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

The 72-kDa gelatinase/type IV collagenase (MMP-2) is a member of the matrix metalloproteinase (MMP) family of enzymes. This enzyme is known to cleave type IV collagen as well as degrade denatured collagens. However, native interstitial collagens are reportedly resistant to MMP-2 and are thought to be susceptible only to the interstitial collagenases MMP-1 and MMP-8. In this study we report that both human and chicken MMP-2, free of tissue inhibitors of metalloproteinases (TIMPs) are capable of cleaving soluble, triple helical type I collagen generating the 3/4- and 1/4-length collagen fragments characteristic of vertebrate interstitial collagenases. MMP-2 cleaves at the same Gly-Ile/Leu bond in the collagen alpha chains as interstitial collagenases with kcat and Km values similar to that of MMP-1. MMP-2 also is capable of degrading reconstituted type I collagen fibrils. The closely related 92-kDa gelatinase/type IV collagenase (MMP-9) is unable to cleave soluble or fibrillar collagen under identical conditions indicating that the specific collagenolytic activity of MMP-2 is not a general property of gelatinases. That MMP-2, a potent gelatinase, also can cleave fibrillar collagen provides an alternative to the proposal that two enzymes, an interstitial collagenase and a gelatinase, are required for the complete dissolution of stromal collagen during cellular invasion.
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PMID:Matrix metalloproteinase-2 is an interstitial collagenase. Inhibitor-free enzyme catalyzes the cleavage of collagen fibrils and soluble native type I collagen generating the specific 3/4- and 1/4-length fragments. 789 Jul 17

We recently showed that structural regression is marked by an endocrine-induced increase in matrix metalloproteinase activity specific for basement membrane, which suggests that extracellular matrix (ECM) may play an important role in sustaining luteal cell function. Such a role for ECM has been demonstrated for cultured mammary epithelial cells, hepatocytes, and keratinocytes. To test this hypothesis, granulosa cells from preovulatory follicles that were induced to luteinize by gonadotropin stimulation in vivo were examined. Initial studies established that cells cultured on plastic in medium supplemented with 1% fetal bovine serum, LH (100 pg/ml), PRL (1 microgram/ml), and insulin-like growth factor-I (5 ng/ml) showed a time-dependent increase in the secretion of progesterone (P4) and total progestin (P4 plus 20 alpha-dihydroprogesterone) for at least 10 days and that replacement of fetal bovine serum with 0.1% BSA stimulated P4 secretion and reduced the 20 alpha-dihydroprogesterone to P4 ratio from 10:1 to as low as 3:1. The inclusion of an anticell adhesion receptor subunit sera (Lenny IV, against the integrin beta 1-subunit) in the culture medium for the first 2 days resulted in an irreversible loss of progestin secretion by the cultured granulosa cells, but the inclusion of a bacterial collagenase (form III) had no effect. Granulosa cells from preovulatory follicles cultured on ECM (Matrigel matrix) formed cell aggregates and projected cellular sprouts, but secreted less P4 than those cultured on plastic. The inclusion of laminin in the culture medium or laminin coating the culture wells stimulated P4 secretion by granulosa cells and promoted the enlargement of steroidogenic cells (3 beta-hydroxysteroid dehydrogenase). Fibronectin-coated, but not collagen-I-coated, wells similarly promoted P4 secretion. These results suggest that a cell adhesion receptor (an integrin), and laminin and fibronectin, major glycoprotein components of ECM, play important roles in the differentiation of granulosa cells to luteal cells.
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PMID:A cell adhesion receptor antiserum abolishes, whereas laminin and fibronectin glycoprotein components of extracellular matrix promote, luteinization of cultured rat granulosa cells. 789 87

Degradative events in remodeling connective tissues are mediated through the actions of one or more members of the matrix metalloproteinase family. Conversely, members of the tissue inhibitors of metalloproteinase (TIMP) family act to attenuate proteolysis. Because collagenase and TIMP are rapidly secreted into the extracellular matrix following their biosynthesis and may not remain near their cell of origin, we undertook an immunohistochemical examination of human burn injuries to establish the distribution of these proteins during acute wound repair. Immunostaining for collagenase and TIMP was markedly increased within the wound bed but not in adjacent regions of histologically normal skin. Immunoreactive collagenase was first noted at the eschar-dermal interface by day 3 after injury and became very prominent in the dermis from day 5 to day 17. By day 5, focal patches of immunoreactive collagenase were found at the epidermal-dermal junctions at the wound margins. Within the wound bed, intense staining for collagenase was noted in the connective tissue surrounding the surviving epithelial appendages and around blood vessels. Immunoreactive TIMP was detected by day 2 both in the dermis and the overlying eschar but rapidly assumed the same interfacial pattern as described for collagenase. Staining for TIMP was only sporadically found at the dermal-epidermal margins and surrounding surviving epithelial appendages. Like collagenase, TIMP was prominently localized about vascular structures. These studies demonstrate that, in acute wounds, immunoreactive collagenase and TIMP are generally increased throughout the area of injury but particularly so at interface zones including eschar-dermis, epidermis-dermis, appendages-dermis, and around vascular structures.
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PMID:Immunolocalization of collagenase and TIMP in healing human burn wounds. 793 Jun 72

One of the most consistent observations in abdominal aortic aneurysm (AAA) disease is the disorganization and disruption of elastin and other matrix components of the aortic wall. The enzymatic basis for the biochemical features of AAA has been investigated beginning with the demonstration on substrate gel enzymography of a typical "profile" of proteinase activities in AAA tissue extracts which degrade gelatin, casein and elastin. A recombinant TIMP-1 affinity column was developed and three of the elastolytic/caseinolytic activities with approximate molecular weights of approximately 80 kDa, approximately 50 kDa and approximately 32 kDa were partially purified from these extracts. Affinity for rTIMP-1 suggests that these enzymes are members of the matrix metalloproteinase (MMP) family. High molecular weight forms of two MMPs, collagenase (MMP-1) and stromelysin-1 (MMP-3), were also isolated from the AAA tissue on this column; active forms of MMP-1 could be demonstrated by immunoblotting techniques in this preparation under reducing conditions. Infiltrating inflammatory cells are known sources of these proteolytic activities; analysis of these cell populations in the aneurysmal aortic wall using fluorescence-activated cell counting revealed a fifty-fold increase in macrophages (a well-known source of matrix-degrading enzymes) as well as a significant increase in lymphocytes.
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PMID:Matrix metalloproteinases in abdominal aortic aneurysm: characterization, purification, and their possible sources. 795 5

The mammary gland, during post-lactational involution, is subjected to extensive tissue reconstruction. This process is governed by the concerted expression of extracellular-matrix-degrading enzymes and their inhibitors. During carcinogenesis, the invasive growth of tumor cells is characterized by the penetration of the basement membrane and stromal invasion. We compared the expression of the tissue-remodeling enzymes stromelysin-1, a matrix metalloproteinase, and its inhibitor, tissue inhibitor of metalloproteinase-1 (TIMP-1), during mammary gland involution and carcinogenesis in mouse. In involuting mammary glands, stromelysin-1 was expressed in myoepithelial cells, whereas TIMP-1 was confined to the stromal tissue. To analyze the involvement of these tissue-remodeling genes in tumor development, we examined mammary tumors of transgenic mice expressing either the activated Ha-ras or c-myc oncogene under the control of a milk-protein gene promoter. In the undifferentiated and metastasizing Ha-ras-induced tumors, stromelysin-1 expression was comparable to that seen in involution, whereas TIMP-1 expression was greatly elevated. During Ha-ras-induced carcinogenesis, stromelysin-1 expression was first detected in the myo-epithelial cells surrounding preneoplastic lesions. In contrast, in the well-differentiated and non-metastatic mammary tumors induced by c-myc, no expression of either gene was observed. Thus, expression of stromelysin-1 and TIMP-1 is confined to the aggressively growing tumors and is induced in the earliest stages of carcinogenesis.
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PMID:Expression of stromelysin-1 and TIMP-1 in the involuting mammary gland and in early invasive tumors of the mouse. 796 Feb 27

We examined the in situ distribution of basement membrane collagen (Col IV), matrix metalloproteinase (MMP)-2, MMP-9 and tissue inhibitor of metalloproteinase-1 (TIMP-1) by immunohistochemistry and their mRNA levels by Northern blot analysis in 14 cases of squamous cell carcinoma of the lung. Elevated mRNA levels of MMP-2 and Col IV were demonstrated in all the cases examined and were associated with in situ disruption of basement membranes around the tumor nests. In contrast, TIMP-1 mRNA levels were not altered. MMP-2, MMP-9 and TIMP-1 were localized in tumor cells, stromal fibroblasts and endothelial cells. There were no significant correlations between these parameters and clinical staging. The results suggest that the degrading enzymes of basement membrane collagen play an important role in the invasion and metastasis of human squamous cell carcinoma of the lung.
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PMID:Expression of type IV collagen and its degrading enzymes in squamous cell carcinoma of lung. 796 Nov 22

We isolated the rabbit gene for the 92-kDa matrix metalloproteinase, gelatinase B, and sequenced 1802 contiguous bases covering the first three exons and 522 bases of DNA upstream of the start site for transcription. The DNA between bases -519 and +19 is sufficient to drive expression of a reporter gene in early passage cultures of corneal fibroblasts or primary cultures of corneal epithelial cells. Basal activity of the gelatinase B promoter in fibroblasts is lower than a collagenase promotor of 1800 base pairs, but activity of both promotors is similarly stimulated by treatment of transfected cells with phorbol 12-myristate 13-acetate, and stimulation is enhanced by co-treatment with transforming growth factor-beta. In contrast, basal activity of the gelatinase B promotor in epithelial cells is higher than the collagenase promotor. Deletion analysis demonstrated that sequences upstream of base -330 confer cell type-specific activity to the gelatinase B promotor. Site-directed mutagenesis revealed that an AP1-like element within this region is specifically utilized by fibroblasts. This region also contains elements that confer the capacity for activation by AP2, a transcription factor found to be expressed by corneal epithelial cells but not by corneal fibroblasts. In contrast, AP2 does not activate the collagenase promotor. These results provide a molecular basis for the unique cell type-specific expression pattern of gelatinase B as compared to other matrix metalloproteinases.
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PMID:The rabbit gene for 92-kDa matrix metalloproteinase. Role of AP1 and AP2 in cell type-specific transcription. 796 10

The characterization and regulation of matrix metalloproteinases (MMPs) have been studied to determine their role(s) in periodontal tissue destruction. Progress in elucidating the roles of MMPs in periodontal tissue destruction has led to a new concept involving the chemotherapeutic inhibition on MMPs, a therapeutic strategy which less than a decade ago was considered "a difficult and perhaps impossible task." Tetracyclines/doxycycline (DOXY) and their chemically modified nonantimicrobial derivatives (CMTs) are known to inhibit the matrix metalloproteinases, especially preferring human neutrophil collagenase (MMP-8), and prevent the oxidative activation of procollagenases. We characterized by Western blotting the molecular forms and cellular sources of gingival tissue, dental plaque, gingival crevicular fluid (GCF), and salivary MMPs associated with periodontitis. Also the molecular forms of tissue inhibitors of matrix metalloproteinases (TIMP-1 and TIMP-2) in periodontitis were studied by Western blot. Neutrophil (PMN)-derived MMPs were found to predominate in periodontitis, and phospholipase C present in increased amounts in periodontitis sites was found to be a potential inducer of PMN degranulation. We further studied the effects of DOXY on molecular forms of different latent and active MMPs purified from different cellular sources (PMNs, fibroblasts, keratinocytes) and present in vivo in oral exudates (gingival extracts, GCF, and saliva). DOXY inhibition of activated (oxidatively or proteolytically) MMPs were not associated with MMP fragmentation. Michaelis-Menten plots of initial rates of degradation of soluble type I collagen revealed an apparent Km value of 0.3-0.6 microM for MMP-8, and 75 microM DOXY inhibited MMP-8 in a manner which did not result in changes in apparent Km value but did prevent the initial degradation reaching Vmax providing evidence for noncompetitive inhibition. Treatment of patients with long-term DOXY medication results in decreased MMP-8 activities/levels in gingival tissue, crevicular fluid, and saliva, but not fragmentation of MMP-8 in vivo. These data further support and extend the key role of PMN-MMPs in periodontitis, and the activities of these PMN MMPs can be inhibited directly by therapeutic levels of DOXY.
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PMID:Effects of tetracyclines on neutrophil, gingival, and salivary collagenases. A functional and western-blot assessment with special reference to their cellular sources in periodontal diseases. 797 85

Gelatinase A, a member of the matrix metalloproteinase (MMP) family, is secreted possessing an 80 amino acid N-terminal propeptide that must be removed in order to generate the active enzyme. Purified progelatinase A was activated to 38% of maximum by a 6 h incubation at 37 degrees C with equimolar concentrations of trypsin-activated interstitial collagenase (another MMP). The increase in activity was accompanied by cleavage of the M(r) 72,000 progelatinase A to the M(r) 66,000 active enzyme that has Y81 as its N-terminus. At low concentrations, progelatinase A was processed via an inactive intermediate, suggesting that its activation is a biphasic process. This was confirmed by the action of collagenase on proE375-->A (a mutant of progelatinase A that cannot become active) because, in this instance, only an M(r) 68,000 species with L38 as the N-terminus was produced. The remaining propeptide amino acids to Y81 could be readily removed by added active gelatinase A, indicating that collagenase works by generating an intermediate that is susceptible to autolytic activation. Although relatively slow, the rate of activation could be increased approximately 10-fold by the addition of 100 micrograms/mL heparin. This binds to the C-terminal domain of collagenase and progelatinase A and presumably acts as a template that positions the reactants close to one another. Collagenase activated by trypsin retains 8 or 14 amino acids of its propeptide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reciprocated matrix metalloproteinase activation: a process performed by interstitial collagenase and progelatinase A. 798 Dec 1

Dysregulated extracellular matrix (ECM) metabolism may contribute to vascular remodeling during the development and complication of human atherosclerotic lesions. We investigated the expression of matrix metalloproteinases (MMPs), a family of enzymes that degrade ECM components in human atherosclerotic plaques (n = 30) and in uninvolved arterial specimens (n = 11). We studied members of all three MMP classes (interstitial collagenase, MMP-1; gelatinases, MMP-2 and MMP-9; and stromelysin, MMP-3) and their endogenous inhibitors (TIMPs 1 and 2) by immunocytochemistry, zymography, and immunoprecipitation. Normal arteries stained uniformly for 72-kD gelatinase and TIMPs. In contrast, plaques' shoulders and regions of foam cell accumulation displayed locally increased expression of 92-kD gelatinase, stromelysin, and interstitial collagenase. However, the mere presence of MMP does not establish their catalytic capacity, as the zymogens lack activity, and TIMPs may block activated MMPs. All plaque extracts contained activated forms of gelatinases determined zymographically and by degradation of 3H-collagen type IV. To test directly whether atheromata actually contain active matrix-degrading enzymes in situ, we devised a method which allows the detection and microscopic localization of MMP enzymatic activity directly in tissue sections. In situ zymography revealed gelatinolytic and caseinolytic activity in frozen sections of atherosclerotic but not of uninvolved arterial tissues. The MMP inhibitors, EDTA and 1,10-phenanthroline, as well as recombinant TIMP-1, reduced these activities which colocalized with regions of increased immunoreactive MMP expression, i.e., the shoulders, core, and microvasculature of the plaques. Focal overexpression of activated MMP may promote destabilization and complication of atherosclerotic plaques and provide novel targets for therapeutic intervention.
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PMID:Increased expression of matrix metalloproteinases and matrix degrading activity in vulnerable regions of human atherosclerotic plaques. 798 8


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