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)

Degradation of cartilage matrix macromolecules depends on the increase of metalloprotease activity. It has been suggested that interleukin 1 (IL-1) contributes to cartilage break-down by modulating the synthesis of the elements favoring an activation of these metalloenzymes. We analyzed the effect of IL-1 on the synthesis of collagenase, stromelysin, and tissue inhibitor of metalloproteases (TIMP) in human cartilage explants and culture chondrocytes, as well as its effect on the secretion of plasminogen activators (t-PA, u-PA) and inhibitors (PAI-1, PAI-2) in cartilage explants. Messenger RNA levels of collagenase and TIMP were also analyzed following chondrocyte incubation in the presence or absence of IL-1. We demonstrate that IL-1 stimulates the secretion of metalloproteases and t-PA in a dose dependent manner. At a relatively low concentration (5 pg/ml), IL-1 induced collagenase and stromelysin synthesis in parallel with a decline in TIMP secretion. While IL-1 induced collagenase gene expression, no change in the TIMP mRNA level was noted. The increase in t-PA synthesis was accompanied by a decreased PAI-1 level, while the PAI-2 level remained unchanged. u-PA could not be detected in the culture medium. This study gives insight into the ways that the synthesis, activation and inhibition of metalloproteases are modulated by IL-1. These results support the importance of IL-1 in the etiology of cartilage degeneration.
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PMID:In vitro effects of interleukin 1 on the synthesis of metalloproteases, TIMP, plasminogen activators and inhibitors in human articular cartilage. 185 Dec 31

Levels of tissue inhibitor of metalloproteases (TIMP) and plasminogen activator (PA)/plasmin were measured and the distribution of PA was studied by immunohistochemical techniques in cartilage and synovium samples from dogs subjected to sectioning of the anterior cruciate ligament of their right knees and sham operation of their left knees (controls). Twenty-three animals were divided into 3 groups and killed at 2, 4, or 8 weeks after surgery. The levels of PA and plasmin were found to be significantly elevated in the osteoarthritic (OA) knee cartilage and synovium at all times after surgery, except for levels of PA in the OA cartilage at 2 weeks. There was a positive correlation between the levels of PA and plasmin in the synovial membrane (r = 0.64, P less than 0.001). In OA knees, the presence of high levels of total and active collagenase was detected in cartilage and in synovium. The levels of these 2 forms of collagenase showed a positive correlation both in cartilage (r = 0.65, P less than 0.001) and in synovium (r = 0.77, P less than 0.001). The levels of TIMP in cartilage from OA and sham operated knees were similar. Although the TIMP level was increased in the OA synovium, it was found only in trace amounts in cartilage. Immunohistochemical studies revealed that both forms of PA, urokinase-type PA and tissue-type PA, and TIMP were present in OA tissues. In the synovium, they were found mainly in monocyte/macrophages, synovial lining cells, and blood vessel cells. In OA cartilage, PA was present only at the superficial level in chondrocytes and in cartilage matrix, whereas TIMP was present in chondrocyte lacunae throughout the full thickness of the cartilage. TIMP was also detected in the superficial level of cartilage from sham operated knees. The results of this study indicate that in OA tissues, there are conditions that favor the synthesis and activation of metalloproteases. PA and plasmin are likely to play an important role in the physiologic activation of metalloproteases, although they are probably not the only system involved in this process. The lack of increased TIMP levels in the OA cartilage, in the presence of increased metalloprotease activity, is also a possible contributing factor in the enzymatic degradation of this tissue.
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PMID:Imbalance between the mechanisms of activation and inhibition of metalloproteases in the early lesions of experimental osteoarthritis. 217 38

The balance between proteases and antiproteases in the lower respiratory tract is believed to play a role in the outcome of interstitial lung diseases. In this cross-sectional study, we measure several phagocyte derived enzymes, namely plasminogen activator, neutrophil elastase and an ill-defined protease active on the trialanine chromophore substrate succinyl-alanine3-nitroanilide (SLAPN) in bronchoalveolar lavage (BAL) fluid from 42 patients with pulmonary sarcoidosis and from 43 patients with collagen vascular disease (CVD), 22 without lung disease (group I) and 21 associated with parenchymal lung disease (group II). The results show: a) that sarcoidosis is associated with increased plasminogen activator activity and with the presence of enzymatic activity against SLAPN corresponding at least in part to a metalloprotease; b) that CVD in the absence of radiographic lung disease is associated with an increase of plasminogen activator activity and increased levels of alpha 1-antiprotease-neutrophil elastase complexes; c) that the majority of untreated CVD (group II) patients have detectable levels of neutrophil elastase activity. These data show that patients with pulmonary sarcoidosis and CVD have different enzymatic profiles in their lower respiratory tract as assessed by BAL. Thus, sarcoidosis (mostly lymphocytic) is associated with enhanced macrophage-derived proteolytic activity in BAL, while CVD patients both with and without lung disease have increased neutrophil counts and neutrophil elastase complexed to alpha 1-protease inhibitor and presumably inactive in BAL. Finally, only BAL from untreated CVD patients with interstitial lung disease contain neutrophil elastase activity. This latter activity could contribute to the lung lesions frequently observed in these disorders.
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PMID:Phagocyte enzymes in bronchoalveolar lavage from patients with pulmonary sarcoidosis and collagen vascular disorders. 218 5

A crucial event during angiogenesis is the invasion of the perivascular extracellular matrix by sprouting endothelial cells. To investigate the possible role of proteases in endothelial cell invasiveness in vitro, bovine microvascular endothelial cells (BMEC) grown on collagen gels were treated with phorbol myristate acetate (PMA), a tumor promoter that markedly increases their production of collagenase and plasminogen activator. Whereas control BMEC were confined to the surface of the gels, PMA-treated BMEC invaded the underlying collagen matrix, where they formed an extensive network of capillary-like tubular structures. This phenomenon, which mimics some of the events occurring during angiogenesis in vivo, required protein synthesis and intercellular contact, was accompanied by collagen degradation, and was prevented by the metalloprotease inhibitor 1,10-phenanthroline.
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PMID:Tumor-promoting phorbol esters induce angiogenesis in vitro. 241 23

Cultures of neurons from neonatal rat superior cervical, dorsal root, and trigeminal ganglia were grown in the absence of nonneuronal cells in serum-free defined medium. Proteins metabolically labeled with radioactive amino acids and spontaneously released into the culture medium were studied using two-dimensional gel electrophoresis and photofluorography. All three populations of neurons released 12-15 major proteins into the culture medium. Four proteins were released selectively by sympathetic neurons and two proteins were consistently released by both populations of sensory neurons but not by sympathetic neurons. Enzymatic activities are associated with at least two of the released proteins. One is a calcium-dependent metalloprotease, and the other a plasminogen activator. The calcium-dependent metalloprotease has a MW of 62 kDa, requires millimolar calcium for maximum activity, and has a restricted substrate specificity. It degraded native and denatured collagen more readily than casein, albumin, or fibronectin and denatured collagen (gelatin) was a better substrate than native collagen. The plasminogen activator released by neurons has a MW of 51 kDa and is converted to an active 32 kDa form. Its physiochemical properties are similar to urokinase and it was precipitated by a rabbit antiserum produced against human urokinase. A large fraction of both proteases was released by distal processes and/or growth cones suggesting that these proteases could be involved in growth cone functions.
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PMID:Release of plasminogen activator and a calcium-dependent metalloprotease from cultured sympathetic and sensory neurons. 298 45

The intense stromal response to some human tumors is termed the desmoplastic reaction. It is found with most human breast carcinomas. Dissolution of this response, containing predominantly fibrous proteins such as collagen and elastin, can occur with treatment. We have undertaken a study of the collagenases of the breast tumor desmoplastic reaction using a tissue culture model composed of human breast tumor cell lines and various human fibroblasts. The breast tumor cells had the higher collagenase activity, particularly the ZR75-31A cell line. Activity was 10-fold higher than that of the stromal cells. The enzyme was secreted into the media and required trypsin pretreatment for activity to be manifest. Partial purification was achieved of the major collagenase species. The protein was a metalloprotease and, like other mammalian collagenases, had a relative molecular weight of 60,000. Classical 3/4 and 1/4 cleavage products of the triple helical collagen substrate were demonstrated, typical of most mammalian collagenases. Only types I and III collagens were suitable substrates for this enzyme, with no apparent preference between the two. The breast tumor collagenases were not responsive to hormones; however, stimulation of activity was apparent in the absence of proteolytic pretreatment. This may represent conversion of the procollagenases of the breast tumor cells to the active form by an estrogen-sensitive plasminogen activator secreted by the same tumor cells.
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PMID:Collagenases in human breast carcinoma cell lines. 300 15

The invasive nature of human gliomas represents a major factor in preventing their total resection. The exact nature of the underlying mechanisms of tumor cell invasion are still unclear. In this study, we have quantitatively assayed a glioblastoma cell line for its ability to migrate through a polycarbonate filter coated with matrigel which contains a complex of multiple basement membrane components. At 48 h the glioblastoma cell line (U251) showed a rate of invasiveness of 42% and also dependent on the concentration of matrigel. The U251 cell line produced a urokinase type plasminogen activator and a 92-KDa type IV collagenase. Both enzymes were inhibited by the addition of uPA and 92-KDa type IV collagenase antibodies. Those same antibodies reduced the invasion rate of U251 cells from 42% to 12 and 21%, respectively. Similarly, the addition of epsilon-aminocaproic acid (a plasmin inhibitor) or tissue inhibitor of metalloprotease (TIMP2, a collagenase inhibitor) reduced the invasiveness of U251 cells from 42% to 14% and 10%, respectively. Additionally, the other two glioblastoma cell lines (LG11, UWR1) and astrocytes showed a rate of invasiveness at 41%, 61% and 12%, respectively. Finally, the addition of hyaluronic acid to the matrigel, a constituent of brain extracellular matrix, enhanced the rate of invasion. These findings provide evidence for the role of serine proteases and metalloproteases in facilitating the invasion of extracellular matrix components by glioblastoma cell line and suggest a therapeutic role for protease inhibitors in attempting to minimize the invasive propensity of gliomas.
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PMID:Role of plasminogen activator and of 92-KDa type IV collagenase in glioblastoma invasion using an in vitro matrigel model. 796 75

The degradation of the extracellular matrix is part of many pathological and physiological processes. Of the several proteases involved in extracellular matrix turnover, the plasmin/plasminogen activator system and the family of matrix metalloproteases have received the most attention. Recent investigations in the field of matrix metalloprotease biochemistry have focused on the functions of the various enzyme domains and their interactions with inhibitor domains. Research into physiological activation mechanisms has demonstrated a plasmin/plasminogen activator-metalloprotease cascade, as well as providing an initial characterization of cell surface associated metalloprotease activation.
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PMID:Structural biochemistry and activation of matrix metalloproteases. 824 Aug 32

Several proteolytic enzymes are involved in mediating the regression of the prostate gland following castration. A previous study showed that plasminogen activator activities are elevated only in the ventral lobe by castration in the rat. Since matrix metalloproteases represent a different class of protease that degrade extracellular matrix, this study examined their activities in the lateral, dorsal, and anterior lobes of the rat in response to androgen deprivation. The results indicate that, in contrast to plasminogen activators, metalloprotease activities are increased in the lateral, dorsal, and anterior lobes following orchiectomy. This suggests that differences in regulation of certain proteases by androgens may occur in individual prostatic lobes.
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PMID:Effect of castration on metalloprotease activities in the lateral, dorsal, and anterior lobes of the rat prostate. 857 72

Pathology of the prostate gland in rats and humans is associated with aging. Our objective was to examine the effects of aging on the activities of plasminogen activators and metalloproteases in the prostatic complex of rats. Plasminogen activator activities (very low in the anterior, lateral, and dorsal lobes, in contrast to higher activities in the ventral lobe of 4-month-old adult rats) increased with aging in the dorsal and anterior prostate lobes of 31-month-old rats; these activities also increased in the dorsal and lateral lobes upon castration of 18-month-old rats. The plasminogen activator activities in the ventral lobe did not increase with aging to 18 months but did increase 3-5-fold after castration of either young or old rats. Metalloprotease activities of 70 and 76 kDa were observed in the anterior and lateral lobes of 4 month untreated adult rats, whereas the dorsal lobe showed MP of 70 and 92 kDa. Castration of young adult rats increased activities of all three molecular forms of metalloprotease in these three lobes. Increased expression of metalloprotease activities was also found with aging to 31 months in the anterior, lateral, and dorsal lobes. However, changes in metalloprotease activities associated with age were most striking in the lateral lobe and included activities of 52, 55, 81, 93, 113, and 117 kDa at 18 months of age. Castration for 30 days at this age resulted in a decline in the 52, 55, 113, and 117 kDa activities and an increase in activities of the 70, 81, and 93 kDa forms. These latter metalloprotease activities were also increased in the dorsal lobe after castration. Our results suggest that some metalloprotease activities increased in the dorsal lobe after castration. Our results suggest that some metalloprotease activities increased in the lateral lobe with age possibly result from an increased accumulation of secretory proteins (i.e., 52, 55, 113, and 117 kDa), whereas the 70, 81, and 93 kDa metalloprotease activities may be related to possible prostatitis and/or involved in changes in tissue organization. The increased expression of metalloprotease activities in the lateral and dorsal prostate lobes with aging, and castration upon aging, may be indicative of altered hormonal regulation of these proteases in these lobes.
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PMID:Effects of aging and castration on plasminogen activator and metalloprotease activities in the rat prostate complex. 877 40

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