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Target Concepts:
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Query: EC:3.4.21.68 (
tissue plasminogen activator
)
11,311
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Data from recent prospective studies of hemostasis and thrombosis indicate that the plasma concentration of endogenous
tissue-type plasminogen activator
(tPA) is often elevated years in advance of a first arterial occlusion. Specifically, among healthy subjects with no prior cardiovasacular disease, the risk of future myocardial infarction and stroke appears to be three to four times higher among subjects with high baseline levels of tPA antigen as compared to subjects with lower levels. Whether this relationship represents activation of the endogenous fibrinolytic system in response to the presence of preclinical atherosclerosis or is a reflection of elevated concentrations of local plasminogen activator inhibitors is currently unresolved. However, cross-sectional data indicate that the plasma concentration of
IPA
antigen is related to several traditional atherosclerotic risk factors, including HDL cholesterol, findings that further support a direct relationship between endogenous
IPA
and vascular risk. In concert with data concerning the primary inhibitors of plasminogen activation, it has been hypothesizd that the endogenous fibrinolytic system varies within the general population such that certain individuals are prone to thrombosis, whereas others may be prone to hemorrhage. Thus, observations regarding fibrinolytic activation and inhibition raise the possibility that assessment of the intrinsic fibrinolytic system may prove useful in identifying individuals at increased risk for vascular thrombosis. In addition, available findings suggest that therapeutic agents capable of favorably shifting the net filerinolytic balance may provide a new strategy for cardiovascular disease prevention.
...
PMID:Plasma Concentration of Endogenous Tissue Plasminogen Activator and the Occurrence of Future Cardiovascular Events. 1060 9
The thrombolytic, recombinant
tissue plasminogen activator
(rt-PA) is the only approved therapy for acute ischemic stroke (AIS). When administered after AIS, rt-PA has many adverse pleiotropic actions, which are currently poorly understood. The identification of proteins showing differential expression after rt-PA administration may provide insight into these pleiotropic actions. In this study we used a 2D-LC MS/MS iTRAQ proteomic analysis, western blotting, and pathway analysis to analyze changes in protein expression 24-hours after rt-PA administration in the cortical brain tissue of 36 rats that underwent a sham or transient middle cerebral artery occlusion surgery. After rt-PA administration we reported alterations in the expressions of 18 proteins, many of which were involved in excitatory neurotransmitter function or cytoskeletal structure. The expression changes of GAD2 and EAAT1 were validated with western blot. The interactions between the identified proteins were analyzed with the
IPA
pathway analysis tool and three proteins: DPYSL2, RTN4, and the NF-kB complex, were found to have characteristics of being key proteins in the network. The differential protein expressions we observed may reflect pleiotropic actions of rt-PA after experimental stroke, and shine light on the mechanisms of rt-PA's adverse effects. This may have important implications in clinical settings where thrombolytic therapy is used to treat AIS.
...
PMID:Neuroproteome changes after ischemia/reperfusion injury and tissue plasminogen activator administration in rats: a quantitative iTRAQ proteomics study. 2487 61
