Jr Jf Woessner scite author profile

Matrix metalloproteinases are an important group of zinc enzymes responsible for degradation of the extracellular matrix components such as collagen and proteoglycans in normal embryogenesis and remodeling and in many disease processes such as arthritis, cancer, periodontitis, and osteoporosis. A matrixin family is defined, comprising at least seven members that range in size from Mr 28,000 to 92,000 and are related in gene sequence to collagenase. All family members are secreted as zymogens that lose peptides of about 10,000 daltons upon activation. Latency is due to a conserved cysteine that binds to zinc at the active center. Latency is overcome by physical (chaotropic agents), chemical (HOCl, mercurials), and enzymatic (trypsin, plasmin) treatments that separate the cysteine residue from the zinc. Expression of the metalloproteinases is switched on by a variety of agents acting through regulatory elements of the gene, particularly the AP-1 binding site. A family of protein inhibitors of Mr 28,500 or less binds strongly and stoichiometrically in noncovalent fashion to inhibit members of the family. The serum protein alpha 2-macroglobulin and relatives are also strongly inhibitory.

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A latent form of collagenase in the involuting rat uterus and its activation by a serine proteinase

Woessner¹

1977

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1. The involuting rat uterus displays an extremely rapid breakdown of collagen. Collagenase activity can be assayed directly in the insoluble 6000g pellet of uterine homogenates. At 1 day post partum, about 85% of this collagenase activity is in a latent form. 2. This latent form can be activated by trypsin or by a serine proteinase present in the uterine pellets. 3. The activating enzyme of the tissue is inhibited by a wide spectrum of trypsin inhibitors, including Trasylol, soya-bean and lima-bean trypsin inhibitors, snail inhibitor and di-isopropyl phosphoro-fluoridate. Partial inhibition is produced by benzamidine, phenylmethanesulphonyl fluoride, epsilon-aminohexanoate, leupeptin, antipain and alpha1-antitrypsin. Ovomucoid, 7-amino-1-chloro-3-tosylamido-1-heptan-2-one and 1-chloro-4-phenyl-3-(N-benzyloxy-carbonyl)amino-L-butan-2-one are not inhibitory. 4. Extraction of uterine pellets with 0.1 M-CaCl2 at 60 degrees C releases both latent and active collagenase. Exclusion chromatography on Sephadex G-100 gives an apparent molecular weight of approx. 77000 for the latent form and 66000 for the active form. The latent form is suggested to be a zymogen of collagenase.

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Total, latent and active collagenase during the course of post-partum involution of the rat uterus. Effect of oestradiol

Woessner¹

1979

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1. Total, active and latent collagenase activities were determined by direct assay of tissue homogenates. 2. The rate of collagen breakdown during post-partum involution of the rat uterus is correlated with the total activity of collagenase. Both are low at parturition, reach a maximum within 24h and fall slowly to low values of 5 days post partum. This temporal correlation strongly supports the hypothesis that collagenase participates in collagen breakdown in vivo. 3. Further support for this hypothesis is provided by the finding that oestradiol-17 beta (100 micrograms/day, intraperitoneally injected), which inhibits the breakdown of collagen by 36% during the first 4 days of involution, produces a closely corresponding decrease in total collagenase activity. 3. The effect of oestradiol in lowering collagenase activity is not due to alterations in collagen substrate, collagenase kinetic behaviour or latent-to-active enzyme conversion. 4. Of the total assayable collagenase, about 35% is fully active and 65% is in a latent form. 5. About 70% of this latent form can be activated by a serine proteinase found, together with collagenase, in the insoluble fraction of uterine homogenates.

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Role of Metalloproteinases in the Development and Healing of Acetic Acid-induced Gastric Ulcer in Rats

Baragi¹,

Qiu²,

Gunja‐Smith³

et al. 1997

Scandinavian Journal of Gastroenterology

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The extraction of a neutral metalloproteinase from the involuting rat uterus, and its action on cartilage proteoglycan

Sellers¹,

Woessner²

1980

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1. Homogenates of rat uteri removed 1 and 2 days post partum were centrifuged at 6000 g. Both pellets and supernatants degraded Azocoll, a general proteinase substrate, at pH 7.5. More than 80% of the total activity was in the pellet fraction. 2. Part of the pellet activity was in a latent form. Trypsin and 4-aminophenylmercuric acetate (a thiol-blocking agent) both activated this latent form, indicating that it is an enzyme–inhibitor complex. An endogenous serine proteinase activated part of the latent enzyme during the assay. 3. The enzyme activity was low before parturition and after involution; it was highest during the first 2 days post partum, when the largest losses of uterine wet weight and matrix macromolecules occur. 4. Up to 70% of the enzyme in the pellets was extracted by heating at 60 degrees C for 4 min in 0.1 M-CaCl2/0.05 M-Tris/HCl, pH 7.5. Approx. 30% of the extracted enzyme was still latent. 5. The extracted enzyme was a metalloproteinase, since it was inhibited completely by 1,10-phenanthroline, but not by inhibitors of thiol or serine proteinases. 6. The enzyme was further purified 15–30-fold by gel chromatography and precipitation with (NH4)2SO4. The apparent molecular weight, estimated by gel filtration, was 24000 for the latent form and 12000 for the active form. The pH optimum was 7–7.5. 7. The enzyme also degraded cartilage proteoglycan. This activity was studied by viscometry and the products were analysed by analytical ultracentrifugation. The major product had a mol.wt. of approx. 100000. The sites of cleavage were in the protein core, since no free oligosaccharides were detected. 8. This neutral metalloproteinase is distinct from uterine collagenase and from a uterine metal-dependent endopeptidase that hydrolyses a heptapeptide related to collagen.

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Jr Jf Woessner

Matrix metalloproteinases and their inhibitors in connective tissue remodeling

A latent form of collagenase in the involuting rat uterus and its activation by a serine proteinase

Total, latent and active collagenase during the course of post-partum involution of the rat uterus. Effect of oestradiol

Role of Metalloproteinases in the Development and Healing of Acetic Acid-induced Gastric Ulcer in Rats

The extraction of a neutral metalloproteinase from the involuting rat uterus, and its action on cartilage proteoglycan

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