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)

Snake venom toxins are now regularly used in the coagulation laboratory for assaying haemostatic parameters and as coagulation reagents. Snake venom thrombin-like enzymes (SVTLE) are used for fibrinogen and fibrinogen breakdown product assay as well as detecting dysfibrinogenaemias. Significantly, because SVTLE are not inhibited by heparin, they can be used for defibrinating samples that contain the anticoagulant before assay of haemostatic variables. Prothrombin activators are found in many snake venoms and are used in prothrombin assays, for studying dysprothrombinaemias and preparing meizothrombin and non-enzymic prothrombin. Russell's viper (Daboia russelli) venom (RVV) contains a number of compounds useful in the assay of factors V, VII, X, platelet factor 3 and lupus anticoagulants. Activators from the taipan, Australian brown snake and saw-scaled viper have been used to assay lupus anticoagulants. Protein C and activated protein C resistance can be measured by means of RVV and Protac, a fast acting inhibitor from Southern copperhead snake venom and von Willebrand factor can be studied with Botrocetin from Bothrops jararaca venom. Finally, phospholipase A2 enzymes and the disintegrins, a family of Arg-Gly-Asp (RGD)-containing proteins found in snake venoms, show great potential for the study of haemostasis including, notably, platelet glycoprotein receptors GPIIb/IIIa and Ib.
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PMID:Use of snake venom fractions in the coagulation laboratory. 971 87

The rat placental PRL family consists of molecules structurally similar to PRL and GH, and to date nine members have been identified. In the course of investigating late stage specific placental PRL family expression by differential display, we have isolated a complementary DNA encoding a new molecule that is highly homologous to PRL-like protein C (PLP-C) and PLP-D, and named this molecule PLP-H. The complementary DNA encoded a mature protein of 239 amino acids, including a 31-amino acid signal sequence. Sequence comparison between PLP-H and other members of the placental PRL family showed that PLP-H is highly homologous to PLP-C and PLP-D (78% and 67% homology at the amino acid level, respectively). Expression of PLP-H was similar to that of PLP-C and PLP-D; PLP-H messenger RNA (mRNA) first appeared on day 14 of pregnancy, and its expression increased until term. RT-PCR analysis showed that PLP-H as well as PLP-C and PLP-D are expressed in all rat strains examined, confirming that PLP diversity is not due to strain differences. In situ hybridization analysis indicated that PLP-H mRNA is specifically expressed in spongiotrophoblast cells and in trophoblast giant cells of the placental junctional zone. Differentiated Rcho-1 cells also expressed PLP-H mRNA, whereas undifferentiated Rcho-1 cells did not. PLP-H seems to exist as a secretory protein because its N-terminal sequence is identical to that of GH/PRL-like molecule secreted from placental explants. PLP-H contains two putative N-glycosylation sites and eight cysteine residues, of which six are highly conserved in the placental PRL family. We prepared a recombinant protein for PLP-H together with PLP-D using a COS7 transfection system. Purified PLP-H showed two bands with molecular masses of 27 and 29 kDa. Only the 27-kDa protein was detected after N-glycosidase treatment, indicating that PLP-H is a glycoprotein. PLP-H and PLP-D did not stimulate the proliferation of Nb2 lymphoma cells or the phosphorylation of Janus kinase-2 and signal transducer and activator of transcription-5. These data indicate that PLP-H and PLP-D are nonlactogenic hormones. Thus, we have cloned a new member of the PLP subfamily, PLP-H, which has features in common with PLP-C and PLP-D.
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PMID:Molecular cloning and characterization of a new member of the rat placental prolactin (PRL) family, PRL-like protein H. 983 36

The carbohydrate-deficient glycoprotein syndromes are a group of recently described autosomal recessive, metabolic defects affecting multiple systems. The disorder is caused by inefficient posttranslational glycosylation of glycoproteins. Patients with the syndrome present early in life with psychomotor retardation, seizures, hypotonia, and stroke-like episodes. They also have dysmorphic features including almond-shaped eyes, constant squint, inverted nipples, and buttock fat pads. One of the features of the syndrome is coagulopathy, and we report here a patient who presented with a prolonged activated partial thromboplastin time, and was subsequently diagnosed with the carbohydrate-deficient glycoprotein syndrome. We also summarize the results of five previously published studies of the coagulation system in these patients. Most of the reported patients are deficient in factor XI, protein C, antithrombin III, and protein S. Other coagulation proteins are less frequently affected. Both bleeding and thrombosis have been observed, yet the cause of the stroke-like episodes remains speculative. The carbohydrate-deficient glycoprotein syndrome is an increasingly recognized multisystem disorder affecting hemostasis, and thus will involve clinical hematologists as part of a multidisciplinary team caring for patients with the syndrome.
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PMID:Coagulation abnormalities in the carbohydrate-deficient glycoprotein syndrome: case report and review of the literature. 988 8

The objective of this study was to look for the occurrence of catastrophic antiphospholipid syndromes (APS) and to try to detect discriminating factors for predicting a worse prognosis, related to Lupus anticoagulant (LA) and antiphospholipid antibodies (aPL), in systemic lupus erythematosus (SLE) with main renal involvement. Regression, recursive partition and logistic regression analyses were applied to our 80 SLE patients prospectively followed up since 1980. Immunologic and other laboratory parameters including beta 2-glycoprotein 1 dependence, resistance to activated protein C caused by a substitution on the coagulation factor V gene, induction of monocyte procoagulant activity. Regression studies demonstrated an overall worse prognosis in term of both thrombosis and death for the group of LA/aPL positive patients (33/80). However, recursive partition analysis was able to isolate a small high risk-subgroup (8/33) characterized by persistent LA/aPL antibodies positive result, widespread signs of noninflammatory vasculopathy (skin, brain, kidney) and renal pathology mimicking that of thrombotic microangiopathy or arteriolosclerosis, also in the absence of classic SLE-nephritis. Only in this subset, three catastrophic APS were recorded, while, in traditional SLE nephritis, even persistent LA/aPL positive results (sometimes after one previous thrombosis) did not seem to imply a particularly severe prognosis. All serologic criteria employed are unable to identify high-risk patients. We conclude that catastrophic APS is a rare event in renal SLE. Before more predictive serologic markers become available, a simple algorithm, dealing with clinical data and renal histologic patterns, may help physicians to identify putatively high risk-LA/aPL antibodies in SLE patients with main renal involvement. This ominous subset does not belong to the group of classic SLE-nephritis.
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PMID:Catastrophic antiphospholipid syndromes in systemic lupus erythematosus. 1004 17

Thrombomodulin (TM) is a widely expressed glycoprotein receptor that plays a physiologically important role in maintaining normal hemostatic balance postnatally. Inactivation of the TM gene in mice results in embryonic lethality without thrombosis, suggesting that structures of TM not recognized to be involved in coagulation might be critical for normal fetal development. Therefore, the in vivo role of the cytoplasmic domain of TM was studied by using homologous recombination in ES cells to create mice that lack this region of TM (TMcyt/cyt). Cross-breeding of F1 TMwt/cyt mice (1 wild-type and 1 mutant allele) resulted in more than 300 healthy offspring with a normal Mendelian inheritance pattern of 25.7% TMwt/wt, 46.6% TMwt/cyt, and 27.7% TMcyt/cyt mice, indicating that the tail of TM is not necessary for normal fetal development. Phenotypic analyses showed that the TMcyt/cyt mice responded identically to their wild-type littermates after procoagulant, proinflammatory, and skin wound challenges. Plasma levels of plasminogen, plasminogen activator inhibitor 1 (PAI-1), and alpha2-antiplasmin were unaltered, but plasmin:alpha2-antiplasmin (PAP) levels were significantly lower in TMcyt/cyt mice than in TMwt/wt mice (0.46 +/- 0.2 and 1.99 +/- 0.1 ng/mL, respectively; P <.001). Tissue levels of TM antigen were also unaffected. However, functional levels of plasma TM in the TMcyt/cyt mice, as measured by thrombin-dependent activation of protein C, were significantly increased (P <.001). This supported the hypothesis that suppression in PAP levels may be due to augmented activation of thrombin-activatable fibrinolysis inhibitor (TAFI), with resultant inhibition of plasmin generation. In conclusion, these studies exclude the cytoplasmic domain of TM from playing a role in the early embryonic lethality of TM-null mice and support its function in regulating plasmin generation in plasma.
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PMID:Structure-function analyses of thrombomodulin by gene-targeting in mice: the cytoplasmic domain is not required for normal fetal development. 1023 96

Plasma and platelet factor Va represent different substrates for activated protein C (APC). In this study, we have measured platelet-dependent APC resistance and the effect of aspirin and a platelet glycoprotein IIbIIIa antagonist (GR144053F) on this phenomenon. In platelet rich plasma (PRP), progressive APC resistance was observed with increasing platelet activation. APC sensitivity ratios of 1.8, 1.7, and 1.4 were observed after platelet activation with thrombin receptor activating peptide (TRAP), collagen, and A23187, respectively. Ultracentrifugation at 77,000g for 1 hour abolished APC resistance indicating that the phenotype is associated exclusively with the platelet membrane. APC resistance was not observed in the presence of phosphatidylcholine-phosphatidylserine (PCPS) vesicles or purified human plasma lipoproteins. APC resistance was observed in the presence of platelet-derived microparticles, but to a lesser degree than that in the presence of activated platelets. The platelet-dependent APC resistance phenotype was also observed when endogenous APC was generated by Protac (American Diagnostica, Inc, Greenwich, CT). In vitro inhibition of platelet activation with aspirin had no effect, but the fibrinogen receptor antagonist, GR144053F, inhibited platelet-dependent APC resistance. These results indicate that platelet activation results in an APC-resistant phenotype comparable to that observed in the plasma of patients with factor V gene mutations affecting critical APC cleavage sites. This suggests that platelet activation at the site of endothelial damage downregulates a critical natural anticoagulant mechanism. The antithrombotic effect of aspirin may be due to an indirect effect on platelet-dependent APC resistance with reduced platelet retention within a developing thrombus. The more potent antithrombotic effect of glycoprotein IIbIIIa antagonists may in addition be the result of reduced platelet factor Va expression and modulation of the platelet-dependent APC resistance phenotype.
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PMID:Activated protein C resistance: effect of platelet activation, platelet-derived microparticles, and atherogenic lipoproteins. 1033 85

Beta2-glycoprotein I (beta2GPI) is a plasma glycoprotein with unknown physiological function(s). In in vitro experiments it has been demonstrated that beta2GPI has both anticoagulant properties, such as the inhibition of factor X and prothrombin activation and procoagulant properties, such as the inhibition of the anticoagulant activity of activated protein C. Besides this, beta2GPI bound to cardiolipin is recognized by antiphospholipid antibodies (aPL). In this study we demonstrate that beta2GPI is very sensitive for cleavage between Lys317 and Thr318 by plasmin, resulting in two immunologically different cleaved forms. In vitro experiments show that these plasmin cleaved forms of beta2GPI bind to negatively charged phospholipids with much lower affinity compared to intact beta2GPI. Similar to plasmin, trypsin and elastase can also induce this proteolytical cleavage in beta2GPI, whereas thrombin and factor Xa do not cleave beta2GPI. The in vivo occurrence of the proteolytical cleavage was demonstrated by the finding that in plasmas of patients with disseminated intravascular coagulation (DIC) and in plasmas of patients treated with streptokinase, significant amounts of cleaved beta2GPI (up to 12 microg/ml) are present. During the development of DIC, the increase in levels of cleaved beta2GPI is accompanied by a 70% decrease in the levels of intact beta2GPI, whereas in streptokinase treated patients levels of intact beta2GPI stay within the normal range. This study demonstrates for the first time that during in vivo activation of fibrinolysis beta2GPI is cleaved. which results in the formation of a form of beta2GPI with much lower affinity for negatively charged phospholipids. Plasmin is most likely responsible for this modification.
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PMID:Beta2-glycoprotein I is proteolytically cleaved in vivo upon activation of fibrinolysis. 1034 17

Thrombomodulin (TM) is an endothelial cell glycoprotein that acts as an anticoagulant. Mutation in the TM gene is a potential risk factor for thrombosis. The first TM mutation identified was a heterozygous substitution of T for G at nucleotide position 1456, which predicted Asp468 with Tyr in a Ser/Thr-rich domain. To evaluate the reported TM gene mutation as a possible cause of thrombosis, we transiently tranfected a vector for TM gene carrying the mutation to mammalian COS7 cells. TM antigen levels in lysates of cells transfected with variant TM were comparable to those in preparations of normal TM. The TM cofactor activity for protein C (PC) activation on the variant TM-expressing cells was similar to that of the control. The Michaelis constant Km and Vmax. of variant TM for PC activation were shown to be similar compared to those of normal TM. The affinity of each TM for thrombin in PC activation was also similar. We obtained several stable cell lines expressing normal and variant TM. Lysate of the cell lines with normal and variant TM genes had a similar expression level of TM antigen. Pulse-chase analysis showed that normal and variant TM were glycosylated and resistant to endoglycosidase H, indicating that the variant TM was expressed on the cell surface in a mature form. Variant TM protein is apparently expressed on the cell surface with normal cofactor activity for PC activation. It is unlikely that the TM variant directly causes thrombosis by mechanism of reduced expression or impaired cofactor activity for PC activation, which comprises a major anticoagulant activity of TM.
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PMID:Thrombomodulin with the Asp468Tyr mutation is expressed on the cell surface with normal cofactor activity for protein C activation. 1046 Jun

Accelerated thrombin generation is central to the development of hemostatic abnormalities during cardiopulmonary bypass (CPB) that are associated with both thromboembolic complications and serious, abnormal bleeding. Thrombin not only converts fibrinogen to fibrin, but also activates platelets and coagulation factors V, VIII, and XI and causes release of von Willebrand factor from vascular endothelium. Thrombin can also downregulate the hemostatic system by inducing formation of platelet inhibitory agents, such as nitric oxide and prostacyclin, and release of tissue plasminogen activator, facilitating activation of protein C, and releasing tissue factor pathway inhibitor. Excessive thrombin activity may also result in substantial consumption of platelets, fibrinogen, and labile coagulation factors and abnormal bleeding. Elevated tissue plasminogen activator levels secondary to activation of the contact system and surgery catalyze the formation of plasmin, which also consumes or internalizes platelet glycoprotein receptors and coagulation factors V, VIII, and fibrinogen. Heparin can reduce the generation of and mediate neutralization of excessive and CPB-associated thrombin activity. Heparin anticoagulation is commonly monitored with the activated clotting time (ACT). However, the ACT may be prolonged by factors other than heparin during CPB, such as hemodilution and hypothermia, and therefore may not accurately reflect the extent of anticoagulation by heparin. Aprotinin, a nonspecific serine protease inhibitor used with CPB, can also prolong celite-based ACT values, rendering it less reliable for monitoring heparin anticoagulation. Therefore, several alternative anticoagulation strategies have been recommended when aprotinin is used, such as a higher celite ACT trigger (>750 seconds), monitoring of whole blood heparin concentrations (eg, >2.7 U/mL), or administration of heparin based on a CPB duration-dependent, fixed-dose regimen. Administration of heparin doses higher than those generally recommended, as guided by predetermined, patient-specific whole blood heparin concentration measurements during bypass, can reduce excessive thrombin-mediated consumption of platelets and coagulation factors as well as post-CPB blood loss and blood component transfusions. New modalities of improving suppression of excess thrombin generation during CPB include use of heparin-bonded CPB circuits, heparin cofactor II or related analogs, supplemental antithrombin III, direct thrombin inhibitors (eg, hirudin, argatroban), and inhibitors of the contact and tissue factor pathways. The safety and efficacy of these approaches remains to be established by additional, appropriately powered, prospective studies.
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PMID:Anticoagulation and anticoagulation reversal with cardiac surgery involving cardiopulmonary bypass: an update. 1046 45

Thrombin formation and blood platelet reactions are intimately linked in haemostasis and in thrombosis. In vivo, procoagulant phospholipids required for the coagulation mechanism are mainly provided by activated platelets, and thrombin is the most potent platelet activator. To study these interactions, an ancient tool of coagulation physiology, the thrombin generation test, was revived and the results obtained were reviewed. The amount of thrombin activity that develops, expressed as the endogenous thrombin potential (the area under the thrombin generation curve), is influenced by the clotting factors (except XII and XIII), the activated protein C system and natural inhibitors on the one hand and by platelet activity on the other. The platelet reactions that we found to be involved are induced by thrombin via glycoprotein (GP) IIb/IIIa activation and by fibrin via interaction with GPIb. von Willebrand factor is crucial in both reactions and therefore an obligatory factor for normal thrombin generation in the presence of platelets. All antithrombotics, be it anticoagulants (e.g. OAC, all heparins or hirudin) or antiplatelet drugs (aspirin, GPIIb/IIIa blockers) diminish thrombin generation.
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PMID:On the coagulation of platelet-rich plasma. Physiological mechanism and pharmacological consequences. 1049 34


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