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)

Myocardial fibrosis is associated with an activated renin-angiotensin-aldosterone system (RAAS). In renovascular hypertension, this presents as a reactive perivascular and interstitial fibrosis in not only the pressure overloaded, hypertrophied left ventricle but also the normotensive, nonhypertrophied right ventricle. It therefore would appear that circulating hormonal and not hemodynamic factors are responsible for this adverse fibrous tissue response. To ascertain whether the RAAS effector hormones angiotensin II (AII) or aldosterone (ALDO) directly stimulate collagen synthesis or inhibit collagenase production we used cell culture. Adult rat cardiac fibroblasts (Fb) were cultured since these cells express mRNA for types I and III collagens, the major fibrillar collagens in the heart, and collagenase or matrix metalloproteinase 1 (MMP 1), the key enzyme for interstitial collagen degradation. Collagen synthesis, determined by 3H-proline incorporation, and collagenase activity were measured in confluent, quiescent Fb after 24 h incubation with various concentrations of AII or ALDO (10(-11)-10(-6)M) in the presence or absence of either 10(-5)M type 1 (DuP 753) and type 2 (PD 123177) AII or 10(-9)-3 x 10(-6)M ALDO (spironolactone) receptor antagonists, respectively. Collagen synthesis, normalized per total protein synthesis, increased significantly (P < 0.005) after incubation with either 10(-9)M ALDO (5.9 +/- 1.0%) or 10(-7)M AII (5.3 +/- 1.2%) compared with untreated control cells (2.9 +/- 0.5%) of the same passage (p6-p10). This increase in collagen synthesis could be completely abolished by either types 1 or 2 AII receptor antagonists in AII stimulated Fb or the competitive ALDO receptor antagonist, spironolactone, at equimolar concentration in ALDO stimulated Fb. AII significantly decreased collagenase activity which could be completely abolished by PD 123177, but not DuP 753, while ALDO had no effect on collagenase activity. The mineralocorticoid, ALDO, stimulates collagen synthesis in cultured adult rat cardiac Fb in concentrations similar to those found in plasma in renovascular hypertension and this response appears to occur via type I corticoid receptors. AII appears to stimulate collagen synthesis by both type 1 and 2 AII receptors, but only in high concentrations that could be generated locally within the myocardium. In addition, AII unlike ALDO inhibits collagenase activity that could be attenuated only by type 2 receptor blockade. These findings suggest a direct interaction between ALDO, AII and cardiac Fb in mediating myocardial fibrosis in hypertensive heart disease.
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PMID:Collagen metabolism in cultured adult rat cardiac fibroblasts: response to angiotensin II and aldosterone. 796 49

alpha 1-antitrypsin, the primary physiologic inhibitor of human leukocyte elastase, is proteolytically inactivated by several matrix metalloproteinases including interstitial collagenase, stromelysin and 92 kDa gelatinase. In this report, we describe the catalytic effects of matrilysin, a recently identified metalloproteinase, upon alpha 1-antitrypsin. Matrilysin was found to be approximately 30-fold more effective than 92kDa gelatinase, 70-fold more effective than collagenase, and 180-fold more effective than stromelysin. Cleavage of alpha 1-antitrypsin by matrilysin produced two fragments of approximately 50 kDa and 4 kDa. The single cleavage occurred at the Phe352-Leu353 peptide bond, a locus within alpha 1-antitrypsin's active-site loop. These results suggest that apart from its activity against extracellular matrix, matrilysin provides a mechanism for the regulation of leukocyte elastase activity through its capacity to degrade alpha 1-AT.
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PMID:Matrilysin is much more efficient than other matrix metalloproteinases in the proteolytic inactivation of alpha 1-antitrypsin. 798 May 22

A galactose-binding protein of M(r) = 30,000 previously described in baby hamster kidney cells (Foddy, L., Stamatoglou, S. C., and Hughes, R. C. (1990) J. Cell Sci. 97, 139-148) has been analyzed by the cloning and sequencing of cDNA clones encoding the complete sequence and an amino-terminal fragment. The intact lectin CBP30 contains 245 amino acid residues, including the initiating methionine residue, and is closely homologous to mammalian S-type lectins of similar size characterized in human, rat, and mouse species. The carboxyl-terminal domain contains the carbohydrate binding activity and the amino-terminal domain, which is extremely sensitive to bacterial collagenase, contains a repetitive sequence rich in glycine, tyrosine, and proline. There are 8 repeats in hamster CBP30, as in the human homologue, compared with about 10 in rat and mouse and > 10 in dog homologues. This repeat sequence is also sensitive to the tissue metalloproteinases, gelatinase B and matrilysin, but, unlike the bacterial collagenase, the mammalian enzymes also cause extensive degradation of the carbohydrate binding carboxyl domain. Physical measurements using CD and tryptophan fluorescence spectroscopy indicate that the two domains of CBP30 are structurally, as well as functionally, distinct and independent. Cross-linking studies indicate that the amino-terminal lectin fragment can efficiently self-assemble into oligomeric species, and less efficient but significant aggregation of the intact lectin is also shown. Domain-specific antibodies to hamster CBP30 have been prepared and used to show that only the full-length, undegraded form of CBP30 is present in whole cell lysates.
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PMID:Structure of baby hamster kidney carbohydrate-binding protein CBP30, an S-type animal lectin. 802 86

We have explored the tissue localization of extracellular matrix metalloproteinases MMP-1 (fibroblast collagenase), MMP-2 (72-kDa gelatinase/Type IV collagenase), MMP-3 (stromelysin), MMP-8 (polymorphonuclear leukocyte collagenase) and MMP-9 (92-kDa gelatinase/Type IV collagenase) in the tissues around loose hip prostheses. The findings were compared with those in synovial tissues obtained from patients with a fractured femoral neck. MMP-type specific antisera were applied in the sensitive avidin-biotin-peroxidase complex methods. MMP-1 was found in monocyte/macrophages, fibroblasts, and vascular endothelial cells in both interface tissues between bone and acetabular components and the pseudocapsular tissues obtained from loosening of hip prostheses. In these tissues, MMP-8 was occasionally found, but only in polymorphonuclear leukocytes. Cells showing immunoreactivity to 72- and 92-kDa gelatinase/Type IV collagenase, MMP-2 and MMP-9, respectively, and stromelysin, MMP-3, were abundant in both interface and pseudocapsular tissues in loose hip prostheses. In contrast, in hip fractures, immunoreactivity to MMP-1, 2, 3, and 9 was weak and only observed in synovial tissues. Immunoreactivity to MMP-8 was confined to polymorphonuclear leukocytes attached to the synovial membrane or in the infiltrate around blood vessels in the subsynovial connective tissues. The finding of MMP-1, 2, 3, and 9 in the tissues around loose hip prostheses suggests that they play a role in the weakening of connective tissues, and this leads to loosening.
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PMID:Extracellular matrix metalloproteinases around loose total hip prostheses. 804 79

The metalloproteinase matrilysin is widely expressed in the epithelial tumor cells of malignant colorectal adenocarcinomas. Approximately 50% of benign adenomas also express low levels of matrilysin that is focally localized. The expression of stromelysin-1, stromelysin-3, and gelatinase A was observed in the stromal component of several carcinomas and was not present in adenomatous tissue. The expression of interstitial collagenase and gelatinase B was observed in occasional adenomas and carcinomas. Stromelysin-2 transcripts were not detectable in any of the samples examined. Tissue inhibitor of metalloproteinase-1 gene expression was widespread and was observed in both epithelial and stromal cells of adenomas and carcinomas. These results indicate that matrilysin gene expression is an early event in colorectal tumorigenesis and that the expression of stromelysin-1, stromelysin-3, and gelatinase A is primarily a late event. The observed gene expression patterns suggest that matrilysin may participate in early events in tumor progression and that multiple members of the metalloproteinase family may work in concert to facilitate late-stage tumor invasion and metastasis.
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PMID:Expression and localization of matrix-degrading metalloproteinases during colorectal tumorigenesis. 806 80

Matrix metalloproteinases are a highly regulated family of enzymes, that together can degrade most components of the extracellular matrix. These proteins are active in normal and pathological processes involving tissue remodeling; however, their sites of synthesis and specific roles are poorly understood. Using in situ hybridization, we determined cellular distributions of matrix metalloproteinases and tissue inhibitor of metalloproteinase-1, an inhibitor of matrix metalloproteinases, in endometrium during the reproductive cycle. The mRNAs for all the metalloproteinases were detected in menstrual endometrium, but with different tissue distributions. The mRNA for matrilysin was localized to epithelium, while the others were detected in stromal cells. Only the transcripts for the 72-kD gelatinase and tissue inhibitor of metalloproteinases-1 were detected throughout the cycle. Transcripts for stromelysin-2 and the 92-kD gelatinase were only detected in late secretory and menstrual endometrium, while those for matrilysin, the 72-kD gelatinase, and stromelysin-3 were also consistently detected in proliferative endometrium. These data indicate that matrix metalloproteinases are expressed in cell-type, tissue, and reproductive cycle-specific patterns, consistent with regulation by steroid hormones, and with specific roles in the complex tissue growth and remodeling processes occurring in the endometrium during the reproductive cycle.
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PMID:Patterns of matrix metalloproteinase expression in cycling endometrium imply differential functions and regulation by steroid hormones. 808 80

In this study, we have used high resolution gel-filtration chromatography and measurements of Ki to compare the capacity of full-length native stromelysin, C-terminal truncated stromelysin (Phe100-Pro273), and matrilysin (the only metalloproteinase spontaneously lacking a C-terminal hemopexin-like domain) to bind to the tissue inhibitor of metalloproteinases (TIMP). While prostromelysin failed to bind TIMP, active stromelysin bound to the inhibitor avidly, exhibiting an affinity for TIMP (Ki = 8.3 x 10(-10) M) essentially identical to that of active interstitial collagenase as determined by competition experiments. C-terminal truncated stromelysin also formed a higher M(r) complex with TIMP which survived gel filtration. However, when truncated stromelysin was forced to compete with its full-length parent molecule for limiting amounts of TIMP, the full-length enzyme preferentially bound to the inhibitor. Indeed, binding studies indicated a Ki of 5.95 x 10(-9) M for the truncated variant's interaction with TIMP, only 14% as tight as that of full-length stromelysin. We also examined the interaction between TIMP and matrilysin, the only metalloproteinase which naturally lacks a C-terminal domain. Promatrilysin failed to bind the inhibitor. However, active matrilysin readily bound TIMP, forming a complex that resisted separation by gel filtration. When active matrilysin was forced to compete with truncated stromelysin for limiting amounts of TIMP, both enzymes appeared to complex the inhibitor with nearly equivalent efficacy. Indeed, active matrilysin exhibited a Ki for TIMP of 4.5 x 10(-9) M, essentially identical to that of truncated stromelysin. These data indicate that, as is true for collagenase, the C-terminal domain of stromelysin contributes significantly to its capacity to bind the physiologic inhibitor, TIMP. Furthermore, since stromelysin readily processes in vitro to a C-terminal truncated form, this enzyme species, as well as the full-length metalloproteinase matrilysin, may resist inhibition by TIMP in areas of active inflammation in vivo.
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PMID:Contribution of the C-terminal domain of metalloproteinases to binding by tissue inhibitor of metalloproteinases. C-terminal truncated stromelysin and matrilysin exhibit equally compromised binding affinities as compared to full-length stromelysin. 817 79

The role of matrix metalloproteinases (MMP's) and their inhibitor, tissue inhibitor of metalloproteinases-1 (TIMP-1), in human brain tumor invasion was investigated. Gelatinolytic activity was assayed via gelatin zymography, and four MMP's (MMP-1, MMP-2, MMP-3, and MMP-9) and TIMP-1 were immunolocalized in human brain tumors and in normal brain tissues using monoclonal antibodies. The tissue was surgically removed from 44 patients: glioblastoma (five cases), anaplastic astrocytoma (six cases), astrocytoma (four cases), metastatic tumor (six cases), neurinoma (10 cases), meningioma (10 cases), and normal brain tissue (three cases). Glioblastomas, anaplastic astrocytomas, and metastatic tumors showed high gelatinolytic activity and positive immunostaining for MMP's; TIMP-1 was also expressed in these tumors, but some tumor cells were negative for the antibody. Astrocytomas had low gelatinolytic activity and the tumor cells showed no immunoreactivity for MMP's and TIMP-1. Although neurinomas and meningiomas had only moderate proteinase activity and exhibited positive immunoreactivity for MMP-9, intense expression of TIMP-1 was simultaneously observed in these tumor cells. These findings suggest that MMP's play an important role in human brain tumor invasion, probably due to an imbalance between the production of MMP's and TIMP-1 by the tumor cells.
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PMID:Production of matrix metalloproteinases and tissue inhibitor of metalloproteinases-1 by human brain tumors. 820 29

The actions of recombinant human fibroblast collagenase (MMP1), purified polymorphonuclear leucocyte collagenase (MMP8) and their N-terminal catalytic domain fragments against cartilage aggrecan and an aggrecan G1-G2 fragment have been investigated in vitro. After activation with recombinant human stromelysin and typsin, both collagenases were able to degrade human and porcine aggrecans to a similar extent. An N-terminal G1-G2 fragment (150 kDa) was used to identify specific cleavage sites occurring within the proteinase-sensitive interglobular domain between G1 and G2. Two specific sites were found; one at an Asn341-Phe342 bond and another at Asp441-Leu442 (human sequence). This specificity of the collagenases for aggrecan G1-G2 was identical with that of the truncated metalloproteinase matrilysin (MMP7), but different from those of stromelysin (MMP3) and the gelatinases (MMP2 or gelatinase A; MMP9 or gelatinase B) which cleave at the Asn-Phe site, but not the Asp-Leu site. In addition, collagenase catalytic fragments lacking C-terminal hemopexin-like domains were tested and shown to exhibit the same specificities for the G1-G2 fragment as the full-length enzymes. Thus the specificity of the collagenases for cartilage aggrecan was not influenced by the presence or absence of the C-terminal domain. Together with our previous findings, the results show that stromelysin-1, matrilysin, gelatinases A and B and fibroblast and neutrophil collagenases cleave at a common, preferred site in the aggrecan interglobular domain, and additionally that both fibroblast and neutrophil collagenases cleave at a second site in the interglobular domain that is not available to stromelysin or gelatinases.
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PMID:Fibroblast and neutrophil collagenases cleave at two sites in the cartilage aggrecan interglobular domain. 821 28

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

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