UNIPROT:P00750 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dipeptidyl peptidase IV (DPP4/CD26) and seprase/fibroblast activation protein alpha are homologous type II transmembrane, homodimeric glycoproteins that exhibit unique prolyl peptidase activities. Human DPP4 is ubiquitously expressed in epithelial and endothelial cells and serves multiple functions in cleaving the penultimate positioned prolyl bonds at the NH(2) terminus of a variety of physiologically important peptides in the circulation. Recent studies showed a linkage between DPP4 and down-regulation of certain chemokines and mitogenic growth factors, and degradation of denatured collagens (gelatin), suggesting a role of DPP4 in the cell invasive phenotype. Here, we found the existence of a novel protease complex consisting of DPP4 and seprase in human endothelial cells that were activated to migrate and invade in the extracellular matrix in vitro. DPP4 and seprase were coexpressed with the three major protease systems (matrix metalloproteinase, plasminogen activator, and type II transmembrane serine protease) at the cell surface and organize as a complex at invadopodia-like protrusions. Both proteases were colocalized at the endothelial cells of capillaries, but not large blood vessels, in invasive breast ductal carcinoma in vivo. Importantly, monoclonal antibodies against the gelatin-binding domain of DPP4 blocked the local gelatin degradation by endothelial cells in the presence of the major metallo- and serine protease systems that modified pericellular collagenous matrices and subsequent cell migration and invasion. Thus, we have identified a novel mechanism involving the DPP4 gelatin-binding domain of the DPP4-seprase complex that facilitates the local degradation of the extracellular matrix and the invasion of the endothelial cells into collagenous matrices.
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PMID:The protease complex consisting of dipeptidyl peptidase IV and seprase plays a role in the migration and invasion of human endothelial cells in collagenous matrices. 1665 16

Many studies have suggested the hypothesis that the plasminogen activator (PA) system and the matrix metalloproteinase (MMP) system, either separately or in combination, may provide the proteolytic activity that is required for rupture of the follicular wall at the time of ovulation. Our recent studies on ovulation in plasminogen (plg)-deficient mice have, however, shown that plasmin is not required for normal ovulation, leading us to the hypothesis that MMPs may be a more important source of proteolysis for this process. To investigate the role of MMPs and also the possibility of a functional overlap or synergy between the MMP and PA systems during ovulation, we have studied ovulation efficiency in wild-type and plg-deficient mice treated with the broad-spectrum MMP inhibitor galardin. We found that in both wild-type mice and heterozygous plg-deficient (plg+/-) mice that had been treated with galardin prior to ovulation, there was a mild (18-20%) reduction in ovulation efficiency. Surprisingly, galardin treatment of plg-deficient (plg-/-) mice only caused an additional 14% reduction in ovulation efficiency as compared to vehicle-treated plg-/- mice. Our data therefore suggest that although MMPs may play a role in degradation of the follicular wall, they may not be obligatory for ovulation. In contrast to previous studies on tissue remodeling during wound healing and placental development, we have demonstrated that there is no obvious functional overlap or synergy between the PA and MMP systems, which has previously been thought to be essential for the ovulatory process.
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PMID:Successful ovulation in plasminogen-deficient mice treated with the broad-spectrum matrix metalloproteinase inhibitor galardin. 1671 32

Simultaneous ablation of the two known activators of plasminogen (Plg), urokinase-type (uPA) and the tissue-type (tPA), results in a substantial delay in skin wound healing. However, wound closure and epidermal re-epithelialization are significantly less impaired in uPA;tPA double-deficient mice than in Plg-deficient mice. Skin wounds in uPA;tPA-deficient mice treated with the broad-spectrum matrix metalloproteinase (MMP) inhibitor galardin (N-[(2R)-2-(hydroxamido-carbonylmethyl)-4-methylpentanoyl]-L-tryptophan methylamide) eventually heal, whereas skin wounds in galardin-treated Plg-deficient mice do not heal. Furthermore, plasmin is biochemically detectable in wound extracts from uPA;tPA double-deficient mice. In vivo administration of a plasma kallikrein (pKal)-selective form of the serine protease inhibitor ecotin exacerbates the healing impairment of uPA;tPA double-deficient wounds to a degree indistinguishable from that observed in Plg-deficient mice, and completely blocks the activity of pKal, but not uPA and tPA in wound extracts. These findings demonstrate that an additional plasminogen activator provides sufficient plasmin activity to sustain the healing process albeit at decreased speed in the absence of uPA, tPA and galardin-sensitive MMPs and suggest that pKal plays a role in plasmin generation.
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PMID:Plasminogen activation independent of uPA and tPA maintains wound healing in gene-deficient mice. 1676 60

The effects of albendazole and Yin-Chen-Extract co-therapy on Angiostrongylus cantonensis-induced eosinophilic meningitis in BALB/c mice were evaluated. Assay indicators for the therapeutic effect include worm recovery, histopathological score of the fourth ventricle, tissue-type plasminogen activator, urokinase-type plasminogen activator, matrix metalloproteinase-9, cerebrospinal fluid total protein, leukocyte counts, and proinflammatory cytokines. As a result, albendazole and Yin-Chen-Extract co-therapy significantly decreased (P < 0.05) these factors. Although Yin-Chen-Extract may possess pharmacologic activities beneficial to the inhibition of parasite-induced inflammation, many of these hypothetical benefits await scientific testing and confirmation before application. This study suggests that the combination of Yin-Chen-Extract and albendazole has synergistic effects in managing eosinophilic meningitis or eosinophilic meningoencephalitis.
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PMID:Chinese herbal medicine Yin-Chen-Extract as an adjunct to anthelmintic albendazole used against Angiostrongylus cantonensis-induced eosinophilic meningitis or meningoencephalitis. 1696 41

Corpus luteum (CL) formation involves dramatic tissue remodeling and angiogenesis. To determine the functional roles of the plasminogen activator and matrix metalloproteinase (MMP) systems in these processes, we have studied CL formation and function in plasminogen (plg)-deficient mice, with or without treatment with the broad-spectrum synthetic MMP inhibitor galardin. Both the adult pseudopregnant CL model and the gonadotropin-primed immature mouse model were used. We found that CL formed normally not only in plasminogen-deficient mice and in galardin-treated wild-type mice, but also in galardin-treated plg-deficient mice, suggesting that neither of the plasminogen activator and MMP systems is essential for CL formation. Nevertheless, in plg-deficient mice, serum progesterone levels were reduced by approximately 50%, and the progesterone levels were not reduced further by galardin treatment. When CL from plg-deficient mice were stained for several molecular markers for CL development and regression, they appeared healthy and vascularized, and were indistinguishable from CL from wild-type mice. This implies that the reduced progesterone levels were not caused by impaired CL formation. Taken together, our data suggest that neither plasmin nor MMPs, alone or in combination, are required for CL formation. Therefore, the tissue remodeling and angiogenesis processes during CL formation may be mediated by redundant protease systems. However, the reduced serum progesterone levels in plg-deficient mice suggest that plasmin, but not MMPs, plays a role in maintenance of luteal function. This role may be performed through proteolytic activation of growth factors and other paracrine factors.
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PMID:Functional corpora lutea are formed in matrix metalloproteinase inhibitor-treated plasminogen-deficient mice. 1712 79

Tobacco smoking is an important risk factor for the development of severe periodontitis. Recently, we showed that nicotine affected mineralized nodule formation, and that nicotine and lipopolysaccharide stimulated the formation of osteoclast-like cells by increasing production of macrophage colony-stimulating factor (M-CSF) and prostaglandin E2 (PGE2) by human osteoblastic Saos-2 cells. In the present study, we examined the effects of nicotine on the expression of matrix metalloproteinases (MMPs), tissue inhibitors of matrix metalloproteinases (TIMPs), the plasminogen activation system including the component of tissue-type plasminogen activator (tPA), urokinase-type PA (uPA), and PA inhibitor type 1 (PAI-1), alpha7 nicotine receptor, and c-fos. We also examined the effect of the nicotine antagonist D-tubocurarine on nicotine-induced expression of MMP-1. Gene expression was examined using real-time polymerase chain reaction (PCR) to estimate mRNA levels. In addition, expression of the MMP, TIMP, uPA, tPA, and PAI-1 proteins was determined by Western blotting analysis. Nicotine treatment caused expression of MMP-1, 2, 3, and 13, but not MMP-14, to increase significantly after 5 or 10 d of culture; MMP-14 expression did not change through day 14. Enhancement of MMP-1 expression by nicotine treatment was eliminated by simultaneous treatment with D-tubocurarine. In the presence of nicotine, expression of uPA, PAI-1, or TIMP-1, 2, 3, or 4 did not change over 14 d of culture, whereas expression of tPA increased significantly by day 7. Nicotine also increased expression of the alpha7 nicotine receptor and c-fos genes. These results suggest that nicotine stimulates bone matrix turnover by increasing production of tPA and MMP-1, 2, 3, and 13, thereby tipping the balance between bone matrix formation and resorption toward the latter process.
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PMID:Nicotine treatment induces expression of matrix metalloproteinases in human osteoblastic Saos-2 cells. 1715 81

Tetracyclines inhibit matrix metalloproteinases (MMPs) and reduce infarction volume following cerebral ischemia. In this thesis an involvement of urokinase could be proven. Cerebral ischemia in rats was induced for 3 h followed by 24 h reperfusion (suture model). Each 6 animals received orally either doxycycline or water. Doxycycline treatment began 10 days before ischemia. MMP-2 and MMP-9 were substantially decreased. The possibility of involvement of the endogenous MMP inhibitors in the MMP inhibiting mechanisms was excluded. The plasminogen activator uPA was significantly decreased by doxycycline indicating an MMP inhibiting mechanism including the plasminogen/plasmin system. In the doxycycline group, this resulted in a decreased damage to the cerebral microvessels and less loss of the basal lamina antigen collagen type IV. Hemoglobin extravasation was also significantly reduced. Our results suggest that doxycycline may have a potential use as an anti-ischemic compound since it provides microvascular protection by inhibiting the plasminogen system.
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PMID:Doxycycline inhibits MMPs via modulation of plasminogen activators in focal cerebral ischemia. 1716 29

The role of matrix-degrading enzymes, particularly plasminogen activators and matrix metalloproteinases, in the acute wound healing response has been the focus of many scientific studies. Only recently have these classes of endogenously produced proteinases been studied with regard to their involvement in the chronic wound environment. Using both in situ histologic zymography and immunohistochemical techniques, we examined the distribution of plasminogen activators and matrix metalloproteinase in the granulation tissue of pressure ulcers. Using in situ histologic zymography, urokinase was found to be the predominant plasminogen activator activity in the chronic wound granulation tissue, with little or no tissue-type plasminogen activator activity. These results were confirmed with the use of immunohistochemical techniques. In contrast, tissue-type plasminogen activator was found to be constitutively expressed in normal skin. Levels of matrix metalloproteinases were also found to be elevated in the granulation tissue of pressure ulcers. Immunohistochemical localization of leukocyte-associated proteinases (PMN elastase and cathepsin G) suggested a highly inflamed environment within the pressure ulcer granulation tissue. These results suggest a highly proteolytic environment within the chronic wound.
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PMID:Involvement of proteolytic enzymes--plasminogen activators and matrix metalloproteinases--in the pathophysiology of pressure ulcers. 1717 53

The use of blood biomarkers is getting increasingly popular in the field of cerebrovascular diseases, since biomarkers might aid physicians in several steps of stroke evaluation. We will discuss whether stroke diagnosis might be possible using some specific brain biomarkers and if this approach will permit rapid referral of stroke patients to hospitals with acute treatments such as tissue plasminogen activator (t-PA) available. Although thrombolytic therapy in acute stroke is effective since it accelerates clot lyses and earlier restoration of blood flow, up to 40-50% of treated patients do not recanalize or do it too late, and between 6 and 15% suffer hemorrhagic transformations with high death rates. In the context of the neurovascular unit, t-PA may degrade extracellular matrix integrity and increase risks of neurovascular cell death, blood-brain barrier leakage, edema and hemorrhage. In humans, biomarkers such as matrix metalloproteinase-9 (MMP-9) or fibronectin, which might be used to select patients at higher risk of hemorrhagic transformation, and high plasminogen activator inhibitor-1 (PAI-1) interfering with tPA-induced recanalization, thus predicting clot-lyses resistance and poor outcome, have been recently identified. Moreover, high levels of MMP-9 and MMP-13 are involved in DWI lesion growth in spite of thrombolytic therapy suggesting its ultra-early role in brain injury. Other biomarkers such as C-reactive protein may accurately predict stroke mortality following reperfusion therapies. Finally, we will also show that genetic background of stroke patients may condition plasma levels of some of these biomarkers and influence therapeutic response in t-PA-treated patients.
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PMID:Stroke biomarkers: Can they help us to guide stroke thrombolysis? 1747 98

Growth plate chondrocytes produce proteoglycan-rich type II collagen extracellular matrix (ECM). During cell maturation and hypertrophy, ECM is reorganized via a process regulated by 1alpha,25(OH)(2)D(3) and involving matrix metalloproteinases (MMPs), including MMP-3 and MMP-2. 1alpha,25(OH)(2)D(3) regulates MMP incorporation into matrix vesicles (MVs), where they are stored until released. Like plasma membranes (PM), MVs contain the 1alpha,25(OH)(2)D(3)-binding protein ERp60, phospholipase A(2) (PLA(2)), and caveolin-1, but appear to lack nuclear Vitamin D receptors (VDRs). Chondrocytes produce 1alpha,25(OH)(2)D(3) (10(-8)M), which binds ERp60, activating PLA(2), and resulting lysophospholipids lead to MV membrane disorganization, releasing active MMPs. MV MMP-3 activates TGF-beta1 stored in the ECM as large latent TGF-beta1 complexes, consisting of latent TGF-beta1 binding protein, latency associated peptide, and latent TGF-beta1. Others have shown that MMP-2 specifically activates TGF-beta2. TGF-beta1 regulates 1alpha,25(OH)(2)D(3)-production, providing a mechanism for local control of growth factor activation. 1alpha,25(OH)(2)D(3) activates PKCalpha in the PM via ERp60-signaling through PLA(2), lysophospholipid production, and PLCbeta. It also regulates distribution of phospholipids and PKC isoforms between MVs and PMs, enriching the MVs in PKCzeta. Direct activation of MMP-3 in MVs requires ERp60. However, when MVs are treated with 1alpha,25(OH)(2)D(3), PKCzeta activity is decreased and PKCalpha is unaffected, suggesting a more complex feedback mechanism, potentially involving MV lipid signaling.
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PMID:1alpha,25(OH)2D3 is an autocrine regulator of extracellular matrix turnover and growth factor release via ERp60 activated matrix vesicle metalloproteinases. 1722 70

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