Characterization of Metalloproteinases and Tissue Inhibitors of Metalloproteinases in Human Plasma

Moutsiakis, Demetrius; Mancuso, Paul; Krutzsch, Henry C.; Stetler-Stevenson, William G.; Zucker, Stanley

doi:10.3109/03008209209015038

Cited by 56 publications

(40 citation statements)

References 27 publications

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“…TIMP-I, on the other hand, is a secretory protein and can be determined in body fluids such as plasma and synovial fluids [42][43][44][45][46]. Since oncostatin M induces TIMP-1 but suppresses TIMP-3, its physiological role in inflammatory processes might be to destabilize the inatrix in the local environment but to stabilize it systemically.…”

Section: Discussionmentioning

confidence: 99%

Oncostatin M Differentially Regulates Tissue Inhibitors of Metalloproteinases TIMP‐1 and TIMP‐3 Gene Expression in Human Synovial Lining Cells

Gatsios

Haubeck

Leur

et al. 1996

European Journal of Biochemistry

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Tissue inhibitor of metalloproteinases (TIMP) 1, 2 and 3 are related proteins that can form complexes with all known matrix metalloproteinases (MMPs). They inhibit the action of MMPs on extracellular matrix components. The balance of MMPs and TlMPs is important for tissue remodeling and its disturbance is believed to play a crucial role in pathophysiological processes such as tumor metastasis, destruction of cartilage and fibrosis. Cytokines and growth factors were found to regulate TIMPs and MMPs in a complex manner. In order to better understand the role of TIMPs in inflammatory joint diseases we have studied in vitro the regulation of TIMP-1 and TIMP-3 by intlammatory cytokines in cultured human synovial lining cells. We found that transforming growth factor PI as well as interleukin-I@ induce gene expression of both TIMP-1 and TIMP-3. In contrast, oncostatin M, an interleukin-6-type cytokine produced by activated T-lymphocytes and monocytes, had a differential effect on TIMP mRNA levels. After oncostatin M treatment, TIMP-1 expression was up-regulated but basal, as well as interleukin-lg-induced, TlMP-3 expression was inhibited. Interleukin-6 itself had no effect on synovial lining cells but a complex of interleukin-6 and the soluble interleukin-h receptor induced activation of signal transducer and activator of transcription (STAT) factors in these cells and regulated TIMP-I and TIMP-3 expression in a similar fashion as oncostatin M. Since TIMP-3 is matrix-associated whereas TIMP-1 is found in many body fluids, the role of oncostatin M during inflammatory processes might be to promote ECM degradation i n the local environment but to prevent it systemically.

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Section: Discussionmentioning

confidence: 99%

Oncostatin M Differentially Regulates Tissue Inhibitors of Metalloproteinases TIMP‐1 and TIMP‐3 Gene Expression in Human Synovial Lining Cells

Gatsios

Haubeck

Leur

et al. 1996

European Journal of Biochemistry

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“…Western blotting was performed using affinity-purified rabbit polyclonal antibodies directed against purified native proteins (TIMP-1, TIMP-2) and a synthesized peptide corresponding to the sequence of gelatinase A (amino acids 67-89) as described previously (35). Recombinant proteins were used as positive controls in immunoblotting.…”

Section: Zymography and Protein Studiesmentioning

confidence: 99%

Thrombin Induces the Activation of Progelatinase A in Vascular Endothelial Cells

Zucker

Conner

DiMassmo

et al. 1995

Journal of Biological Chemistry

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181

130

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Angiogenesis requires degradation of vascular basement membrane prior to migration and proliferation of endothelial cells; proteinases are essential ingredients in this process. Because of thrombin's multiple effects on endothelium, we have examined its role in matrix metalloproteinase activation using human umbilical vein endothelial cells. Gelatin zymography of endothelial conditioned media revealed a prominent 72-kDa progelatinase A band. Addition of ␣-thrombin to endothelial cells resulted in the generation of 64 and 62 kDa gelatinolytic bands which is consistent with the activation of progelatinase A; thrombin had no effect in the absence of cells. This effect requires the proteolytic site of thrombin since progelatinase A activation was abolished by specific inhibitors of thrombin. Matrix metalloproteinase inhibitors diminished thrombin-induced activation of progelatinase A. Pretreatment of endothelial cells with excess tissue inhibitor of metalloproteinase-2 or a COOH-terminal fragment of progelatinase A abrogated thrombin-mediated activation of progelatinase A presumably by competing with the COOH terminus of native progelatinase A for interaction with an activator site on endothelial plasma membranes. Although membrane-type matrix metalloproteinase was demonstrated in endothelial cells by Northern and Western blotting, the receptor function of this molecule in thrombin-induced activation of progelatinase A needs to be clarified. Progelatinase A activation did not require intracellular signal transduction events mediated by the thrombin receptor. These data demonstrate that 1) endothelial cells express a novel activation mechanism for progelatinase A, 2) proteolytically active thrombin regulates this activation mechanism, and 3) activation occurs independently of the functional thrombin receptor.Whereas the effect of thrombin (EC 3.4.21.5) on production of fibrin and activation of platelets has been intensively studied over many years, interest in the role of thrombin on endothelial function has lagged. Recent studies have indicated that thrombin affects post-clotting events involved in angiogenesis (1). The vascular endothelium actively binds coagulation proteins, resulting in cell-surface generation of thrombin that can persist within the protected environment of a clot (2). A unique Gprotein-coupled thrombin receptor (3) is known to be functionally expressed by endothelial cells (4). Interaction of thrombin with an endothelial cell-surface thrombin receptor(s) results in a multiplicity of effects including cell retraction and permeability, generation of phosphoinositides and prostaglandin, and secretion of Von Willebrand factor, tissue plasminogen activator, and platelet-derived growth factor (5-7). The role of individual thrombin receptors and endothelial signal transduction events on thrombin-mediated cell activation phenomena remain incompletely characterized (4).Neoangiogenesis, the formation of new blood vessels from preexisting vessels, requires the degradation of underlying basement membranes p...

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“…13 Approximately 20 years ago, it was first described that peripheral blood contains several forms of MMPs 47 (ie, soluble constitutive form in plasma, and intracellular zymogens in platelets and leukocytes). 48,49 The discrepancy in MMP concentrations between serum and plasma was reported for the first time Ϸ15 years ago, 14 but only beginning in 1996 17 has the influence of the blood sampling process on MMP concentrations and zymographic profiles been carefully evaluated. 18 -41 In particular, although MMP-2 and TIMP-2 (activity and concentration) show no significant difference between plasma and serum, 15,19,23,24,26,30 -32,34,36,50 the levels and zymographic separation of the MMP-1, -8, and -9 forms and TIMP-1 are strongly affected by anticoagulants.…”

mentioning

confidence: 99%

“…23,64,65 The major differences between plasma and serum involve TIMP-1 and MMP-1, -8, and -9 forms, and to a much lesser extent MMP-2, which is considered the constitutive gelatinase circulating in blood. [47][48][49] The presence of MMPs in higher amounts in serum than in plasma is related not only to disease status but also to coagulation/fibrinolytic pathways. 38 In fact, the rapid separation of serum (minimizing the time between blood drawing and centrifugation) does not prevent the artificially high MMP-9 content in serum.…”

mentioning

confidence: 99%

Serum or Plasma Samples?

Mannello

2008

ATVB

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Characterization of Metalloproteinases and Tissue Inhibitors of Metalloproteinases in Human Plasma

Cited by 56 publications

References 27 publications

Oncostatin M Differentially Regulates Tissue Inhibitors of Metalloproteinases TIMP‐1 and TIMP‐3 Gene Expression in Human Synovial Lining Cells

Oncostatin M Differentially Regulates Tissue Inhibitors of Metalloproteinases TIMP‐1 and TIMP‐3 Gene Expression in Human Synovial Lining Cells

Thrombin Induces the Activation of Progelatinase A in Vascular Endothelial Cells

Serum or Plasma Samples?

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