Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.4.21.73 (
urokinase-type plasminogen activator
)
10,685
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The aims of this study were to identify the role and sites of action of serine proteinases (SPs) in bone resorption, a process which involves a cascade of events, the central step of which is the removal of bone matrix by osteoclasts (OCs). This resorbing activity, however, is also determined by recruitment of new OCs to future resorption sites and removal of the osteoid layer by osteoblasts (OBs), which enables OCs to gain access to the underlying mineralized bone. The resorption systems we have studied consisted of (i) neonatal calvarial explants, (ii) isolated OCs cultured on ivory slices, (iii) mouse OBs cultured on either radiolabelled type I collagen films or bone-like matrix, (iv) bone marrow cultures to assess OC formation and (v) 17-day-old fetal mouse metatarsal bone rudiments to assess OC migration and fusion. Two separate SP inhibitors, aprotinin and alpha(2)-antiplasmin dose-dependently inhibited (45)Ca release from neonatal calvarial explants: aprotinin (10(-6) M) was the most effective SP inhibitor, producing a maximum inhibitory effect of 55.9%. Neither of the SP inhibitors influenced either OC formation or OC resorptive activity. In contrast, each SP inhibitor dose-dependently inhibited OB-mediated degradation of both type I collagen fibrils and non-mineralized bone matrix. In 17-day-old metatarsal explants aprotinin produced a 55% reduction in the migration of OCs from the periosteum to the mineralized matrix after 3 days in culture but after 6 days in culture aprotinin was without effect on OC migration. Primary mouse osteoblasts expressed mRNA for
urokinase
type plasminogen activator (uPA), tIssue type plasminogen activator (tPA), the type I receptor for uPA, plasminogen activator inhibitor types I and II and the broad spectrum
serine proteinase inhibitor
, protease nexin I. In situ hybridization demonstrated expression of tPA and uPA in osteoclasts disaggregated from 6-day-old mouse long bones. We propose that the regulation of these various enzyme systems within bone tIssue determines the sites where bone resorption will be initiated.
...
PMID:The effects of serine proteinase inhibitors on bone resorption in vitro. 1296 36
Maspin, a unique
serine proteinase inhibitor
(serpin), plays a key role in mammary gland development and is silenced during breast cancer progression. Maspin has been shown to inhibit tumor cell motility and invasion in cell culture, as well as growth and metastasis in animal models. In this study, we investigated the effect of maspin on the regulation of hypoxia-induced expression of
urokinase-type plasminogen activator
(
uPA
) and its receptor (uPAR), with respect to invasive potential in metastatic breast cells MDA-MB-231. We hypothesized that maspin can neutralize or mitigate hypoxia-induced expression of
uPA
/uPAR in metastatic breast cancer cells, resulting in suppression of their invasive potential. To test our hypothesis, we employed the highly invasive MDA-MB-231 breast cancer cells that are devoid of maspin, and transfected them with the maspin gene, and then determined the effect of hypoxia on
uPA
/uPAR expression. Normal mammary epithelial cells 1436N1 were used as a control. Our findings demonstrate that maspin downregulated the basal and hypoxia-induced
uPA
/uPAR expression and reduced the stimulatory effect of hypoxia on the in vitro invasive ability of MDA-MB-231-cells. In addition, maspin also inhibited the enzymatic activity of secreted and cell associated
uPA
in MDA-MB-231 cells. These results indicate that maspin inhibits hypoxia-induced invasion of metastatic breast cancer cells by blocking the
uPA
system, thus illuminating an important molecular pathway for therapeutic consideration.
...
PMID:Maspin regulates hypoxia-mediated stimulation of uPA/uPAR complex in invasive breast cancer cells. 1612 83
Esophageal Cancer-Related Gene 2 (ECRG2) is a novel member of the KAZAL-type
serine proteinase inhibitor
family and plays an important role in the inhibition of human esophageal cancer cell proliferation. The previous studies have shown that ECRG2 can bind the
urokinase-type plasminogen activator
(
uPA
)/plasmin system and inhibit its activity. In this study, the strategy of cloning, overexpression, and purification of ECRG2 for obtaining a properly folded ECRG2 with accurately formed disulfide bonds was established. The heteronuclear NMR experiments were performed with isotope labeled ECRG2 to investigate the binding interface of the protein with
uPA
. The sequence regions of ECRG2 for
uPA
binding were determined. Analysis indicates that the
uPA
-binding loops of ECRG2 are in correspondence with the reactive site loops for binding of serine proteinase in turkey ovomucoid third domain (OMTKY3). The structural similarity of ECRG2 to OMTKY3 was identified and a model for ECRG2 was proposed.
...
PMID:Mapping the putative binding site for uPA protein in Esophageal Cancer-Related Gene 2 by heteronuclear NMR method. 1882 54
The serine proteinase tissue-type plasminogen activator (tPA) and the
serine proteinase inhibitor
neuroserpin are both expressed in areas of the brain with the highest vulnerability to hypoxia/ischemia. In vitro studies show that neuroserpin inhibits tPA and, to a lesser extent,
urokinase-type plasminogen activator
and plasmin. Experimental middle cerebral artery occlusion (MCAO) increases tPA activity and neuroserpin expression in ischemic tissue, and genetic deficiency of tPA or either treatment with or overexpression of neuroserpin decreases the volume of the ischemic lesion following MCAO. These findings have led to the hypothesis that neuroserpin's neuroprotection is mediated by inhibition of tPA's alleged neurotoxic effect. Ischemic preconditioning is a natural adaptive process whereby exposure to a sublethal insult induces tolerance against a subsequent lethal ischemic injury. Here we demonstrate that exposure to sublethal hypoxia/ischemia increases the neuroserpin expression in the hippocampal CA1 layer and cerebral cortex, and that neuroserpin induces ischemic tolerance and decreases the volume of the ischemic lesion following MCAO in wild-type and tPA-deficient (tPA-/-) neurons and mice. Plasmin induces neuronal death, and this effect is abrogated by either neuroserpin or the NMDA receptor antagonist MK-801. Neuroserpin also attenuated kainic acid-induced neuronal death. Our data indicate that the neuroprotective effect of neuroserpin is due to inhibition of plasmin-mediated excitotoxin-induced cell death and is independent of neuroserpin's ability to inhibit tPA activity.
...
PMID:Neuroserpin protects neurons from ischemia-induced plasmin-mediated cell death independently of tissue-type plasminogen activator inhibition. 2086 75
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