Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

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 purpose of this study was to adduce further evidence for a paracrine role for human decidual relaxin (Rlx) in the remodelling of collagen in the fetal membranes in the peripartal period. The binding of [125I]porcine Rlx to membrane-enriched fractions from fetal membranes as well as from dispersed cells from the fetal membranes was used to demonstrate the presence of specific Rlx receptors. Rlx added in vitro to cultured amnion/chorion cells increased the release of plasminogen activator and collagenase into the medium. Rlx had no effect on the release of beta-glucuronidase. An in vivo correlate of these in vitro results was obtained, the detection of plasminogen activator and collagenase in amniotic fluids. The active fraction of collagenase was increased in amniotic fluids collected after spontaneous rupture of the membranes. PRL, hCG, estrogen, and progesterone added in equimolar amounts to cultured amnion/chorion cells from elective cesarean sections and normal term deliveries also effected the release of plasminogen activator and collagenase. The greatest effects were found in cells from cesarean section tissue, in terms of the stimulation of plasminogen activator release by Rlx and PRL and of collagenase release by prostaglandin F2 alpha and, to a lesser extent, by Rlx, PRL, and hCG. We conclude that human fetal membranes are targets for a number of hormones, including the decidual paracrine hormones Rlx, PRL, and prostaglandin F2 alpha as well as estrogen, progesterone, and hCG. These hormones act to release or inhibit the enzymes involved in collagen breakdown before rupture of the fetal membranes.
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PMID:The human fetal membranes: a target tissue for relaxin. 300 43

Early-passage human foreskin fibroblasts were exposed to X-ray doses ranging from 100 to 600 rad. The X-ray treatments resulted in cell killing in a dose-dependent manner as judged by the colony-forming efficiency of the cells. When cultures exposed to radiation were serially passaged and checked at various times for growth in semi-solid medium they showed the presence of cells with the ability to grow under anchorage-independent conditions (in agarose) at 24 population doublings. The frequencies of colonies with the ability to grow in agarose increased with increasing doses of X-rays above the levels observed for control cultures under similar conditions. When assayed for plasminogen activator levels, the X-ray-treated cultures at various passages showed insignificant differences from levels observed in control cultures. However, the amounts of collagenase (type IV collagen-specific) increased significantly by 32 population doublings in the X-ray-treated cultures compared with control cultures. Our results suggest that the production of type IV collagen-specific collagenase could be useful as an in vitro marker for the transformation of human diploid fibroblasts by X-irradiation.
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PMID:Radiation-induced anchorage-independent growth and collagenase production in diploid human fibroblasts. 300 74

In the current study we have measured collagenase activity released from skin explants and fibroblasts of patients with both Guam-type and sporadic amyotrophic lateral sclerosis and controls. The rationale for such a study derives from work reported more than 20 years ago demonstrating abnormalities in skin collagen metabolism in patients with the disease. We were not able to find significant differences in collagenase activity when fibroblasts were compared relative to the total protein secreted. This is explained, in part, by our finding of an increase in total protein released from fibroblasts of the amyotrophic lateral sclerosis patient group. Increased collagenase release did occur when activity was expressed per number of cells plated but was not statistically significant. In addition, increased release followed a 3-day lag period in skin organ culture. These results suggest that collagenase and other enzymes known to activate collagenase, such as plasminogen activator, capable of degrading extracellular matrix components might be responsible for the increased collagenolytic activity previously observed in amyotrophic lateral sclerosis patients' skin. Further evaluation of extracellular-acting degradative enzymes from skin, muscle, nerve and central nervous system may be important to follow-up such leads in understanding the pathogenesis of this enigmatic and fatal disorder.
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PMID:Collagenase activity in skin fibroblasts of patients with amyotrophic lateral sclerosis. 300 15

Pulmonary injury induced by the plant alkaloid monocrotaline is partially prevented by the angiotensin-converting enzyme (ACE) inhibitor captopril. CL242817 [(S-[R*,S*])-1-([3-acetylthio]-3-benzoyl-2-methyl-propionyl)- L-proline] is a new orally active ACE inhibitor under evaluation as an antihypertensive agent. To determine whether CL242817 also can modify monocrotaline-induced pulmonary injury, male rats were divided into four groups: control; CL242817 (60 mg/kg/day, po); monocrotaline (2.4 mg/kg/day, po); or monocrotaline plus CL242817, and were sacrificed after 6 weeks of continuous treatment. Rats receiving monocrotaline alone exhibited occlusive medial thickening of the pulmonary arteries, cardiomegaly, and right ventricular hypertrophy. Electron micrographs of monocrotaline-treated lung revealed degeneration of both endothelial and Type I epithelial cells, as well as marked interstitial hypercellularity and fibrosis. Hydroxyproline (collagen) content of monocrotaline-treated lung also increased significantly, confirming the fibrosis observed in the electron micrographs. These structural changes were accompanied by decreased lung ACE and plasminogen activator (PLA) activities, indicative of pulmonary endothelial dysfunction. Concomitant CL242817 treatment ameliorated all anatomic manifestations of monocrotaline injury, particularly the right ventricular hypertrophy, pulmonary arterial occlusion, epithelial degeneration, and interstitial fibrosis. CL242817 also significantly prevented the monocrotaline-induced increase in lung hydroxyproline content. In contrast, concomitant CL242817 did not significantly influence the suppressed lung ACE and PLA activities in monocrotaline-treated rats. CL242817 alone produced retarded weight gain, decreased heart weight relative to body weight, decreased lung hydroxyproline content and ACE activity, and increased serum ACE activity and plasma AII concentration. Thus CL242817 resembles captopril, both in its ability to ameliorate monocrotaline-induced pulmonary injury in rats, and in many of its side effects.
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PMID:Monocrotaline-induced cardiopulmonary damage in rats: amelioration by the angiotensin-converting enzyme inhibitor CL242817. 301 47

Male rats were sacrificed 2 or 6 months after a range of single doses of gamma rays (0-30 Gy) to the right hemithorax. Half of each dose group consumed control feed continuously after irradiation, and half consumed feed containing the collagen antagonist D-penicillamine (10 mg/rat/day). Four markers of pulmonary endothelial function were monitored: angiotensin converting enzyme (ACE) activity, plasminogen activator (PLA) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. Bronchoalveolar lavage (BAL) fluid also was obtained from the right lung, and was analyzed for macrophage number, and PGI2 and TXA2 concentration. Right lung ACE and PLA activities decreased linearly with increasing dose at both 2 and 6 months postirradiation, and penicillamine had no significant effect on either response. In contrast, PGI2 and TXA2 production by the right lung increased linearly with increasing radiation dose at both autopsy times. Penicillamine significantly ameliorated the increase in PGI2 production at 2 months, and the increase in TXA2 production at both 2 and 6 months postirradiation. Penicillamine dose-reduction factors (DRF) for PGI2 and TXA2 production were 1.3-1.4, and the response curve slope ratios were 1.7-2.5 (p less than 0.05). Penicillamine also ameliorated the dose-dependent increase in TXA2 concentration in the BAL fluid at 2 months. These data indicate that the four "markers" of radiation-induced pulmonary endothelial dysfunction do not respond identically to penicillamine dose-modification. Of the four markers, TXA2 production exhibits the most significant and widespread penicillamine sparing. TXA2 is a potent vasoconstrictor, promoter of platelet aggregation, and mediator of inflammation, and partial prevention of the radiation-induced hyperproduction of this eicosanoid may account in part for penicillamine's therapeutic action in this model.
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PMID:Functional responses of the pulmonary endothelium to thoracic irradiation in rats: differential modification by D-penicillamine. 304 Jun 46

Various elastases classes normally reside in alveolar structure and are liable to degrade the elastin as well as the other macromolecular components of pulmonary extracellular matrix (collagen, proteoglycans, fibronectin...), during lung injury. The most are the polymorphonuclear or monocyte serine elastase and the macrophage metallo and cysteine elastases. Metalloelastase may also arise from pathogenic bacteria as Pseudomonas aeruginosa. In another part proteases elastase-type from fibroblasts, endothelial cells or alveolar macrophages might to be involved into the remodelling of lung connective tissue or pulmonary cells differentiation and activation. The regulation of elastolytic activities, is supported both by activators (as plasminogen activator...) and inhibitors (alpha 1 Pi, 2M, BrI, TIMP, bacterial inhibitors...). These inhibitors are mostly generated in situ from macrophages, monocytes or polymorphonuclear cells so allowing to control fast local elastolytic activity. Since alveolar macrophage can internalize leucocyte elastase, synthetize metalloelastases, and secrete their inhibitors and activators, it plays a complex role in the lung defense and during various pulmonary pathogenesis. In conclusion, the lung response to bacterial or viral infections, the intensity of alveolitis, the nature and the gravity of emphysematous or fibrotic lung lesions, as well as the tumour growth or metastatic pulmonary invasion may depend upon the lung elastolytic activities.
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PMID:[Elastases and pulmonary pathologies]. 306 3

The ex vivo aggregability of rabbit platelets was assessed after rabbits were treated in vivo with thrombolytic doses of tissue plasminogen activator (t-PA) or streptokinase (SK). t-PA was evaluated at 2 doses; an effective thrombolytic dose of 10 micrograms/kg/min, i.v. and a higher dose of 30 micrograms/kg/min, i.v.. At both concentrations, ex vivo platelet hyperaggregability was observed when collagen, arachidonic acid or ADP were employed as the aggregating agonists. Significant falls in circulating platelet counts were observed after t-PA infusion. Infusion of SK also resulted in ex vivo platelet hyperaggregation. These data reveal that thrombolytic therapy may result in hyperaggregable platelets which may play a role in reocclusion of successfully recanalized blood vessels.
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PMID:Tissue-type plasminogen activator and streptokinase induce platelet hyperaggregability in the rabbit. 311 93

A cell culture model has been established employing normal human articular or costal chondrocytes in monolayer culture as target cells for the effects of intercellular mediators on chondrocyte function, particularly collagen synthesis. Recombinant Interleukin-1 (IL-1) which stimulates the synthesis of prostaglandin E2 (PGE2), collagenase, and plasminogen activator also stimulates the synthesis of collagen and increases steady-state levels of mRNA in cultured chondrocytes, synovial cells and foreskin fibroblasts if the synthesis of PGE2, which inhibits collagen synthesis, is inhibited by indomethacin. Recombinant immune interferon (IFN-gamma), which does not affect collagenase of PGE2 production, suppresses type II as well as types I and III collagen synthesis and associated mRNA levels. IL-1 and IFN-gamma could therefore have opposite roles in modulating cartilage matrix turnover in joint disease by affecting repair as well as degradation.
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PMID:Control of collagen synthesis in human chondrocyte cultures by immune interferon and interleukin-1. 311 88

Thiol angiotensin converting enzyme (ACE) inhibitors (Captopril, CL242817) and collagen antagonists (D-penicillamine) partially prevent pulmonary hypertension in monocrotaline-treated rats. The purpose of the present study was to determine whether the nonsulfhydryl ACE inhibitors CGS13945 and CGS16617 also ameliorate monocrotaline-induced cardiopulmonary damage in rats consuming the drugs continuously for 6 weeks. D-penicillamine was tested concomitantly as a positive control. Monocrotaline-treated animals developed severe pulmonary histopathology occlusive wall thickening of the pulmonary arteries, adrenomegaly, cardiomegaly, and right heart enlargement. Concomitant administration of CGS13945, CGS16617, or penicillamine ameliorated most of these monocrotaline reactions. Monocrotaline-induced histopathologic changes in the lung were accompanied by pulmonary endothelial dysfunction, including suppressed ACE and plasminogen activator activity and increased prostacyclin and thromboxane production. None of the modifying agents influenced these functional abnormalities in monocrotaline-treated lung endothelium. Thus, the ACE inhibitors CGS13945 and CGS16617 ameliorate monocrotaline-induced cardiopulmonary damage in rats, indicating that the presence of a thiol group is not essential for this class of compounds to exhibit therapeutic activity against monocrotaline lung injury. The present data do not identify the mechanism of action of CGS13945 and CGS16617, but appear to rule out lung ACE inhibition and lung endothelial cell sparing as major therapeutic factors.
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PMID:Monocrotaline-induced cardiopulmonary injury in rats: modification by the nonthiol ACE inhibitors CGS13945 and CGS16617. 312 98


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