Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rabbit alveolar macrophage secretes at least two collagenolytic metalloproteinases in vitro including an interstitial collagenase and a type V collagenase. Using assays previously shown to discriminate between these two activities, the secretion of these two enzyme activities was investigated. Both enzyme activities accumulated in culture over 11 days and the release of both were similarly inhibited by cycloheximide. Collagenolytic activity was negligible in cell lysates. The interstitial collagenase was found in a latent form but the type V collagenase activity was active in the culture medium. When cultured in the presence of dexamethasone, the secretion of both the enzymes were identically inhibited in a dose-dependent manner. Indomethacin was an effective inhibitor of secretion of both collagenases at a concentration of 10(-5) M but not at lower concentrations. Finally, bacterial lipopolysaccharide stimulated the secretion of both type V and interstitial collagenase by these cells. These studies indicate that, like the interstitial collagenase, the type V collagenase is released from the cell as synthesized and is not stored intracellularly. Protein synthesis is necessary for the release of both these collagenases. Furthermore, the release of type V collagenase responded to dexamethasone, indomethacin, and lipopolysaccharide in a manner identical to the secretion of the interstitial collagenase suggesting that synthesis and secretion of these two enzymes are regulated in a similar manner.
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PMID:Effect of dexamethasone, indomethacin, and lipopolysaccharide on the secretion of interstitial collagenase and type V collagenase by cultured macrophages. 609 75

The regulatory effect of endogenously synthesized eicosanoid metabolites on the expression of tissue inhibitor of metalloproteinases (TIMP), interstitial collagenase, and 92-kDa gelatinase by human macrophages was examined. TIMP and metalloproteinase production were stimulated with three agonists that produce distinct patterns of eicosanoid synthesis: lipopolysaccharide (10 micrograms/ml), denatured collagen (10 micrograms/ml), or zymosan (1 mg/ml). Indomethacin (3 micrograms/ml) or MK886 (3 microM), a specific inhibitor of 5-lipoxygenase, was used to examine the role of endogenous metabolites of arachidonic acid. Regardless of the agonist used, TIMP production by macrophages was inhibited 65% by indomethacin, synthesis of interstitial collagenase was reduced 70%, and expression of 92-kDa gelatinase was decreased 40%. In contrast, inhibition of leukotriene synthesis had no effect on metalloproteinase or TIMP production. The agonist-stimulated increase in TIMP and collagenase production was directly correlated to the cumulative prostaglandin E2 level induced by the agonist used. However, if response to an agonist was poor, the exogenous addition of prostaglandin E2 could not increase TIMP or collagenase production more than twofold, indicating an important permissive effect of the agonist on the regulation of each protein's expression. The mechanism of indomethacin inhibition of TIMP and collagenase production was studied by labeling the cells with [35S]-methionine and performing immunoprecipitation using specific antiserum. Indomethacin markedly inhibited the lipopolysaccharide-induced biosynthesis of both TIMP and collagenase. Northern analysis revealed parallel suppression of TIMP and collagenase steady-state mRNA levels by indomethacin, indicating pretranslational control. The regulation of inflammatory-cell TIMP and interstitial collagenase expression by prostaglandin E2 suggests that therapy inhibiting the cellular response to prostaglandins may be useful in cutaneous and systemic disease states involving macrophage-mediated connective-tissue destruction.
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PMID:Agonist-induced expression of tissue inhibitor of metalloproteinases and metalloproteinases by human macrophages is regulated by endogenous prostaglandin E2 synthesis. 779 41

Monocyte-derived foam cells figure prominently in rupture-prone regions of atherosclerotic plaques. Peripheral blood monocytes in culture can produce certain enzymes that degrade extracellular matrix, known as matrix metalloproteinases (MMPs). Lipid-laden macrophages may thus contribute to weakening of extracellular matrix of rupture-prone atherosclerotic plaques. However, the spectrum and regulation of MMP production by foam cells remain unknown. To investigate this issue, we isolated lipid-laden macrophages from rabbit aortic lesions produced by a combination of hypercholesterolemia and balloon injury. Freshly isolated aortic macrophage foam cells, identified using cell-specific antibodies, contained immunoreactive stromelysin and interstitial collagenase, whereas alveolar macrophages isolated from the lungs of same rabbits did not. Macrophages from both tissue sources released gelatinolytic activity consistent with the 92-kDa gelatinase. In vitro, lipid-laden aortic macrophages, but not alveolar macrophages, synthesized de novo and released immunoprecipitable stromelysin and collagenase, with or without stimulation by phorbol ester or bacterial lipopolysaccharide. These stimuli caused foam cells to release additional gelatinolytic activity that migrated faster than a purified preparation of 92-kDa gelatinase in substrate-containing polyacrylamide gels, indicating activation of the 92-kDa gelatinase or induction of the 72-kDa gelatinase. Our results show that lipid-laden macrophages elaborate MMPs capable of degrading the major constituents of vascular extracellular matrix even without further stimulation. Therefore, these cells may contribute to remodeling of the extracellular matrix during atherogenesis and to the disruption of plaques often responsible for acute clinical manifestations of atherosclerosis.
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PMID:Macrophage foam cells from experimental atheroma constitutively produce matrix-degrading proteinases. 783 Dec 99

Under a tightly regulated expression mechanism, matrix metalloproteinases degrade extracellular matrix proteins and are thought to play a role in injury repair and tumor metastasis in peripheral tissues. Little is known about the function of matrix metalloproteinases or agents that regulate their production in adult brain; however, it has been shown that the activity of a calcium-dependent metalloproteinase is elevated in Alzheimer's hippocampus. The goals of this study were to determine whether cultured rat astrocytes produce matrix metalloproteinases and to identify agents that regulate protease activity. Enriched astrocyte cultures were prepared from brains of 1-day-old rat pups, and experiments were performed 13 days later. Gelatinase activity in astrocyte conditioned medium was determined using zymography with gelatin copolymerized with acrylamide in the gel. Under basal conditions after a 24-h incubation, rat astrocytes produce gelatinases of 58 and 66 kDa. On stimulation of astrocytes with lipopolysaccharide, interleukin-1 alpha or -beta, or tumor necrosis factor-alpha for 24 h, a dose-dependent increase in the activity of the 58- and 66-kDa gelatinases and the induction of a 94-kDa gelatinase occurred. All three astrocyte-derived proteases showed maximal activity in the presence of millimolar levels of Ca2+, their activity was inhibited in the presence of 1,10-phenanthroline, and their proenzymes were cleaved and activated after incubation with p-aminophenylmercuric acetate. Using immunoblotting, immunopositive bands at the respective molecular sizes indicated that the 58-kDa gelatinase was gelatinase A (matrix metalloproteinase 2) and the 94-kDa activity was gelatinase B (matrix metalloproteinase 9).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytokines regulate gelatinase A and B (matrix metalloproteinase 2 and 9) activity in cultured rat astrocytes. 789 Oct 77

During early human pregnancy, fetal cytotrophoblasts rapidly invade the uterus. This process has many similarities to tumor invasion, except that the extent and the timing of cytotrophoblast invasion are carefully regulated. Therefore, this system is particularly useful for studying mechanisms that regulate invasive processes. Previously, we showed that production and activation of the 92-kDa type IV collagenase (matrix metalloproteinase(MMP)-9) is necessary for cytotrophoblast invasion in vitro. In other systems, interleukin (IL)-1 beta is an important regulator of matrix-degrading metalloproteinases. Therefore, we investigated trophoblast production of IL-1 beta and its receptors, as well as the effects of this cytokine on cytotrophoblast metalloproteinase activity and invasion. The results showed that release of IL-1 beta parallels the invasive potential of the cytotrophoblasts; the highest levels are produced by first trimester cells and the lowest levels by term cells. Immunoprecipitation showed that cytotrophoblasts express the 80-kDa type I IL-1 receptor, suggesting that autocrine effects are possible. IL-1 beta stimulated trophoblast MMP-9 secretion (by a mechanism that required nascent mRNA and protein synthesis) as well as metalloproteinase activity and invasion of Matrigel. Increasing (by lipopolysaccharide treatment) or decreasing (by glucocorticoid treatment) IL-1 beta production had parallel effects on MMP-9 secretion, metalloproteinase activity, and invasion. Because IL-1 beta and corticosteroids are present in high concentrations at the maternal-fetal interface, normal trophoblast invasion may be regulated, in part, by their opposing actions. In contrast, stimulation of cytotrophoblast IL-1 beta secretion by lipopolysaccharide may play a role in the sequela of infected fetal membranes.
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PMID:Interleukin-1 beta regulates human cytotrophoblast metalloproteinase activity and invasion in vitro. 800 17

Matrix metalloproteinases (MMPs) and elastase are proteolytic enzymes specifically directed against extracellular matrix (ECM) components. They are secreted by inflammatory cells and may consequently contribute to the lesions of the ECM observed during acute pulmonary edema. We therefore evaluated the MMP and elastase activities, which are secreted by cultured alveolar macrophages (AMACs) and polymorphonuclear neutrophils (PMNs) and present in the bronchoalveolar lavage (BAL) fluid in a guinea pig model of acute lung injury induced by intratracheal instillation of lipopolysaccharide (LPS). The control group was given 0.9% NaCl. 24 h after instillation, a BAL was performed, the BAL fluid was separated from the cells by centrifugation, and AMACs and PMNs were separately cultured for 24 h. In BAL fluid from LPS-treated guinea pigs, we found 1) an increase in free gelatinase activity, tested on [3H]gelatin (0.7 +/- 0.2 micrograms.200 microliters BAL fluid-1.48 h-1 vs. 0.2 +/- 0.1 in controls, P < 0.05), and 2) increased total gelatinase activities, as assessed by zymography. The molecular masses of the major gelatinase species found in BAL fluid by zymography were 92 and 68 kDa. The 92-kDa gelatinase was secreted by both AMACs and PMNs, as demonstrated by zymography of their respective culture media. When tested on [3H]elastin, the elastase activity of BAL fluid of LPS-treated animals exhibited no increase, but when tested on a synthetic peptidic substrate [N-succinyl-(L-alanine)3-p-nitro anilide (SLAPN)], increased elastase-like activity was observed (from 17 +/- 4 nmol of SLAPN.200 microliters BAL fluid-1.24 h-1 in control group to 34 +/- 8 in LPS group, P < 0.05). This increase was attributable to the activity of a metalloendopeptidase that was inhibited by the metal chelator EDTA but not by the specific tissue inhibitor of MMPs.
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PMID:Matrix metalloproteinase and elastase activities in LPS-induced acute lung injury in guinea pigs. 816 90

Gelatinase B is a regulated matrix metalloproteinase with an important role in the remodelling of extracellular matrices and of basement membranes. To study the structure and function of gelatinase B in the mouse, the cDNA was cloned from a macrophage cell line (WEHI-3). Using this cDNA, a cosmid clone with the mouse gene was isolated. The complete gene (8 kbp) was sequenced and compared with the human gene structure. There was 78% similarity at the cDNA level and the exon/intron structure of the murine gene was similar to the human counterpart. At the 5' untranslated side, 1200 bp of the promoter/enhancer region were sequenced and found to contain several transacting-factor-binding sites. The mRNA transcription-initiation site was determined by non-isotopic primer-extension analysis. Polymerase-chain-reaction amplification of cDNAs yielded indirect evidence for a reverse-transcription stop in WEHI-3 cell mRNA. The DNA-derived mouse-protein structure exhibited 82% similarity with the human one. This similarity was functionally reflected by cross-reactivity of the mouse protein with an antiserum against human gelatinase B. The production of murine gelatinase B was studied at the protein level by zymography and at the mRNA level by Northern blot analysis. In WEHI-3 cells the gelatinase B protein is induced by bacterial lipopolysaccharide, phorbol ester, double-stranded RNA and the cytokine interleukin-1. Regulation of activity and structural heterogeneity of gelatinase B in WEHI-3 cells were shown to occur at the gene regulatory level, by expression of the matrix metalloproteinase inhibitor TIMP-1, and by glycosylation of the secreted protein.
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PMID:Mouse gelatinase B. cDNA cloning, regulation of expression and glycosylation in WEHI-3 macrophages and gene organisation. 824 59

We studied the mechanisms that govern the expression of interstitial collagenase and 92-kDa gelatinase in U937 cells, a human monocyte-like cell line, exposed to bacterial lipopolysaccharide (LPS), a potent inducer of metalloproteinase expression. U937 cells were differentiated by phorbol ester (phorbol 12-myristate 13-acetate (PMA)) and, 24 h later, were exposed to LPS for an additional 24 h. Enzyme-linked immunosorbent assay and Northern hybridization showed that PMA mediated an induction of collagenase and markedly stimulated the low basal levels of 92-kDa gelatinase. Subsequent exposure to LPS substantially increased the production of both enzymes. Nuclear runoff assay demonstrated that PMA regulated collagenase and 92-kDa gelatinase transcription. LPS also stimulated collagenase transcription but did not affect transcription of 92-kDa gelatinase. Consistent with the runoff data, the decay rate of collagenase mRNA did not differ between experimental treatments, but the half-life of gelatinase mRNA increased with exposure to LPS. Furthermore, in situ hybridization showed that 92-kDa gelatinase was expressed by all cells whereas collagenase was produced by a subpopulation of cells in both PMA- and PMA/LPS-exposed cultures, and similar findings were seen with LPS-activated human alveolar macrophages. These data indicate that divergent mechanisms control metalloproteinase expression in phagocytic cells and that enzyme production differs among macrophage subpopulations.
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PMID:Distinct mechanisms regulate interstitial collagenase and 92-kDa gelatinase expression in human monocytic-like cells exposed to bacterial endotoxin. 839 40

The production of gelatinase B by macrophages is relevant in the immunological and migratory functions of macrophages. CGP 41251, an inhibitor of protein kinase C (PKC), was found to stimulate the expression of gelatinase B in macrophages, as shown by the study of two different monocytic/macrophagic cell lines, mouse RAW 264.7 and human THP-1 cells. When human monocytes and rat peritoneal macrophages were treated with CGP 41251, insignificant increases of 10 and 25% were obtained. This can possibly be due to the presence of contaminating cells in these two enriched populations, since the CGP 41251 treatment of non-macrophagic cell lines inhibited their PMA-induced gelatinase B production. Taken together, these results suggest that the stimulatory effect of CGP 41251 is specific to cells of the monocytic lineage. Using RAW 264.7 cells as a model, the effect of CGP 41251 is additive to that obtained using lipopolysaccharide (LPS) and phorbol 12-myristate 13-acetate (PMA), as revealed by gelatin zymography and Northern blot analysis. The stimulatory effect of CGP 41251 on gelatinase B production in RAW 264.7 was: (a) inhibited by calphostin C (as is the LPS-induced response), indicating a PKC-dependence; (b) inhibited by dexamethasone (as opposed to the LPS-induced response); and (c) enhanced by addition of trans-retinoic acid (RA). In fact, RA can induce gelatinase B production, either alone or in synergy with LPS and/or CGP 41251, since the combination of the three agents gives the highest gelatinase B response, at both the protein and the mRNA levels. This represents an important observation considering the RA is now being tested as an anti-cancer agent and proposed for prevention studies.
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PMID:Synergistic and selective stimulation of gelatinase B production in macrophages by lipopolysaccharide, trans-retinoic acid and CGP 41251, a protein kinase C regulator. 861 33

Extracellular matrix components as well as enzymes and enzyme-inhibitors controlling the turn-over of these components play an important role in the local control of testicular function. Zymographic analysis was used to study the secretion and the control of the secretion of gelatinase A (MMP-2) and B (MMP-9) by primary cultures of rat Sertoli cells and by subcultures of peritubular cells. Data on gelatinase A were complemented by measurement of the corresponding mRNA by Northern blot analysis. The agonists investigated included hormones (FSH, testosterone), second messengers (dbcAMP, phorbolester and a Ca(2+)- ionophore), interleukin-1 beta (IL-1 beta) and inducers of cytokine production (Concanavalin A: ConA; lipopolysaccharide: LPS; double stranded RNA: PIC). It is demonstrated that Sertoli cells originally secrete both gelatinase A and B. When maintained in serum-free medium, however, they rapidly lose the ability to secrete gelatinase B. After 3 days of culture gelatinase A remains the only measurable gelatinase in both Sertoli and peritubular cell cultures. The production in peritubular cells, however, exceeds that in Sertoli cells some 25-fold. This was confirmed by a 30-fold difference in the level of steady-state gelatinase A mRNA levels. Gelatinase A secretion and gelatinase A mRNA were stimulated by ovine FSH in Sertoli cells and by dbcAMP and ConA in both Sertoli and peritubular cells. IL-1 beta displayed measurable but limited stimulatory effects in both cell types. Interestingly, in peritubular cells but not in Sertoli cells, ConA stimulated the production of a lower MW species probably representing an activated form of gelatinase A. It is concluded that both the amounts of gelatinase A produced, the levels of the corresponding mRNA and the regulation differ in cultured peritubular cells and Sertoli cells. The lectin concanavalin A is a novel and potent inducer of gelatinase A. It resembles cytochalasin D in selectively inducing an activated form of gelatinase A in peritubular cells. The mechanism responsible for this selective effect warrants further investigation.
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PMID:Gelatinase A secretion and its control in peritubular and Sertoli cell cultures: effects of hormones, second messengers and inducers of cytokine production. 873 89


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