concentration. Most, although not all, IgG containing anti-prothrombin antibodies inhibit the APC-catalysed FVa inactivation, which may contribute to the increased risk of thrombosis in patients with the anti-phospholipid syndrome.
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PMID:Anti-prothrombin IgG from patients with anti-phospholipid antibodies inhibits the inactivation of factor Va by activated protein C. 1581 52

A new clotting assay, Pefakit APC-R Factor V Leiden (Pentapharm Ltd., Switzerland), for the detection of an increased resistance of coagulation factor V against degradation by activated protein C, caused mainly by the factor V Leiden mutation, was evaluated in clinical studies at two University Centers in Europe and the US. The performance was compared with the performance of the routinely used predicate device COATEST APC Resistance V (Chromogenix IL, USA). Both tests were run in parallel on a STA-R analyzer (Diagnostica Stago, France). Samples from subjects undergoing routine laboratory thrombophilia screening were examined, 187 at the Institute of Medical and Chemical Laboratory Diagnostics (IMCLD), University of Vienna, Austria, and 236 at the Duke University Medical Center (DUMC), Durham/Raleigh NC, USA. All samples were analyzed for factor V Leiden mutation and prothrombin 20210 G/A mutation using standard PCR methods. The data show that the Pefakit APC-R Factor V Leiden assay discriminates very well between healthy controls and carriers of the factor V Leiden mutation, even in patients with lupus anticoagulant or with deficiency in Protein C or Protein S. Furthermore, this new test is able to discriminate well between heterozygous and homozygous carriers of the factor V Leiden mutation. In both studies the Pefakit assay showed 100% sensitivity and 100% specificity for detection of the factor V Leiden mutation, compared to 93.1% sensitivity and 93.0% specificity for the COATEST APC Resistance V in the IMCLD study and 93.9% sensitivity and 95.6% specificity in the DUMC study. The new test has PCR-like discrimination power which will help to decrease costs by reducing the need for PCR verification of borderline cases.
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PMID:Clinical evaluation of a new functional test for detection of activated protein C resistance (Pefakit APC-R Factor V Leiden) at two centers in Europe and the USA. 1693 14


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