Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The annexin A2 (A2) heterotetramer, consisting of two copies of A2 and two copies of S100A10/p11, promotes fibrinolytic activity on the surface of vascular endothelial cells by assembling plasminogen and tissue plasminogen activator (tPA) and accelerating the generation of plasmin. In humans, overexpression of A2 by acute promyelocytic leukemia cells is associated with excessive fibrinolysis and hemorrhage, whereas anti-A2 autoantibodies appear to accentuate the risk of thrombosis in patients with anti-phospholipid syndrome. Complete deficiency of A2 in mice leads to a lack of tPA cofactor activity, accumulation of intravascular fibrin, and failure to clear arterial thrombi. Within the endothelial cell, p11 is required for Src kinase-mediated tyrosine phosphorylation of A2, which signals translocation of both proteins to the cell surface. Here we show that p11 is expressed at very low levels in the absence of A2 both in vitro and in vivo. We demonstrate further that unpartnered p11 becomes polyubiquitinated and degraded via a proteasome-dependent mechanism. A2 stabilizes intracellular p11 through direct binding, thus masking an autonomous p11 polyubiquitination signal that triggers proteasomal degradation. This interaction requires both the p11-binding N-terminal domain of A2 and the C-terminal domain of p11. This mechanism prevents accumulation of free p11 in the endothelial cell and suggests that regulation of tPA-dependent cell surface fibrinolytic activity is precisely tuned to the intracellular level of p11.
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PMID:Endothelial cell annexin A2 regulates polyubiquitination and degradation of its binding partner S100A10/p11. 1843 2

Protein C (PC) deficiency and plasmin inhibitor (PI) deficiency are inherited thrombotic and haemorrhagic disorders. We investigated the intracellular degradation of mutant proteins, using naturally occurring PC and PI mutants that lead to congenital deficiencies. To examine the necessity of N-linked glycosylation for the proteasomal degradation of PC and PI, PC178 and PC331 mutants treated with tunicamycin and N-glycosylation-lacking mutants, PC92Stop and PI-America were pulse chased. The analysis revealed that the speed of degradation of the tunicamycin-treated PC mutants, PC92Stop and PI-America lacking glycosylation, was slower than that of N-glycosylated mutants. Immunoprecipitation and immunoblot analysis showed that PC178 and PC331 mutants were associated with molecular chaperones, Bip, GRP94, and calreticulin. PI-America was associated with only Bip. Although degradation of mutants was mediated by proteasomes, no association with ubiquitin was detected. Cotransfection of endoplasmic reticulum (ER) degradation enhancing alpha-mannosidase-like protein (EDEM) accelerated the degradation of N-glycosylated PC. In the absence of autophagy using Atg5-deficient cell lines, the degradation of the PC331 mutant was mildly accelerated but that of PC178, PI-America and PI-Okinawa mutants was not influenced. While the degradation of the PC and PI mutants was facilitated by N-glycosylation moieties, they were ubiquitin-independently degraded by proteasomes, irrespective of the presence or absence of N-glycosylation. Molecular chaperone binding was influenced by the presence of N-glycosylation moieties. When the misfolded or truncated mutant proteins are functionally active, proteasome inhibitors such as bortezomib may have therapeutic potential for treatment of protein deficiencies.
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PMID:Proteasome degradation of protein C and plasmin inhibitor mutants. 1876 55

Vascular endothelial cell surface expression of annexin A2 and its binding partner p11 is a key element in maintaining fibrinolytic balance on blood vessel surfaces. In the recent decade, investigators have made significant progress toward understanding the mechanisms that regulate heterotetrameric (A2*p11)(2) receptor translocation from the cytoplasm to the outer cell surface. Accumulating evidence now shows that heterotetrameric (A2*p11)(2) cell surface expression is a dynamic process that modulates plasmin activation during periods of vascular stress or injury, and is independent of the classical endoplasmic reticulum-Golgi pathway. Translocation of heterotetrameric (A2*p11)(2) is facilitated both by src-kinase mediated phosphorylation of A2 at tyrosine 23, and by expression of and partnering with p11. In the absence of A2 both in vivo and in vitro, p11 is expressed at very low levels in endothelial cells, because unpartnered p11 is polyubiquitinated and rapidly degraded through a proteasome-dependent mechanism. A2 directly binds and stabilizes intracellular p11 by masking an autonomous polyubiquitination signal on p11. This modulatory role of A2 binding prevents accumulation of unpartnered p11 within the endothelial cell, and ultimately suggests that the regulation of heterotetrameric (A2*p11)(2) receptor surface expression is precisely attuned to the intracellular level of p11.
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PMID:The endothelial cell annexin A2 system and vascular fibrinolysis. 2009 22

Mangiferin is a natural xanthone glycoside with therapeutic potential. Herein, its cytotoxic properties were explored in a human cell model of breast adenocarcinoma. The results supported the multi-target nature of mangiferin action, as the inhibition of three enzymatic systems, namely HMG-CoA reductase, the proteasome and plasmin, respectively in charge of regulating cholesterol homeostasis, protein turnover and cell adhesion, was documented for the first time. Globally, mangiferin was able to selectively block breast cancer cell growth by inducing apoptosis and by arresting cell proliferation through a combined action on cholesterol and proteasome pathways, as well as to inhibit plasmin-mediated mechanisms of cell migration.
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PMID:Mangiferin blocks proliferation and induces apoptosis of breast cancer cells via suppression of the mevalonate pathway and by proteasome inhibition. 2772 67

Efavirenz (EFV) is an anti-HIV drug, and cytochrome P450 46A1 (CYP46A1) is the major brain cholesterol hydroxylase. Previously, we discovered that EFV activates CYP46A1 and improves behavioral performance in 5XFAD mice, an Alzheimer's disease model. Herein, the unbiased omics and other approaches were used to study 5XFAD mice in the amyloid-decreasing paradigm of CYP46A1 activation by EFV. These approaches revealed increases in the brain levels of postsynaptic density protein 95, gephyrin, synaptophysin, synapsin, glial fibrillary acidic protein, and CYP46A1 and documented altered expression and phosphorylation of 66 genes and 77 proteins, respectively. The data obtained pointed to EFV effects at the synaptic level, plasmin-depended amyloid clearance, inflammation and microglia phenotype, oxidative stress and cellular hypoxia, autophagy and ubiquitin-proteasome systems as well as apoptosis. These effects could be realized in part via changes in the Ca2+-, small GTPase, and catenin signaling. A model is proposed, in which CYP46A1-dependent lipid raft rearrangement and subsequent decrease of protein phosphorylation are central in EFV effects and explain behavioral improvements in EFV-treated 5XFAD mice.-Petrov, A. M., Mast, N., Li, Y., Pikuleva, I. A. The key genes, phosphoproteins, processes, and pathways affected by efavirenz-activated CYP46A1 in the amyloid-decreasing paradigm of efavirenz treatment.
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PMID:The key genes, phosphoproteins, processes, and pathways affected by efavirenz-activated CYP46A1 in the amyloid-decreasing paradigm of efavirenz treatment. 3106 5

Immune thrombotic thrombocytopenic purpura (iTTP) is a chronically relapsing, humorally-mediated autoimmune disorder characterized by unpredictable episodes of microangiopathic hemolytic anemia and thrombocytopenia, commonly associated with neurologic dysfunction, kidney injury, and fever. Episodes are caused by immune destruction or inhibition of the von Willebrand Factor (vWF) cleaving protease ADAMTS13. Currently, the standard of care is therapeutic plasma exchange (TPE), and most add immunosuppression with corticosteroids - a standard that is unchanged for nearly 30 years. There are multiple strategies for adding corticosteroids to TPE and the limited data available suggests that corticosteroids reduce the duration of ADAMTS13 deficiency in iTTP. Rituximab is also frequently used in the treatment of iTTP and evidence suggests that while it may not reduce the number TPE procedures required to induce remission, it likely increases relapse-free survival. Novel approaches to immunosuppression that have been reported include low-dose rituximab (also currently in clinical trials) and proteasome inhibition. A more targeted approach includes the anti-vWF nanobody, caplacizumab, recently approved for iTTP in Europe and United States, which in two large randomized controlled trials significantly shortened the time to normalization of platelet count, appreciably lowered the 30-day recurrence rate, and decreased the rate of the composite endpoint of death, recurrence, and major thromboembolic events. Recombinant ADAMTS13 has been tested in congenital TTP and could be tested in iTTP as well, along with novel approaches of modifying the enzyme to avoid the immune response or leveraging other vWF cleaving proteases such as plasmin to bypass ADAMTS13. Also, therapies that target preformed antibodies that are currently being tested in other humorally-mediated disorders could cross over to iTTP. Finally, progress has long been hampered in iTTP due to difficulty with accrual and disagreement about trial design. A good surrogate endpoint for relapse-free survival is also needed. Despite these challenges, a new era of precision medicine is likely soon emerging for treatment of iTTP, and with it comes the opportunity to further improve outcomes in this rare and deadly disease.
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PMID:Taking Empiricism out of Immune Thrombotic Thrombocytopenic Purpura: Current and Future Treatment Strategies. 3164 75