Gene/Protein
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Drug
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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thrombomodulin
is an endothelial cell membrane glycoprotein that promotes protein C activation. It has been clearly demonstrated that the anticoagulant functions of the protein C system are important in the prevention of thromboembolic disease. Patients with protein C or protein S deficiency and/or resistance to activated protein C (
APC
resistance) are at higher risk for developing thromboembolic disease. The first mutation in the thrombomodulin gene was discovered in an American patient suffering from pulmonary embolism at the age of 45 (Ohlin and Marlar 1995). Here we report a case of sagittal sinus thrombosis in a 42-year-old Swedish woman. She was found to carry a heterozygous point mutation changing G127 to A, predicting an Ala25 to a Thr change in the mature thrombomodulin protein. This mutation was also found in her 16-year-old daughter, who so far has not suffered from any thrombotic events. The patient had no other detectable prothrombotic genetic defects associated with the coagulation system. This case supports the hypothesis of an association between mutations in the thrombomodulin gene and venous thrombosis.
...
PMID:A novel thrombomodulin gene mutation in a patient suffering from sagittal sinus thrombosis. 936 78
The molecular links between inflammation and coagulation are unquestioned. Inflammation promotes coagulation by leading to intravascular tissue factor expression, eliciting the expression of leukocyte adhesion molecules on the intravascular cell surfaces, and down regulating the fibrinolytic and protein C anticoagulant pathways. Thrombin, in turn, can promote inflammatory responses. This creates a cycle that logically progresses to vascular injury as occurs in septic shock. Most complex systems are regulated by product inhibition. This inflammation-coagulation cycle seems to follow this same principle with the protein C pathway serving as the regulatory mechanism. The molecular basis by which the protein C pathway functions as an anticoagulant is relatively well established compared to the mechanisms involved in regulating inflammation. As one approach to identifying the mechanisms involved in regulating inflammation, we set out to identify novel receptors that could modulate the specificity of
APC
in a manner analogous to the mechanisms by which thrombomodulin modulates thrombin specificity. This approach led to the identification of an endothelial cell protein C receptor (EPCR). To understand the mechanism, we obtained a crystal structure of
APC
(lacking the Gla domain). The crystal structure reveals a deep groove in a location analogous to anion binding exosite 1 of thrombin, the location of interaction for thrombomodulin, platelet thrombin receptor and fibrinogen.
Thrombomodulin
blocks the activation of platelets and fibrinogen without blocking reactivity with chromogenic substrates or inhibitors. Similarly, in solution, EPCR blocks factor Va inactivation without modulating reactivity with protease inhibitors. Thus, these endothelial cell receptors for the protein C system share many properties in common including the ability to be modulated by inflammatory cytokines. Current studies seek to identify the substrate for the
APC
-EPCR complex as the next step in elucidating the mechanisms by which the protein C pathway modulates the response to injury and inflammation.
...
PMID:Inflammation, sepsis, and coagulation. 1018 92
Thrombin activatable fibrinolysis inhibitor (TAFI) is a carboxy-peptidase B-like proenzyme that after activation by thrombin downregulates fibrinolysis.
Thrombomodulin
stimulates the activation of both TAFI and protein C whereas activated protein C inhibits the activation of TAFI by downregulation of thrombin formation, a process in which protein S acts as a cofactor. Here we determined the role of protein S in the activation of TAFI and regulation of fibrinolysis. Depletion of protein S from plasma or inhibition of protein S by specific antibodies resulted in an increased rate of TAFI activation and in an increased maximum of TAFIa activity generated. The effect on the rate of TAFI activation could be attributed to the
APC
-independent anticoagulant function of protein S whereas the effect on the maximum activity could be attributed to the
APC
cofactor function of protein S. Therefore it is concluded that protein S inhibits TAFI activation in two ways. On one hand, protein S functions as a cofactor for
APC
which results in a reduction of the maximum induced TAFI activity and on the other hand protein S inhibits the initial thrombin formation independently of
APC
which results in a decreased rate of TAFI activation. The effect of the
APC
-independent anticoagulant activity of protein S on the activation of TAFI provides a new mechanism for the regulation of fibrinolysis in the early stages of clot formation.
...
PMID:The role of protein S in the activation of thrombin activatable fibrinolysis inhibitor (TAFI) and regulation of fibrinolysis. 1168 22
Bleeding tendency in factor (F)XI deficiency may result from premature clot lysis due to insufficient thrombin activatable fibrinolysis inhibitor (TAFI) activation.
Thrombomodulin
(TM), upon binding to thrombin, is capable of modulating TAFI activation. In this study, we investigated the effects of plasma TM on fibrinolysis in FXI-deficient patients. A clot lysis assay showed the defective down-regulation of fibrinolysis in FXI-deficient patients as compared with normal controls. To evaluate the effects of plasma TM on fibrinolysis, a monoclonal anti-TM IgG was preincubated with plasma for 30 min. The presence of anti-TM IgG significantly prolonged the clot lysis times both in the FXI-deficient and normal plasma, indicating that plasma TM stimulated fibrinolysis. Furthermore, the presence of anti-TM IgG not only reduced protein C activation, but also increased thrombin generation and TAFI activation. The profibrinolytic effect of plasma TM was inhibited in the assay by including either a monoclonal anti-TAFI IgG or a specific TAFI inhibitor--carboxypeptidase inhibitor (CPI). Our results indicate that the impaired thrombin generation in FXI-deficient patients leads to the defective down-regulation of fibrinolysis, and that plasma TM stimulates fibrinolysis through
APC
pathway which inhibits TAFI activation. The profibrinolytic effect of plasma TM may contribute to the bleeding tendency observed in some FXI-deficient patients.
...
PMID:The profibrinolytic effect of plasma thrombomodulin in factor XI deficiency and its implications in hemostasis. 1561 27
CpG island hypermethylation is frequently found during gastric carcinogenesis. We investigated methylation profiles of p16, LOX, HAND1,
THBD
, p41ARC, and
APC
along multistep gastric carcinogenesis and determined their association with Helicobacter pylori infection. Methylation levels in these six genes were evaluated in noncancerous gastric biopsy specimens using quantitative methylation-specific PCR in 459 patients with gastric cancer (GC), 137 with dysplasia, and 248 controls. Controls were divided into four subgroups sorted by current H. pylori infection status (active vs past or negative infection) and the presence of intestinal metaplasia (IM). In controls, active H. pylori infection significantly increased methylation levels in
THBD
, LOX, and HAND1 (all P < 0.001), and hypermethylation of
THBD
, HAND1, and
APC
was associated with IM. Aberrant DNA hypermethylation was correlated well with activity of H. pylori-associated gastritis. However, methylation levels in LOX, HAND1,
THBD
, and p41ARC remained increased in cases with past H. pylori infection compared to those that were H. pylori negative (all P < 0.05). Hypermethylation of
THBD
, and possibly p16, was significantly associated with GC, regardless of the status of current H. pylori infection (all P < 0.05). These results suggest that aberrant DNA hypermethylation caused by H. pylori-associated gastritis occurs in a gene-specific manner along gastric carcinogenesis, which can be persistent even after the disappearance of H. pylori. Aberrant methylation of
THBD
might provide a link between H. pylori infection and development of GC.
...
PMID:Role of Helicobacter pylori infection in aberrant DNA methylation along multistep gastric carcinogenesis. 2034 86
