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)

Skin biopsies from patients with pseudoxanthoma elasticum (PXE) were studied by electron microscopy either before or after selective digestions with collagenase, elastase, trypsin, hyaluronidase, chondroitinase AC and ABC, with the aim of identifying an eventual organic component associated with mineralization within the elastin fibers and the chemical nature of the enormous aggregates of filaments very often associated with, but distinct from mineralized elastin fibers. The results obtained, on both embedded thin sections and fresh tissue fragments, showed that elastin fibers, whether mineralized or not, were sensitive only to elastase, and they did not contain significant amounts of materials different from elastin that could be accounted for by ion precipitation; the aggregates of microfilaments in strict connection with altered elastin fibers were mostly sensitive to elastase and hyaluronidase, were partially removed by trypsin and chondroitinase, and were not modified by collagenase, which seems to indicate that the microfilaments consist mainly of abnormally aggregated elastin molecules together with low sulfated proteoglycans. It may be concluded that PXE is a complex genetic disorder of the connective tissue, and that mineralization of elastin is only one of the alterations of the extracellular matrix.
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PMID:Effect of selective enzymatic digestions on skin biopsies from pseudoxanthoma elasticum: an ultrastructural study. 301 57

We have shown previously that an increase in tumor invasion and metastases occurred concurrently with a decrease in collagen content of the extracellular matrix surrounding the C3H mouse mammary adenocarcinoma borne by C3H/HeJ mice. In this paper we report the production of collagenase and elastase activities by the primary tumor cultures and three types of cloned C3H mouse mammary adenocarcinoma cell cultures. The primary tumor cell cultures and tumor-associated stromal cultures produced large amounts of collagenase and elastase activities. On the other hand, the primary tumor capsule cultures produced little or no collagenase and elastase activities even though they produced type I collagen. The production of proteases by the primary tumor cultures decreased along with time and with an alteration in the morphology of cell populations and/or passage of the cultures. The three clones of tumor cell cultures produced variable amounts of collagenase in response to induction by phorbol myristate acetate, an agent that stimulates maximal collagenase production. In contrast, all three cloned cultures elaborated significant amounts of elastase that degraded insoluble ligamental elastin, and most of the elastase production was increased further in response to induction by phorbol myristate acetate. Each cloned cell population exhibited differences in their production of collagenase and elastase in parallel with their difference in growth kinetics, yet these cells still possess the distinctive properties of the tumor. However, a unit amount of collagenase produced by each of the cloned cultures, with or without induction by phorbol myristate acetate, was less than that of the primary tumor cultures. Results suggest that some cell types or combination of cell types in the heterogeneous cell population of the tumor and/or their products appear to be responsible for the increased production of collagenase and elastase activities and for the invasiveness of a malignant tumor.
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PMID:Collagenase and elastase production by mouse mammary adenocarcinoma primary cultures and cloned cells. 302 19

Low-density lipoproteins (LDL) were incubated with elastin particles, collagenase-resistant debris isolated from human aorta, and latex beads of 1.13 microns in diameter. As a result of incubation, insoluble LDL-associates were formed. These associates, as well as LDL-heparin-fibronectin-gelatin complexes described by other workers, were added to a 7-day primary culture of enzyme-isolated cells of human aortic subendothelial intima. The culture contained a mixed cell population made up mostly of typical and modified smooth muscle cells. 24 h later, total cholesterol, phospholipid, triacylglycerol, free cholesterol and cholesteryl ester levels were measured. Addition of insoluble LDL-complexes as well as LDL-associates to culture brought about a substantial accumulation of intracellular lipids; primarily, cholesteryl esters. The total cholesterol level in cultured cells was raised 3- to 8-fold. Addition of free LDL or LDL-free particles had no effect on the content of intracellular lipids. The results obtained allow the assumption that the occurrence of the LDL-mediated accumulation of intracellular lipids is due mainly to the LDL penetration inside the cell via 'nonspecific' phagocytosis and not through a regulated receptor-dependent pathway.
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PMID:Association of low-density lipoprotein with particulate connective tissue matrix components enhances cholesterol accumulation in cultured subendothelial cells of human aorta. 303 80

A small metalloproteinase that digests Azocoll was found in the uterus of the rat. Its activity increased to high levels during the postpartum period in parallel with the breakdown of the extracellular matrix exclusive of collagen (Sellers, A., and Woessner, J.F., Jr. (1980) Biochem. J. 189, 521-531). This enzyme has now been purified almost 7,000-fold to homogeneity from 12 g of tissue using molecular sieve chromatography, blue sepharose chromatography, and zinc-chelate chromatography. Gel electrophoresis with sodium dodecyl sulfate and dithiothreitol gives Mr = 28,000 for the latent form of the enzyme and Mr = 19,000 for the active form that arises spontaneously or by treatment with aminophenylmercuric acetate. The enzyme digests components of the extracellular matrix including gelatins of types I, III, IV, and V, fibronectin, and proteoglycan. It digests the alpha 2(I) chain of gelatin in preference to the alpha 1(I) chain and cleaves dinitrophenyl-Pro-Leu-Gly-Ile-Ala-Gly-Pro-D-Arg. It cleaves the B chain of insulin at two points: Ala14-Leu15 and Tyr16-Leu17. It has no action on collagens of types I, III, IV, or V at 26 degrees C and no action on elastin or phenylazo-Pro-Leu-Gly-Pro-D-Arg. The pH optimum is at pH 7 and the pI at 5.9. The enzyme requires zinc and calcium ions for activity; cobalt and strontium can partially replace these metal ions. The enzyme is not inhibited by low levels of phosphoramidon or Zincov. Its properties clearly distinguish it from collagenase, gelatinase (matrix metalloproteinase 2), and stromelysin (matrix metalloproteinase 3); it therefore constitutes a further member of the family of extracellular matrix metalloendopeptidases. The name matrix metalloproteinase 7 is proposed.
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PMID:Purification and properties of a small latent matrix metalloproteinase of the rat uterus. 318 22

In order to separate the changes of actinic damage from those of simple aging, we studied the elastic fibers in low and high sun-exposed skins of normal subjects at different ages. Low sun-exposed skin shows chronologic aging lesions only. These begin at age 30 with a disappearance of oxytalan fibers and with some abnormalities in the reticular and deep dermis; at age 40, aging changes are established: no oxytalan fibers, marked abnormalities, and lysis of elaunic and elastic fibers. In high sun-exposed skin, age-related lesions also occur but are associated with more or less precocious elastotic degeneration in reticular and deep dermis. Both types of aging fibers are revealed by the antielastin antibody HB 8, disappear with elastase, but resist collagenase. Actinic elastosis clearly originates from elastin. The two types of change differ in electron microscopic appearance: with spontaneous aging, elastic fibers are disintegrated (loose and porous fibers); in actinic damage, elastotic fibers are thicker and have accentuated microfibril dense masses. The age-associated lesions could be due to the activity of protease of fibroblastic origin whereas the elastotic degeneration is probably due to the actinic stimulation of fibroblasts.
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PMID:The elastic tissue of the skin. A comparison of spontaneous and actinic (solar) aging. 339 28

Most arteries follow a straight course because they are stretched by longitudinal traction. However, aneurysms and arteries in aged, hypertensive patients often exhibit tortuosity. This study was undertaken to examine mechanisms of tortuosity and the role of the arterial wall connective tissues. Experiments were performed in vitro on 48 dog carotid arteries before and after treatment with elastase or collagenase. Degradation of wall elastin caused aneurysmal dilatation and a marked decrease in longitudinal retractive force (p less than 0.05). This permitted the development of tortuosity. Degradation of wall collagen caused minimal dilatation but did cause vessel rupture; however, degradation of collagen produced no decrease in longitudinal retractive force (p = NS). These data demonstrate that failure of elastin permits vessels to (1) dilate aneurysmally and (2) elongate sufficiently to become tortuous. Failure of elastin plays a role in the tortuosity seen with age and hypertension, congenital kinking of arteries, aneurysms, and ectasias (arteriomegaly). Failure of collagen causes vessels to rupture but does not facilitate the development of tortuosity.
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PMID:Mechanisms of arterial and aneurysmal tortuosity. 341 85

The addition of highly purified elastic fibers to confluent human skin fibroblast or porcine aorta smooth muscle cell cultures resulted in a time-dependent, strong adhesion of the fibrils to the cell surface. The kinetics of adhesion was studied by video/time-lapse cinematography. After a 0.5-1 hr lag period, adhesion progressed to a maximum amount in 3-6 hr in the described conditions. Adhesion is strongly accelerated by the prior addition of soluble elastin peptides (kappa-elastin) to the cultures. Cycloheximide inhibits this induced adhesion. Adherent elastic fibers can be detached by treatment with elastase and trypsin but not with collagenase. The radioactive proteins adhering to elastic fibers, after a 6-hr incubation of the induced cultures in presence of [35S]methionine, were extracted and analyzed by NaDodSO4/PAGE. The proteins strongly adhering to the elastic fibers had apparent molecular sizes of about 120, 67, 60, and 45 kDa. Only the 120-kDa protein band showed a significant increase of its associated radioactivity in the induced cultures as compared to the noninduced cultures. We propose that the 120-kDa protein is responsible for the induced adhesion of mesenchymal cells to elastic fibers and designate it "elastonectin."
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PMID:Inducible adhesion of mesenchymal cells to elastic fibers: elastonectin. 346 47

A new connective tissue protein, which we call fibrillin, has been isolated from the medium of human fibroblast cell cultures. Electrophoresis of the disulfide bond-reduced protein gave a single band with an estimated molecular mass of 350,000 D. This 350-kD protein appeared to possess intrachain disulfide bonds. It could be stained with periodic acid-Schiff reagent, and after metabolic labeling, it contained [3H]glucosamine. It could not be labeled with [35S]sulfate. It was resistant to digestion by bacterial collagenase. Using mAbs specific for fibrillin, we demonstrated its widespread distribution in the connective tissue matrices of skin, lung, kidney, vasculature, cartilage, tendon, muscle, cornea, and ciliary zonule. Electron microscopic immunolocalization with colloidal gold conjugates specified its location to a class of extracellular structural elements described as microfibrils. These microfibrils possessed a characteristic appearance and averaged 10 nm in diameter. Microfibrils around the amorphous cores of the elastic fiber system as well as bundles of microfibrils without elastin cores were labeled equally well with antibody. Immunolocalization suggested that fibrillin is arrayed periodically along the individual microfibril and that individual microfibrils may be aligned within bundles. The periodicity of the epitope appeared to match the interstitial collagen band periodicity. In contrast, type VI collagen, which has been proposed as a possible microfibrillar component, was immunolocalized with a specific mAb to small diameter microfilaments that interweave among the large, banded collagen fibers; it was not associated with the system of microfibrils identified by the presence of fibrillin.
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PMID:Fibrillin, a new 350-kD glycoprotein, is a component of extracellular microfibrils. 353 67

The collagenolytic enzyme systems in the human, normal, and prolapsed intervertebral discs have been studied. Normal discs obtained postmortem contained a novel collagenase with specificity toward Type II collagen and gelatin but with little or no activity against Type I collagen. A method whereby enzymes are detected quantitatively in extracts of human tissue using specific substrates, without prior chromatographic separation of the enzymes, has been developed and used to study 14 normal discs and 35 surgically excised prolapsed discs. No differences were observed between annulus and nucleus extracts of normal discs either in the pattern of enzymes or the quantity. The intermediate zone between nucleus and annulus was excised and was not tested. Highly significant differences were observed between the enzyme patterns of the normal and prolapsed discs. The major collagenolytic activity of normal discs is against Type II collagen and 1 alpha 2 alpha 3 alpha collagen, there is little activity toward Type I collagen and virtually none toward elastin. Conversely, the prolapsed disc is more highly active against the substrates elastin and Type I collagen than against Type II collagen or 1 alpha 2 alpha 3 alpha collagen. The individual patterns of enzymes of the 35 prolapsed discs were virtually identical. Similarly there was little internal variation between the patterns of enzymes extracted from discs, obtained postmortem, which were apparently normal. The striking difference between the normal and prolapsed disc could be an important factor in the pathogenesis of disc prolapse.
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PMID:Abnormal connective tissue degrading enzyme patterns in prolapsed intervertebral discs. 378 41

Ten patients with necrobiosis lipoidica lesions were studied. Five patients had diabetes mellitus. The age of the patients varied from 15 to 73 years and the duration of the skin lesions was from 2 to 20 years. Histologically, the lesions were characterized by degeneration of collagen and elastin. In some lesions elastin fibers could be seen in areas devoid of normal-looking collagen. Electron microscopy revealed loss of cross-striation of collagen fibrils and a marked variation in the diameter of individual collagen fibrils. The concentration of collagen, measured by assay of hydroxy-proline, a collagen-specific amino acid, was markedly decreased in the lesional skin, but the ratio of type I/III collagen was unchanged in the affected skin. Fibroblasts established from affected skin synthesized less collagen than cells derived from healthy-looking skin. The decreased collagen synthesis was due to a decreased amount of messenger RNA for type I procollagen, measured by hybridization with a specific human cDNA clone. The production of collagenase by these fibroblasts was not increased. Our results thus indicate that in necrobiosis lipoidica lesions, collagen fibrils are defective and the amount of collagen is reduced, probably due to decreased synthesis of collagen by affected fibroblasts.
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PMID:Necrobiosis lipoidica: ultrastructural and biochemical demonstration of a collagen defect. 380 59

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