EC:3.4.24.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Osteoarthritis is characterized by focal cartilage destruction and marked formation of osteophytes. We have investigated the possible relationship between site specific occurrence of cartilage damage and osteophytes in the collagenase induced murine osteoarthritis model. The degree of instability of the joint correlated with the amount of cartilage loss. Moreover, cartilage damage in the medial tibial plateau correlated only strongly with the osteophyte at the medial plateau, whereas a similar, site directed trend was noted for lateral damage and lateral osteophytes. A separate study with intraarticular injection of TGF beta 1 in normal murine knee joints revealed that this factor can induce osteophytes at characteristic sites, suggesting a role of endogenous TGF beta in this phenomenon.
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PMID:Cartilage destruction and osteophytes in instability-induced murine osteoarthritis: role of TGF beta in osteophyte formation? 802 46

Transforming growth factor-beta (TGF-beta) is a prototypical multifunctional cytokine, with growth being only one of its many functions. Its receptors and actions are germane to almost every cell in the body involved in tissue injury and repair, and its effects are best understood in the context of a cellular response to a changing environment. The broad areas in which TGF-beta plays a crucial role include cell proliferation and extracellular matrix production. TGF-beta is a key regulatory molecule in the control of the activity of fibroblasts and has been implicated in several disease states characterized by excessive fibrosis. In the kidney, TGF-beta promotes tubuloepithelial cell hypertrophy and regulates the glomerular production of almost every known molecule of the extracellular matrix, including collagens, fibronectin, tenascin, and proteoglycans, as well as the integrins that are the receptors for these molecules. Furthermore, TGF-beta blocks the destruction of newly synthesized extracellular matrix by upregulating the synthesis of protease inhibitors and downregulating the synthesis of matrix-degrading proteases such as stromelysin and collagenase. As will be discussed, there is a strong body of in vitro and in vivo evidence suggesting that persistent overproduction of TGF-beta 1 in glomeruli after the acute inflammatory stage of glomerulonephritis causes glomerulosclerosis. TGF-beta may also be important in a variety of other chronic renal disorders characterized by hypertrophy and sclerosis, such as diabetic nephropathy. In this review we will attempt to offer a basic understanding of the cellular and molecular biology of TGF-beta and its receptors, with special focus on the role of the TGF-beta system in the kidney during development, growth, and disease.
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PMID:The emerging role of transforming growth factor-beta in kidney diseases. 802 63

Cytochalasins B (CB), dihydroB (H2CB), and D (CD) were found to cause loss of fibronectin (Fn) from the cell surface of normal rabbit corneal fibroblasts, breakdown of F-actin-containing microfilament bundles ("stress fibers"), and increase levels of type I interstitial collagenase (MMP-1) in the medium. In contrast to the effects of plasmin, the cytochalasins caused withdrawal of cells from the Fn mesh but not total loss of the mesh, and the collagenase was essentially all in latent form. The results are consistent with the possibility that cytochalasins, like plasmin, perturb the alpha 5 beta 1 integrin (Fn) receptor. Unlike plasmin, which degrades Fn to result in such a perturbation, however, the cytochalasins are thought to do so by directly disrupting cytoplasmic F-actin microfilaments associated with focal contact adhesive structures, to result in changes in the Fn receptor that cause loss of Fn. Thus, plasmin acting extracellularly and cytochalasins acting intracellularly are both thought to be able to modulate the secretion (and possibly also the synthesis) of MMP-1 by corneal fibroblasts by perturbing the Fn receptor located in the focal contact. The presence of all active collagenase after treatment with plasmin, as opposed to latent collagenase after treatment with cytochalasin, supports the interpretation that the events of secretion and activation of collagenase can be uncoupled.
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PMID:Regulation of corneal fibroblast MMP-1 secretion by cytochalasins. 813 7

Collagen type VI (Col VI) is a primary constituent of the extracellular matrix encountered by migrating avian neural crest cells in situ and is effective in promoting attachment and motility of these cells in vitro. In this study, we have explored the molecular mechanisms of neural crest-Col VI interaction by using quantitative assays for cell attachment and migration in vitro, proteolytic fragments of the collagen, and a panel of domain-specific monoclonal antibodies. Removal of the predominant portion of the amino-terminal globular domains of Col VI tetramers by pepsin digestion (P6 fragment) resulted in a > fivefold decrease in their cell adhesion and motility-promoting activity. Further digestion of P6 with bacterial collagenase, which causes a complete loss of the amino-terminal domains plus an adjacent triple-helical segment, did not affect adhesion but reduced migration down to 40% of that seen on undigested P6. Untreated and pepsin-digested Col VI monomers were significantly less effective than their tetrameric counterparts and a M(r) 200,000 fragment, generated from pepsin-digested monomers by a second pepsin treatment, only retained 40% of the motility-promoting activity while preserving the adhesive capacity. A mixture of amino- and carboxyl-terminal globular domains supported both cell attachment and migration. While neural crest cells adhered equally well to the individual intact alpha 1 (VI)/alpha 2(VI) and alpha 3(VI) chains, they migrated most extensively on the alpha 3(VI) chain. Conversely, pepsin-digested individual alpha chains were significantly less effective in promoting cell adhesion and locomotion. Selective preincubation of Col VI microfilaments and isolated tetramers with a panel of monoclonal antibodies against triple helix, carboxyl-terminal, and amino-terminal epitopes of the different constituent chains differentially perturbed neural crest cell attachment and migration. Sites differentially involved in neural crest cell attachment and migration seemed to be present at the carboxyl termini of the alpha 1(VI) and alpha 2(VI) chains and at the amino-terminus of the alpha 3(VI) chain. The results suggest that neural crest cells interact with Col VI through multiple and cooperative binding sites present within its triple-helical and globular domains. The differential involvement and efficiency of these sites in stimulating neural crest cell adhesion and migration is strongly determined by the supramolecular organization of the collagen and requires inter- and intramolecular structural integrity. Since neural crest cell attachment and migration on Col VI was completely inhibited by anti-beta 1 integrin antibodies, there is evidence that this class of integrins is essential for the neural crest cell--Col VI interaction.
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PMID:Neural crest cell interaction with type VI collagen is mediated by multiple cooperative binding sites within triple-helix and globular domains. 822 95

C-erbA receptors and v-erbA have been shown to functionally interact with 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-inducible gene expression. These proteins enhance trans-activation by c-jun, and the c-erbA receptors in the presence of thyroid hormone repress TPA and c-jun induction of transcription. Also, v-erbA can abrogate T3-mediated repression. We have examined how dominant negative (S and CL) and nondominant negative (G-H) receptors cloned from various patients with thyroid hormone resistance syndromes affect expression of the collagenase promoter induced with TPA. The CL receptor (ARG315HIS mutation) has a 2-fold reduction in T3-binding affinity compared with human c-erbA beta 1 wild-type (WT) receptor, whereas the G-H receptor (ARG311HIS) and S receptor (deletion, THR codon 332) have T3-binding affinities reduced by 100-fold and greater than 100-fold, respectively. These mutant receptors were cotransfected with a collagenase promoter (-1200 to +63 base pairs) chloramphenicol acetyltransferase reporter gene (Col-CAT) into COS-7 cells. Levels of CAT reporter gene expression after transient transfection were determined in the presence or absence of 3-10 nM T3 and the presence or absence of 100 nM TPA. Unoccupied CL receptor and G-H and S receptors stimulated TPA-induced Col-CAT expression 1.5- to 9-fold. The CL receptor with thyroid hormone totally repressed TPA induction of the collagenase receptor. In the presence of thyroid hormone, the enhancing effects by S and G-H receptors on TPA-induced Col-CAT expression were unaffected and minimally diminished, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dominant and nondominant negative C-erbA beta 1 receptors associated with thyroid hormone resistance syndromes augment 12-O-tetradecanoyl-phorbol-13-acetate induction of the collagenase promoter and exhibit defective 3,5,3'-triiodothyronine-mediated repression. 824 13

We reported that interstitial collagenase is produced by keratinocytes at the edge of ulcers in pyogenic granuloma, and in this report, we assessed if production of this metalloproteinase is a common feature of the epidermal response in a variety of wounds. In all samples of chronic ulcers, regardless of etiology, and in incision wounds, collagenase mRNA, localized by in situ hybridization, was prominently expressed by basal keratinocytes bordering the sites of active re-epithelialization indicating that collagenolytic activity is a characteristic response of the epidermis to wounding. No expression of mRNAs for 72- and 92-kD gelatinases or matrilysin was seen in keratinocytes, and no signal for any metalloproteinase was detected in normal epidermis. Immunostaining for type IV collagen showed that collagenase-positive keratinocytes were not in contact with an intact basement membrane and, unlike normal keratinocytes, expressed alpha 5 beta 1 receptors. These observations suggest that cell-matrix interactions influence collagenase expression by epidermal cells. Indeed, as determined by ELISA, primary cultures of human keratinocytes grown on basement membrane proteins (Matrigel; Collaborative Research Inc., Bedford, MA) did not express significant levels of collagenase, whereas cells grown on type I collagen produced markedly increased levels. These results suggest that migrating keratinocytes actively involved in re-epithelialization acquire a collagenolytic phenotype upon contact with the dermal matrix.
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PMID:Cell-matrix interactions modulate interstitial collagenase expression by human keratinocytes actively involved in wound healing. 825 40

The exchange of cross-talks between cells relies on soluble factors or direct cell-cell contact. Soluble factors increase the expression of cell surface molecules that activate adjacent cells by direct contact to produce cytokines. In the lung, dendritic cells are potent inducers of T-cell proliferation, and the interaction between the two leads to the production of high amounts of TNF alpha and TNF beta. Of the molecules involved in these biologic functions, LFA-3, CD11c, and the combination of beta 1 and beta 2 integrins are the most efficient. However, blocking TNF alpha or TNF beta production does not affect the alloreaction. The interaction between activated T cells and monocytes resulted in a large production of IL-1 beta. In this reaction, CD69, CD2, and the beta 2 integrins (CD11a, b, c, and CD18) and also other molecules such as a 25- to 35-kD glycoprotein play an important part. Finally, interaction between monocytes and fibroblasts leads to the production of large amounts of collagenase and PGE2 by fibroblasts. Cell-associated IL-1, particularly IL-1 alpha and membrane-bound TNF alpha, can also play a crucial role in the process of cell-cell interaction. This interaction may be controlled by inhibitors to IL-1 and TNF.
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PMID:Adhesion molecules and cytokine production. 825 26

Overexpression of the multifunctional growth factor transforming growth factor-beta 1 (TGF beta 1) has been connected to numerous diseases in human. TGF beta 1 expression is largely governed by three AP-1 binding sites located in two different promoters of this gene. We have examined the ability of retinoid receptors to inhibit the activity of the two promoters (especially the promoter 1) by cotransfection assays in the hepatocellular carcinoma cell line HepG2. When the TGF beta 1 promoter activity is induced by 12-O-tetradecanoyl phorbol13-acetate (an activator of AP-1-controlled gene transcription), this activity can be strongly repressed by retinoic acid receptor-alpha (RAR alpha), RAR beta, or retinoid X receptor-alpha (RXR alpha) as well as other members of the nuclear receptor family. Repression was hormone dependent and a function of receptor concentration. Heterodimerization of RAR alpha or RAR beta with RXR alpha did not modify the inhibition activities of these receptors, indicating that heterodimer formation is not required for antagonizing of AP-1 activity. On further examining the anti-AP-1 activity of RXR alpha we observed that three different AP-1-controlled promoters (TGF beta 1, collagenase, and cFos) can be inhibited. Using gel shift assays, we demonstrated that RXR alpha inhibits Jun and Fos DNA binding and that 9-cis RA enhances this inhibition, suggesting that a mechanism involving direct protein-protein interaction between RXR and AP-1 components mediates the inhibitory effect observed in vivo. Transfection analyses with RXR alpha point mutations revealed that residues L422, C432, and, to a lesser extent, residues L418 and L430, are involved in ligand-induced anti-AP1 activity of RXR alpha in vivo. Thus both types of retinoid receptors can inhibit AP-1-activated promoters, including the TGF beta 1 gene promoter, via a mechanism that involves protein-protein interaction.
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PMID:Retinoic acid receptors and retinoid X receptor-alpha down-regulate the transforming growth factor-beta 1 promoter by antagonizing AP-1 activity. 826 64

Plasmin was found to degrade the fibronectin (Fn) mesh produced by cultures of normal rabbit corneal fibroblasts, cause breakdown of F-actin-containing microfilament bundles ("stress fibers"), and increase levels of active type I interstitial collagenase (MMP-1) in the medium. Fibroblast cultures derived from alkali-burned, ulcerating rabbit corneas also responded to plasmin by secreting collagenase, detected only in active form. Moreover, harvests from organ cultures of ulcerating corneas not only had higher levels of urokinase-like plasminogen activator (uPA) than normal cultures but also had higher levels of Fn degradation fragments. The results are consistent with reports that indicate that perturbation of the alpha 5 beta 1 integrin (Fn) receptor by proteolytic fragments of Fn causes the increased synthesis and secretion of MMP-1. The uPA/plasmin system, therefore, might have an important role in regulating collagenase synthesis, secretion, and activation during wound remodelling and stromal ulceration.
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PMID:Regulation of corneal fibroblast MMP-1 collagenase secretion by plasmin. 830 64

AP-1 is a transcriptional activator composed of homo- and heterodimers of Jun and Fos proteins. It is involved in activation of genes, such as collagenase, stromelysin, IL-2 and TGF beta 1, by tumour promoters, growth factors and cytokines. AP-1 activity is also elevated in response to transforming oncogenes and is required for cell proliferation. AP-1 activity is subject to complex regulation both transcriptionally and post-transcriptionally. Transcriptional control of jun and fos gene expression determines the amount and composition of the AP-1 complex. The jun and fos genes are regulated both positively and negatively and are highly inducible in response to extracellular stimuli. Post translational control is also important. Both cJun and cFos are subject to regulated phosphorylation. In the case of cJun, phosphorylation of sites near the DNA-binding domain inhibits DNA-binding, while dephosphorylation reverses this inhibition. Phosphorylation of cJun on sites within the N-terminal activation domain increases its ability to activate transcription. The protein kinase phosphorylating these sites is stimulated by cytokines and growth factors. Another mechanism modulating AP-1 activity is transcriptional interference by members of the nuclear receptor family and is relevant for the pathophysiology of rheumatoid arthritis (RA). In RA, chronic inflammation leads to increased AP-1 activity in T cells,macrophages and synoviocytes as a response to secretion of cytokines such as IL-1 and TNF alpha. While the IL-2 gene plays a major role in T cell activation, another AP-1 target gene encodes an enzyme, collagenase, responsible for destruction of bone and tendon.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Various modes of gene regulation by nuclear receptors for steroid and thyroid hormones. 831 34

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