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)

Tissue kallikrein and factor Xa were found to activate tissue plasminogen activator (t-PA) at a rate comparable with that of plasmin. During the activation reaction, the single-chain molecule was converted into a two-chain form. A slight t-PA activating activity was also found in plasma kallikrein. Other activated coagulation factors, factor XIIa, factor XIa, factor IXa, factor VIIa, thrombin and activated protein C had no effect on t-PA activation. t-PA was also activated by a tissue kallikrein-like enzyme that was isolated from the culture medium of melanoma cells. These results indicate that tissue kallikrein and factor Xa may participate in the extrinsic pathway of human fibrinolysis.
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PMID:Proteolytic activation of tissue plasminogen activator by plasma and tissue enzymes. 656 16

Direct muscle injury was induced in rats in order to evaluate alterations in the balance of serine proteases and inhibitors (serpins) as a response to tissue damage. It was previously found that certain proteases, specifically urokinase-like plasminogen activator (uPA) and others, required activation in order to effect regeneration. We hypothesized that the magnitude and temporal sequence of serpin activation would follow, pari passu, activation of their cognate proteases. In addition to uPA, tissue PA (tPA) and tissue kallikrein were the proteases studied. The serpins we analyzed were protease nexin I (PNI), PA inhibitor 1 (PAI-1, and the kallikrein-binding protein (KBP). uPA nearly doubled 48 h after injury, while there was no change in amidolytic activity after addition of fibrin monomer as an estimation of tPA activity. Tissue kallikrein activity, barely detectable in normal muscle, slowly increased, nearly tripling at 7 days after injury. Greater magnitude and more rapid changes in muscle serpins occurred over the same post-injury time course. By 24 h PNI increased threefold, while PAI-1 increased more slowly, reaching double the control values by 5 days after injury. Surprisingly, KBP, the serpin-class inhibitor of tissue kallikrein, had the most robust response, increasing tenfold over control 48 h after crush injury of muscle. These results further implicate the serpin:protease balance in tissue injury. Participation of complex receptors, such as the alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein (LRP), various growth factors, cytokines, and other molecules, in regulating this balance is implicated by these data.
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PMID:Activation of serpins and their cognate proteases in muscle after crush injury. 813 78

Tissue kallikrein mK1 is a serine protease involved in the generation of bioactive kinins for normal cardiac and arterial function in the mouse. In the present study, the tissue kallikrein gene Klk1, which codes for mK1, was shown to be one of the most prevalent of the Klk gene species in the uteri of adult mice, and its mRNA level was significantly higher at estrus than at diestrus. Klk1 mRNA expression was enhanced in the uteri of ovariectomized mice receiving estradiol-17beta treatment. Both endometrial epithelial and stromal cells isolated from the mice exhibited Klk1 expression at detectable levels when cultured in the presence of estradiol-17beta. mK1 was characterized using the recombinant active enzyme. mK1 had trypsin-like activity with a strong preference for Arg over Lys in the P1 position, and its activity was inhibited by typical serine protease inhibitors. Casein, gelatin, fibronectin, collagen type IV, and high-molecular-weight kininogen were degraded by mK1. The single-chain tissue-type plasminogen activator was converted to the two-chain form by mK1. In addition, mK1 degraded insulin-like growth factor binding protein-3. The present data suggest that mK1 may be implicated in the growth of uterine endometrial tissues during the proliferative phase.
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PMID:Estrogen-dependent expression of the tissue kallikrein gene (Klk1) in the mouse uterus and its implications for endometrial tissue growth. 1721 31