EC:3.4.24.3 - FACTA Search

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)

A cylindrical segment, free of complex atherosclerotic lesions, was resected at autopsy from each of 59 descending human thoracic aortas by cutting just below the level of the first pair of intercostal arteries and 35 mm distal to this incision. Each isolated tunica media was defatted and subjected to successive treatment with EDTA-Tris, 5 M guanidine hydrochloride-Tris, 5 M guanidine hydrochloride-Tris-DTE, collagenase and either trypsin or hot alkali. After each extraction or digestion, the dimensions and weight of the segments were measured and the extracted materials were analyzed and quantitated. This allowed the total content of the various components of the tunica media to be assessed by both gravimetric and analytical means. An age-related rise was observed in the total content of the following components: proteins and glycoproteins soluble in chaotropic solvents (ranging from 24 mg/cm in the youngest samples to 46 mg/cm in the oldest) and collagen (38 mg/cm to 69 mg/cm). In contrast, the total content of elastin remained constant at 70 mg/cm at all ages, but its concentration decreased due to the rise in the concentration of the other tissue components as the tunica media thickened with age. It was also noted that with increasing age there was an accumulation of protein(s) which could not be solubilized by extraction with chaotropic agents or with collagenase, but which could be removed by treatment with either trypsin or hot alkali. Mechanical measurements conducted before and after trypsin digestion on samples previously subjected to purification with the first four agents used suggest that this accumulated protein(s) influenced the elastic response of the tissue to the applied stress by increasing the incremental modulus, the breaking stress, and the hysteresis. After the removal of this additional protein(s), the mechanical behavior of the elastin component was found to be identical in all samples, irrespective of age. It is therefore proposed that the morphological changes and the stiffening observed in the aging aortic wall are not due to degradation of its elastin network but to variations in the supramolecular organization of connective tissue components.
...
PMID:Age-related changes in composition and mechanical properties of the tunica media of the upper thoracic human aorta. 682 97

A new hydrolase activity has been identified by its capability of cleaving t-boc-Ala-Ala-Pro-Ala-AMC, the released 7-amino-4-methylcoumarin (AMC) being quantified fluorometrically. The activity in the 28,000 X g supernatant fraction of homogenates of weanling mouse uterus was about one fifth that of the adult mouse. The administration of estradiol to the weanling mouse caused a prompt increase in uterine hydrolase, the response being biphasic with peaks at 2 and 6 h. Stimulation was dose responsive and effectively blocked by cycloheximide and puromycin. Estrogen stimulation of hydrolase activity was also observed in the kidney (one fourth that of in the uterus), but not in the heart or liver. Progesterone and testosterone were poor stimulators, but estriol was as effective as estradiol. According to its elution profile in gel filtration, a molecular weight for the hydrolase of about 60,000 is suggested. Inhibition studies in vitro with crude enzyme preparations indicate a serine protease with a SH group essential for maximal activity. The natural substrate for the hydrolase has not been elucidated. It does not solubilize [3H]elastin, and the properties seem to eliminate plasminogen or latent collagenase as possible substrates.
...
PMID:A new hormone-response hydrolase activity in the mouse uterus. 700 May

We have investigated the ability of neutral and lysosomal enzymes of mouse macrophages to degrade the insoluble extracellular matrices secreted by smooth muscle cells, endothelial cells, and fibroblasts. Matrices produced by smooth muscle cells contained glycoproteins, elastin, and collagens, but matrices of endothelial cells and fibroblasts contained no elastin. Sequential enzyme digestion of residual matrix revealed that plasmin, a product of macrophage plasminogen activation, degraded 50-70% of the glycoprotein in the matrices but did not degrade the elastin or the collagens. Purified macrophage elastase degraded glycoprotein and elastin components but had no effect on the collagens. The rate of elastin degradation by macrophage elastase was decreased in the presence of the glycoproteins. In contrast, human granulocyte elastase effectively degraded the matrix glycoproteins, elastin, and, to a lesser extent, collagens, Mammalian collagenase degraded only collagens. Conditioned medium from resident and inflammatory macrophages, containing mixtures of the secreted proteinases, degraded the glycoprotein and elastin components of the matrices. However, conditioned medium was less effective in degrading matrix than comparable amounts of purified macrophage elastase because > 90% of the elastase in the medium was in a latent form. Inclusion of plasminogen in the assays accelerated degradation. In the presence of plasminogen, glycoproteins were degraded readily by medium from P388D1, pyran copolymer-, thioglycollate-, and periodate-elicited macrophages and, to a lesser extent, by medium from endotoxin-elicited and resident macrophages; medium from P388D1, thioglycollate-, and periodate-elicited macrophages was most effective in elastin degradation, and resident, endotoxin-elicited and pyran copolymer-elicited macrophages degraded almost no elastin. The macrophage cathepsins D and B degraded all the matrix components at an optimum pH of 5.5 and acted with the secreted neutral proteinases to degrade the connective tissue macromolecules to amino acids and oligopeptides. These data indicate that macrophages at inflammatory sites contain and secrete proteolytic enzymes that could degrade the extracellular matrix.
...
PMID:Degradation of connective tissue matrices by macrophages. I. Proteolysis of elastin, glycoproteins, and collagen by proteinases isolated from macrophages. 700 Sep 66

Aortae from three patients with classic presentation of Marfan syndrome, who died of vascular complications, were subjected to biochemical analyses of the connective tissue; for comparison, aortae from eight age-matched controls, without evidence of connective tissue abnormalities, were examined. Elastin was prepared from the aortae by two techniques. First, the tissues were extracted with 5 M guanidine-HCl, bacterial collagenase digestion and reduction with dithiothreitol (elastin I preparation). Secondly, this material was further purified by extraction with 0.1 M NaOH at 99 degrees C (elastin II preparation). Amino acid analyses of both elastin preparations indicated that the values for desmosine and isodesmosine were reduced in Marfan cases to approximately one-half of the control values. A corresponding increase in lysyl residues was noted in elastin II preparations. Also, the concentration of elastin per milligram dry weight of tissue was reduced in Marfan cases. The hydroxyproline content of elastin was increased in two cases with the Marfan syndrome. Recoveries indicated that the alkali treatment solubilized 46.2% of the elastin I preparations in Marfan aortae compared with 23.7% in controls. In contrast to elastin, the concentration and solubility of collagen were unchanged; the amino acid composition and the genetic types of insoluble collagen isolated by limited pepsin proteolysis were the same in both Marfan and control aortae. The results of our study demonstrate that the cross-linking of aortic elastin is reduced in the three patients with Marfan syndrome. Thus, a defect in elastin could explain the vascular fragility observed clinically in these patients.
...
PMID:Marfan syndrome. Demonstration of abnormal elastin in aorta. 717 92

Studies were undertaken to define the molecular size of the elastin primary gene product. Translation of chick aortic messenger ribonucleic acid (mRNA) in an mRNA-dependent reticulocyte lysate resulted in the synthesis of two major proteins of 70 000 and 73 000 molecular weights. Both proteins were shown to be soluble forms of elastin by isotope incorporation, immunoprecipitation, collagenase and cyanogen bromide sensitivity, and two-dimensional gel electrophoresis. The 70 000-dalton protein behaves similarly to authentic tropoeleastin in sodium dodecyl sulfate gel electrophoresis. There was no evidence for a high molecular weight form of soluble elastin, although procollagen chains were indirectly identified among the aortic mRNA-directed translation products. The same molecular size proteins were also seen in organ cultures of chick embryonic aortas labeled with [3H]valine. However, the 73 000-dalton protein was not extractable in a neutral salt buffer but was found only if the aortas were extracted with urea in the presence of reducing and alkylating reagents. The results from these studies suggest that elastin is first synthesized as two distinct polypeptide chains which differ slightly in size and overall charge. The possibility that these two proteins may associate posttranslationally to form a dimer prior to secretion is postulated to explain the existence of a putative proelastin molecule seen in other systems.
...
PMID:Translation of chick aortic elastin messenger ribonucleic acid. Comparison to elastin synthesis in chick aorta organ culture. 735 64

In vitro human dermal fibroblasts were submitted to normal gravity (1 g) or to chronic hypergravity (20 g) over a period of 8 days. Changes in organization of extracellular matrix molecules were seen by indirect immunofluorescence. In the fibronectin layer, bundles of fibrils were gathered together leading to a disorganisation of the normal parallel pattern of fibers seen in control cultures. Type I collagen fibrils appeared with wooly outlines in controls whereas thick fibers were closely packed in 20-g cultures. A moderate increase of type III collagen fibril density was observed. No elastic fibers were seen in control or in 20-g cultures. In the culture medium, the release of soluble elastin (ELISA) and type I and III collagens (RIA) was undisturbed. Assays of enzymes involved in the remodeling of extracellular matrix showed an increase of cellular elastase activity (10%) and a decrease of the spontaneously active collagenase. Nevertheless, the total collagenase activity, (activated by trypsin), was increased by up to 30%. These data show a significant rise of the latent collagenase activity and suggest that release of the tissue inhibitor of metalloproteinase (TIMP1) was enhanced by hypergravity.
...
PMID:Modulation by hypergravity of extracellular matrix macromolecules in in vitro human dermal fibroblasts. 749 74

A small uterine metalloproteinase of the rat has been shown by amino acid and cDNA sequencing to be orthologous to human pump-1. Both proteinases are now designated as matrilysin or matrix metalloproteinase 7. The properties of purified uterine metalloproteinase and recombinant pump-1 were compared. Their specificities on substrates (gelatins, fibronectin, transferrin, elastin, Azocoll, and (7-methoxycoumarin-4-yl)acetyl-Pro-Leu-Gly-Leu-(3,[2, 4-dinitrophenyl]-L-2, 3-diaminopropionyl)-Ala-Arg-NH2) are similar and distinct from those of the stromelysins and gelatinases. The two matrilysins have similar sensitivity to hydroxamate and pseudopeptide inhibitors. Rat matrilysin selectively cleaves the alpha 2(I) chain of rat gelatin, producing major cuts at Gly713-decreases-Ile714, Gly775-decreases-Leu776, and Gly809-decreases-Ile810. Rat matrilysin produces maximum activation of latent human interstitial collagenase 1 (pro-matrix metalloproteinase 1) when added in the presence of 4-aminophenylmercuric acetate (APMA) by cleaving the Gln80-decreases-Phe81 bond. Rat and human matrilysin do not directly activate latent rat collagenase 3 (matrix metalloproteinase 13) and do not enhance its activation when added together with APMA. Autoactivation of collagenase 3 in the presence of APMA results in cleavage at Val81-decreases-Tyr82 corresponding to the Gln80-decreases-Phe81 cleavage in collagenase 1. Thus collagenase 3 is capable of maximal autoactivation, whereas collagenase 1 is dependent upon another matrix metalloproteinase in order to be activated to its full potential.
...
PMID:Characterization of rat uterine matrilysin and its cDNA. Relationship to human pump-1 and activation of procollagenases. 760 62

Synthetic elastin peptides, VPGVG or its polymer (VPGVG)n, enhanced the proliferation of smooth muscle cells 1.5-fold during 48 h treatment at the concentrations over 10(-6) M or 1.0 microgram/ml, respectively. Monomeric and polymeric VPGVG sequences reduced elastin synthesis and its mRNA level to one-third and one-half of control respectively under the conditions in which the proliferation of cells were enhanced, but did not change collagen synthesis as measured by bacterial collagenase digestion. The elastin-specific autoregulation by elastin fragments may reflect the feedback regulation of elastin expression which may play an essential role in elastin metabolism under the normal and diseased conditions.
...
PMID:Stimulation of cell proliferation and autoregulation of elastin expression by elastin peptide VPGVG in cultured chick vascular smooth muscle cells. 762 8

Many cellular properties are influenced by the surrounding environment of extracellular matrix. To better define the interaction between mononuclear phagocytes and the extracellular matrix components they contact, we studied the effect of various matrices on the biosynthesis and secretion of metalloenzymes and the tissue inhibitor of metalloproteinases in human alveolar macrophages. We found that native and denatured collagen types I and III markedly augmented production of interstitial collagenase (> 25-fold) and increased tissue inhibitor of metalloproteinases to a lesser degree (2.5-fold). In contrast, the biosynthesis of another major secreted macrophage metalloproteinase, 92-kDa gelatinase, was unaffected by contact with extracellular matrices. Furthermore, other matrix components (i.e. type IV collagen, laminin, fibronectin, elastin) failed to induce collagenase production. Maximal stimulation of macrophage collagenase production was achieved with 1-5 micrograms/ml (3-15 x 10(-9) M) denatured collagen in contact with cells for 2 h. Increased biosynthesis of collagenase was detected within 24 h of cell contact with native or denatured collagen and was accompanied by marked induction of collagenase mRNA levels. Our studies of signal transduction mechanisms demonstrated that indomethacin decreased gelatin-induced collagenase production by 90%, with enzyme levels completely restored by the addition of exogenous prostaglandin E2. Prostaglandin E2 was only effective when added within the first 2 h after indomethacin treatment. These results indicate that extracellular matrix can directly influence its remodeling and repair via regulation of the production of metalloenzymes by resident inflammatory cells. Furthermore, matrix-metalloproteinase inductive interactions are both enzyme- and matrix-specific, and are mediated, at least in part, by a prostaglandin-dependent mechanism.
...
PMID:Induction of macrophage metalloproteinases by extracellular matrix. Evidence for enzyme- and substrate-specific responses involving prostaglandin-dependent mechanisms. 768 37

Mechanical properties of the peripheral pulmonary parenchyma of freshly excised hamster lung tissue were examined to evaluate determinants of displacement-tension relationships with regard to structural constituents of the alveolar wall. A tissue segment measuring 50 x 50 x 400-600 microns and consisting mostly of the alveolar wall was prepared from the lung parenchyma adjacent to the pleura. By use of a constant speed maneuver for extension and relaxation of this minute preparation, displacement-tension relationships of peripheral pulmonary parenchyma were examined in a bath filled with 37 degrees C physiological buffer solution. The specimen was repeatedly extended up to 20-40 mg, a little above a point resembling "yield" in displacement-tension relationships. Analyses of displacement-tension relationships constantly showed double exponential relations. The first component at the lower strain was approximated by sigma 1 = A1(e alpha 1 epsilon - 1) and the second component beyond the inflection (yield) point was sigma = s1 + s2 = A1(e alpha 1 epsilon - 1) + A2(e alpha 2 epsilon - 1), where sigma, A, alpha, and epsilon represent stress, constant determined by tissue quantity, elasticity constant, and strain, respectively. Immersion of the lung specimen into elastase resulted in decreases of only alpha 1, and collagenase reduced alpha 2 but not alpha 1. Hyaluronidase, acetylcholine, ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid, and norepinephrine did not alter alpha 1 or alpha 2. These observations suggest that alpha 1 and alpha 2 of the peripheral pulmonary parenchyma are mechanical indexes of elastin and collagen characters, respectively.
...
PMID:Structural and functional characteristics of peripheral pulmonary parenchyma in golden hamsters. 771 19

<< Previous 1 2 3 4 5 6 7 8 9 10