Woessner Jf scite author profile

Objective. To examine the effect of intraarticular injections of methylprednisolone acetate (MA) on osteoarthritic lesions and chondrocyte stromelysin synthesis in experimental osteoarthritis (OA).Methods. In 15 mongrel dogs, the anterior cruciate ligament of the right knee was sectioned by a stab wound. Eight dogs received intraarticular injections of MA (20 mg) at the time of surgery and 4 weeks later; 7 had no treatment. The dogs were killed 8 weeks after surgery. Five normal dogs were used as controls. Macroscopic evaluation of the lesions, including measurements of osteophytes and areas of surface lesions on the condyles and plateaus, was conducted, along with histologic evaluation of the severity of lesions. Immunohistochemical analysis was carried out using a rabbit polyclonal antibody against stromelysin, followed by evaluation of matrix and chondrocyte staining using morphometric analysis.Results. Treatment with MA significantly reduced the incidence (P < 0.0004) and size (P < 0.0001) of osteophytes. The histologic grading of cartilage lesions was also significantly reduced both on condyles (P < 0.01) and on plateaus (P < 0.002). Immunohisto- Address reprint requests to Jean-Pieme Pelletier, MD, Unitt des maladies rhumatismales, HGpital Notre-Dame, 1560 est, rue Sherbrooke, Montrtal, Qutbec, Canada H2L 4K8.Submitted for publication October 6, 1992; accepted in revised form August 10, 1993. chemical studies revealed, for OA cartilage, a marked increase (P < 0.002) in the percentage of chondrocytes positive for stromelysin and in the intensity of staining throughout all the layers of the cartilage, as well as specific matrix staining (P < 0.005). Treatment with MA reduced staining at both the chondrocyte (P < 0.002) and the matrix (P < 0.01) levels toward normal.

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Collagenase in Wound Healing: Effect of Wound Age and Type

et al. 1992

Journal of Investigative Dermatology

133

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The Action of Cathepsin D in Human Articular Cartilage on Proteoglycans

Ai¹,

Rd²,

Jf³

et al. 1973

J. Clin. Invest.

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Role of Matrix Proteases in Processing Enamel Proteins

1998

Connective Tissue Research

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This article reviews the current status of research on proteases of the enamel layer that are capable of processing and degrading proteins of the enamel matrix. Following a brief survey of the historical development of this discipline, a summary is presented of the current status. Two proteases have recently been cloned: EMSP-1 (enamel matrix serine protease-1), a serine protease, and enamelysin, a metalloprotease. These two are placed into their appropriate families: the chymotrypsin family S1 of clan SA of the serine protease class and the matrixin family or matrix metalloproteinase family, M10 of clan MB (the metzincins) of the metalloprotease class. The major features of these two families are outlined. The article concludes with some suggested areas for future research--identifying further proteases and characterizing those now known.

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Regulation of matrilysin in the rat uterus

Jf¹

1996

Biochem. Cell Biol.

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Matrilysin was first discovered in the involuting rat uterus; it has also been known as uterine metalloproteinase, putative metalloproteinase (Pump-1), and matrix metalloproteinase 7 (MMP-7). It is the smallest member (28 kDa) of a family of 15 MMPs that together are able to degrade most of the macromolecules of the extracellular matrix. This family is briefly reviewed; all members are zinc metalloproteinases that occur in zymogen form with the active site zinc blocked by cysteine. Matrilysin can degrade a wide range of gelatins, proteoglycans, and glycoproteins of the matrix and can activate several other MMPs including collagenase. With respect to the uterus, matrilysin is localized to epithelial cells and varies in amount with the estrus cycle and is found in high levels during postpartum involution. There is evidence for a role in the last stage of cervical ripening and immediately postpartum. Induction of premature delivery by onapristone and prostaglandin E2 advances these changes in matrilysin. Regulation of the enzyme levels in the uterus are considered from four viewpoints: control of protein synthesis (particularly in response to hormones), activation of the proenzyme to functional protease, retention of enzyme by binding to matrix components such as heparan sulfate, and inhibition by natural inhibitors such as tissue inhibitor of metalloproteinases (TIMPs) and alpha 2-macroglobulin.

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Woessner Jf

Intraarticular Injections with Methylprednisolone Acetate Reduce Osteoarthritic Lesions in Parallel with Chondrocyte Stromelysin Synthesis in Experimental Osteoarthritis

Collagenase in Wound Healing: Effect of Wound Age and Type

The Action of Cathepsin D in Human Articular Cartilage on Proteoglycans

Role of Matrix Proteases in Processing Enamel Proteins

Regulation of matrilysin in the rat uterus

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