The complex between a tissue inhibitor of metalloproteinases (TIMP-2) and 72-kDa progelatinase is a metalloproteinase inhibitor.

Human rheumatoid synovial cells in culture secrete both 72-kDa progelatinase and a complex consisting of 72-kDa progelatinase and a 24-kDa inhibitor of metalloproteinases, TIMP-2. In addition, the culture medium contains TIMP-1, the classical inhibitor of metalloproteinases, with a molecular mass of 30 kDa. TIMP-1 does not form a complex with free 72-kDa progelatinase. Free progelatinase and progelatinase complexed with TIMP-2 can be activated with the organomercury compound p-aminophenylmercury acetate. The activated complex shows less than 10% the enzyme activity of activated free gelatinase. The progelatinase-TIMP-2 complex could be shown to be an inhibitor for other metalloproteinases, such as gelatinase and collagenase secreted by human rheumatoid synovia fibroblasts, as well as for the corresponding enzymes from human neutrophils.     

Endogenous TGF-β Activity Is Modified during Cellular Aging: Effects on Metalloproteinase and TIMP-1 Expression

In culture, nontransformed human diploid fibroblasts divide a limited number of times, resulting in a nonproliferating senescent cell culture which exhibits an altered pattern of gene expression. Previously we reported that an early event in the process of replicative senescence was an increase in the synthesis of two connective tissue degrading metalloproteinases, collagenase and stromelysin, and a decrease in the synthesis of the physiological inhibitor of those enzymes, tissue inhibitor of metalloproteinases-1 (TIMP-1). The cytokine TGF-β1 is known to regulate the expression of each of these three genes and to be synthesized and secreted by cultured human fibroblasts. This suggested the hypothesis that the age-specific modulation of collagenase, stromelysin, and TIMP-1 expression is the result of a change in TGF-β1 activity during replicative senescence. To test this hypothesis, the responses of early, mid, and late passage (presenescent) fibroblast cell cultures to a TGF-β neutralizing antibody were evaluated. In early passage cell cultures, exposure to TGF-β neutralizing antibody resulted in a significant increase in the expression of collagenase and stromelysin and decreased TIMP-1 expression. The antibody did not affect expression of either of those genes by late passage cell cultures, although late passage cultures did respond to added TGF-β1. Quantification of the levels of active TGF-β, using a growth inhibition assay, indicates that the level of active TGF-β1 is decreased during replicative senescence, supporting the conclusion that the modulation of collagenase, stromelysin, and TIMP-1 expression results from diminished TGF-β activity.     

Influence of macrophage products on the release of plasminogen activator, collagenase, beta-glucuronidase and prostaglandin E2 by articular chondrocytes.

We describe the effects of products of mononuclear phagocytes on the secretory activity of chondrocytes. The primary confluent cultures of rabbit articular chondrocytes were exposed to standard medium alone or enriched with conditioned medium obtained from cultures of rabbit peritoneal macrophages, the mouse macrophage cell line P388D1 or human blood mononuclear cells. Four markers of release were assessed, the neutral proteinases plasminogen activator and collagenase, the acid hydrolase beta-glucuronidase and prostaglandin E2, and the kinetics of their changes were monitored. Chondrocytes that were cultured in standard medium secreted large amounts of plasminogen activator, some beta-glucuronidase, but no collagenase, and released only minor amounts of prostaglandin E2. The addition of conditioned medium from rabbit macrophages induced a rapid release of large quantities of prostaglandin E2 and an abundant secretion of collagenase, while abolishing or strongly decreasing plasminogen activator secretion. In addition, beta-glucuronidase secretion was markedly enhanced. The decrease in secretion of plasminogen activator appeared to reflect a diminished production, since no evidence was found for the generation of inhibitors or for an accelerated extracellular breakdown of the enzyme. Conditioned media of the mouse and human mononuclear cells influenced the secretory activities of rabbit articular chondrocytes in a similar way, suggesting that the factor (or factors) acting on chondrocytes is produced by a variety of macrophages, and that its action is not species-restricted. The time course and concentration-dependence of the effects observed indicate that the secretion of plasminogen activator and collagenase are influenced in a strictly reciprocal fashion by the macrophage products. The release of prostaglandin E2 paralleled that of collagenase.     

Rabbit collagenase. Immunological identity of the enzymes released from cells and tissues in normal and pathological conditions.

1. The immunological cross-reactivity between rabbit collagenases from a variety of normal and pathological sources was examined. The specific antibody raised against collagenase secreted from normal rabbit synovial fibroblasts gave reactions of complete identity with collagenases secreted from fibroblasts derived from rabbit skin, and from synovium from experimentally arthritic rabbits. 2. The rabbit fibroblast collagenase was immunologically identical with collagenases obtained from the organ culture medium of normal rabbit skin, synovium, ear fibrocartilage and subchondral bone. 3. Collagenases from the culture media of normal rabbit synovium and from hyperplastic synovium of rabbits made experimentally arthritic were identical. 4. The collagenase secreted from rabbit fibroblasts gave a reaction completely identical with that of a collagenase extracted directly from a rabbit carcinoma. 5. IgG (immunoglobulin G) from a specific antiserum to rabbit fibroblast collagenase was a potent inhibitor of the collagenases obtained from the culture media of the various rabbit cells and tissues. 6. Collagenases from human synovium and from mouse macrophages and bone were neither precipitated nor inhibited by antibodies to rabbit collagenase. 7. No immunoreactive material was found in lysates of rabbit polymorphonuclear leucocyte granules with the specific antisera to rabbit fibroblast collagenase. No evidence for inactive forms of rabbit collagenase in lysates of the rabbit synovial fibroblasts could be found, either by double immunodiffusion against the specific collagenase, or by displacement of active enzyme from inhibition by the IgG.     

Cloning and expression of guinea pig TIMP-2. Expression in normal and hyperoxic lung injury

Tissue inhibitors of metalloproteinases (TIMPs) play a key regulatory role in extracellular matrix remodeling. By screening a lung library with a human TIMP-2 cDNA probe, we have isolated the cDNA corresponding to guinea pig TIMP-2. The 3.5-kb cDNA presents an open reading frame that predicts a protein of 220 amino acids showing 97.2, 96.8, 97.2, and 77.3% overall identity with human, mouse, rat, and chicken TIMP-2, respectively. Guinea pig TIMP-2 cDNA was expressed in CHO-K1 cells, showing a protein with the expected molecular weight and activity. Northern blot analysis revealed TIMP-2 expression in brain, kidney, intestine, spleen, heart, and lung. Transforming growth factor-beta downregulated TIMP-2 mRNA in guinea pig lung fibroblasts, whereas a variety of other stimuli showed no effect. In normal and hyperoxia-exposed lungs, TIMP-2 mRNA was mainly localized in alveolar macrophages and epithelial cells. No quantitative differences were found by Northern blot. These results confirm that TIMP-2 is highly conserved in mammals and largely expressed in lungs.     

TIMP-1/MMP-9 imbalance in an EBV-immortalized B lymphocyte cellular model: evidence for TIMP-1 multifunctional properties

Tissue inhibitors of metalloproteinases (TIMPs) were initially described as agents controlling metalloproteinase activity. The purpose of this study was to investigate the expression and the roles of TIMP-1 secreted by Epstein-Barr-virus (EBV)-immortalized B lymphocytes. TIMP-1 was isolated from conditioned medium of interleukin (IL)-1beta stimulated EBV-B lymphocytes; purified TIMP-1 was identified by mass spectrometry and immunochemistry. TIMP-1-free MMP-9 was quantified after purification by zymography and enzyme-linked immunosorbent assay. EBV-B lymphocyte-secreted TIMP-1 inhibited MMP-9 gelatinolytic activity resulting in decreased B-cell transmigration as measured in vitro. The release of huge amounts of TIMP-1 in proportion to MMP-9 from B lymphocytes after EBV transformation was shown to be correlated with secretion of IL-10 and dependent on culture time. In contrast, there was little TIMP-1 and almost no IL-10 released from native B cells, suggesting a possible IL-10 mediated autocrine regulation mechanism of TIMP-1 synthesis. The MMP-9/TIMP-1 imbalance observed in the culture medium of EBV-B lymphocytes (TIMP-1>MMP-9) and of native B cells (MMP-9>TIMP-1) is suggestive of a new function for TIMP-1. We propose that TIMP-1 acts as a survival factor controlling B-cell growth and apoptosis through an autocrine regulation process involving IL-10 secreted by EBV-B lymphocytes.     

Efficient purification of TIMP-2 from culture medium conditioned by human hepatoma cell line, and its inhibitory effects on metalloproteinases and in vitro tumor invasion.

Metalloproteinase inhibitors were surveyed with the culture media of 19 kinds of human tumor cell lines, using transin (rat stromelysin) as the target enzyme. This survey showed that most of the cell lines more or less secreted inhibitor activity, and that a human hepatoma cell line, HLE, secreted an extremely high inhibitor activity into the culture medium. Two kinds of metalloproteinase inhibitors were purified from the serum-free conditioned medium of HLE cells. The major inhibitor, which showed a single protein band with a molecular weight (Mr) of 21,000 (21k) (nonreduced) or 24k (reduced) on SDS-polyacrylamide gel electrophoresis, was identified as TIMP-2 (tissue inhibitor of metalloproteinases-2) by the analysis of its N-terminal amino acid sequence. The other was immunologically identified as TIMP. Purified TIMP-2 inhibited the activities of transin, matrin (pump-1), Mr 72k gelatinase, and interstitial collagenase with 1:1 stoichiometry. When the latent precursor form (Mr 57k) of transin was incubated with p-aminophenylmercuric acetate as an activating reagent, TIMP-2 inhibited the conversion of the intermediate form (Mr 45k) into the mature enzyme (Mr 42k). This indicated that TIMP-2 regulates not only the activity of the mature enzyme but also the autolytic processing of the proenzyme. TIMP-2 also inhibited in vitro tumor invasion through reconstituted basement membrane (matrigel) in chemotaxis chambers, showing that the metalloproteinase inhibitors as well as the extracellular matrix metalloproteinases are involved in tumor invasion through basement membrane and other extracellular matrices.     

Neutral proteinases of human mononuclear phagocytes. Cellular differentiation markedly alters cell phenotype for serine proteinases, metalloproteinases, and tissue inhibitor of metalloproteinases

Mononuclear phagocytes have the capacity to directly participate in extracellular matrix turnover via secretion of neutral proteinases. We have studied the effects of in vivo and in vitro differentiation upon cellular content or secretion of a spectrum of neutral proteinases, along with a counter-regulatory metalloproteinase inhibitor (TIMP). We found 1) matrix-degradative serine proteinases (leukocyte elastase and cathepsin G) were lost during cellular maturation and/or differentiation; 2) the 92-kDa type IV/type V collagenase and TIMP were secreted earliest in mononuclear phagocyte differentiation, whereas stromelysin secretion was observed only by LPS-stimulated alveolar macrophages; 3) exposure of alveolar macrophages, but not monocytes, to phorbol esters and LPS resulted in markedly augmented secretion of all studied metalloproteinases and TIMP; 4) monocyte-derived macrophages partially (but not completely) mimicked the metalloproteinase secretory phenotype of alveolar macrophages; and 5) the secretory phenotype of alveolar macrophages for interstitial collagenase (but not TIMP) was largely lost during in vitro culture. These results underscore the complexity of the process of differentiation in human mononuclear phagocytes, and provide insights into the variable capacity of mononuclear phagocytes to degrade extracellular matrix components. Moreover, we anticipate that human mononuclear phagocytes at various stages of differentiation will provide a useful model system for study of the variable regulation of secretion of human matrix-degrading metalloproteinases.     

Tissue-specific pretranslational regulation of complement production in human mononuclear phagocytes

The net production of the complement protein C2, C4, and factor B differ among mononuclear phagocytes from peripheral blood and different tissues in experimental animals and in humans. To examine the mechanisms that regulate these differences in humans, the proportions of C2-producing cells, the average single-cell production rate of C2, the posttranslational glycosylation and kinetics of secretion of C2 and factor B, and the amounts of C2 and factor B mRNA were examined in freshly isolated peripheral blood monocytes, monocytes maintained up to 2 wk in culture, and freshly isolated tissue macrophages from breast milk and bronchoalveolar lavage. In addition, the biosynthesis of two other proteins synthesized and secreted by mononuclear phagocytes, C3 and lysozyme, were examined. We report that despite comparable rates of C3 and lysozyme synthesis and similar processing and kinetics of secretion of C2 and factor B, the freshly isolated tissue macrophage differs from the monocyte-derived macrophage in the proportion of C2-producing cells, in the average single-cell production rate of complement, and in the amounts of specific C2 and factor B mRNA. These differences are tissue specific, because C2-specific mRNA content in bronchoalveolar macrophages is considerably greater than in breast milk macrophages, although the amounts of factor B mRNA are comparable. These data suggest that tissue-specific regulation of complement production in human mononuclear phagocytes occurs at a pretranslational level. These studies now provide a basis for investigation of the molecular effects of agents that modulate the biologic functions of monocytes and macrophages.     

Localisation of matrix metalloproteinases and TIMP-2 in resorbing mouse bone

There is strong evidence that matrix metalloproteinases (MMPs) play a crucial role during osteogenesis and bone remodelling. Their synthesis by osteoblasts has been demonstrated during osteoid degradation prior to resorption of mineralised matrix by osteoclasts and their activities are regulated by tissue inhibitors of metalloproteinases (TIMPs). For this study we developed and utilised specific polyclonal antibodies to assess the presence of collagenase (MMP13), stromelysin 1 (MMP3), gelatinase A (MMP2), gelatinase B (MMP9) and TIMP-2 in both freshly isolated neonatal mouse calvariae and tissues cultured with and without bone-resorbing agents. Monensin was added towards the end of the culture period in order to promote intracellular accumulation of proteins and facilitate antigen detection. In addition, bone sections were stained for the osteoclast marker, tartrate-resistant acid phosphatase (TRAP). In uncultured tissues the bone surfaces had isolated foci of collagenase staining, and cartilage matrix stained for gelatinase B (MMP9) and TIMP-2. Calvariae cultured for as little as 3 h with monensin revealed intracellular staining for MMPs and TIMP-2 in mesenchymal tissues, as well as in cells lining the bone plates. The addition of cytokines to stimulate bone resorption resulted in pronounced TRAP activity along bone surfaces, indicating active resorption. There was a marked upregulation of enzyme synthesis, with matrix staining for collagenase and gelatinase B observed in regions of eroded bone. Increased staining for TIMP-2 was also observed in association with increased synthesis of MMPs. The new antibodies to murine MMPs should prove valuable in future studies of matrix degradation.     

Tissue inhibitors of metalloproteinases-1 (TIMP-1) and -2(TIMP-2) are major serum factors that stimulate the TIMP-1 gene in human gingival fibroblasts

We demonstrate in this study that both TIMP-1 and TIMP-2 are major serum factors that stimulate the induction of TIMP-1 mRNA in quiescent human gingival fibroblasts (Gin-1 cells) at mid-G1 (6-9 h after serum stimulation) of the cell cycle, but not that of TIMP-2. When we chased the secretion of both TIMP proteins into culture medium containing 10% FCS freed of both TIMPs, TIMP-2 secretion rose to the level in 10% FCS after 24 h, but TIMP-1 secretion remained at a fairly low level even after 3 days, thus reflecting a contrastive difference in the induction of both TIMP mRNAs. The stimulating activity of TIMP-1 on the expression of the TIMP-1 gene switched over to inhibitory activity, when the TIMP-1 concentration in the culture medium exceeded about 30 ng/ml. The depletion of TIMP-1 and TIMP-2 from FCS affected remarkably the induction of c-jun and c-fos mRNAs, but not that of c-ets-1 mRNA. TIMP-1 and TIMP-2-dependent expression of AP-1 protein was further demonstrated by using nuclear extracts of Gin-1 cells in an electrophoretic mobility shift assay.     

Fibroblast stimulation in schistosomiasis. V. Egg granuloma macrophages spontaneously secrete a fibroblast-stimulating factor

Isolated intact egg granulomas from the liver of Schistosoma mansoni-infected mice have been previously shown to elaborate factors in vitro that can stimulate fibroblasts for biological functions that are of potential importance in the pathogenesis of hepatic fibrosis in schistosomiasis. We report here that cell cultures obtained from monodispersed granuloma cell suspensions, and specifically enriched for macrophages (95% to 100%) spontaneously elaborated fibroblast proliferation-stimulating activity in vitro. These cells possessed functional and phenotyptic characteristics of activated macrophages. In contrast, control peritoneal macrophages from uninfected mice lacked such phenotypic characteristics, and did not spontaneously elaborate fibrogenic activity in vitro. The granuloma macrophage activity was present, pre-formed within the isolated cells, and was continuously elaborated during 72 hr of incubation. By gel infiltration chromatography (Sephacryl S-200 sf), fibroblast-stimulating activity was identified in two pooled fractions, one with estimated molecular radius (Mr) of 46 kd to 57 kd and the other with Mr of 10 kd to 16 kd. Preparative isoelectric focusing in granular gel of crude macrophage culture supernatants identified peak activity in fractions with pI approximately 5. Two different serine esterase inhibitors had no effect on the ability of crude granuloma macrophage supernatants to stimulate fibroblast proliferation. Whereas crude and chromatographed fractions of granuloma macrophage supernatant were active for fibroblasts, they had minimal or no interleukin 1 (IL 1) activity when tested in a thymocyte proliferation assay. In contrast, resident peritoneal macrophages from the same infected mice spontaneously secreted substantial IL 1 and fibroblast-stimulating activity in vitro. We conclude that egg granuloma macrophages are activated in vivo to secrete fibrogenic molecules functionally distinct from IL 1, which might contribute to the pathogenesis of hepatic fibrosis in schistosomiasis.     

Human skin fibroblast collagenase inhibitor. Comparative studies in human connective tissues, serum, and amniotic fluid

In order to gain insight into the biological significance of a collagenase inhibitor secreted by human skin fibroblasts, we examined various human connective tissues and body fluids for such a protein. The inhibitors found in these tissues were compared immunologically to skin fibroblast inhibitor by Ouchterlony analysis and by the development of a highly specific enzyme-linked immunosorbent assay (ELISA). Using this ELISA, cell cultures of human skin fibroblasts, corneal fibroblasts, gingival fibroblasts, and adult and fetal lung fibroblasts secreted similar amounts of immunoreactive inhibitor protein. Each culture medium displayed a reaction of immunologic identity with skin fibroblast inhibitor when examined in Ouchterlony gel diffusion. In testing for functional inhibitory activity, the same 1:1 stoichiometry of collagenase inhibition was observed in each culture medium that characterizes the human skin inhibitor. Other mesodermally derived human cell types, including human fetal osteoblasts, uterine smooth muscle cells, fibrosarcoma cells, and explants of tendon and articular cartilage behaved in the same manner as the fibroblast cultures. Because collagenase inhibitors with biochemical similarities to skin fibroblast inhibitor have been described in serum and in amniotic fluid, we also examined these sources of inhibitory proteins. The data indicate that both serum and amniotic fluid contain collagenase inhibitors which are immunologically and functionally identical with the skin fibroblast inhibitor. The concentration of inhibitor in serum, as measured by ELISA assay, is 1.03 +/- 0.27 micrograms/ml. The results suggest that collagenase inhibitors which are functionally equivalent and immunologically identical with human skin fibroblast collagenase inhibitor are synthesized by many, if not all, fetal and adult mesodermal tissues in the human organism. The inhibitor apparently gains access to certain body fluids such as serum and amniotic fluid. This inhibitor protein may, therefore, function in the regulation of collagen degradation in most human connective tissues.     

Identification,purification and partial characterization of tissue inhibitor of matrix metalloproteinase-1 (TIMP-1) in bovine pulmonary artery smooth muscle

Bovine pulmonary artery smooth muscle tissue possesses the tissue inhibitor of matrix metalloproteinase-1 (TIMP-1) as revealed by immunoblot studies of the cytosolic fraction with polyclonal TIMP-1 antibody. In this report, we described the purification and partial characterization of the inhibitor from the cytosolic fraction of the smooth muscle. This inhibitor was purified by a series of anion-exchange, gel filtration and affinity chromatographic procedure. The purified inhibitor showed an apparent molecular mass of 30 kDa in SDS-PAGE. Amino terminal sequence analysis for the first 22 amino acids of the purified inhibitor was also found to be identical to bovine TIMP-1. This glycosylated inhibitor was found to be active against matrix metallorpoteinase-9 (MMP-9, gelatinase B), the ambient matrix metalloproteinase in the pulmonary smooth muscle. The purified TIMP-1 was also found to be sensitive to pure rabbit and human fibroblast collagenase and type IV collagenase. In contrast, it had minimum inhibitory activity against bacterial collagenase. It was also found to be inactive against the serine proteases trypsin and plasmin. The inhibitor was heat and acid resistant and it had the sensitivity to trypsin degradation and reduction-alkylation.     

Penetration of various mononuclear ribonucleases into rat experimental granulation-tissue fibroblasts and their intracellular effects

The penetration of five different mononuclear ribonucleases into the subcellular particles of rat experimental granulation-tissue fibroblasts was compared, along with the effects of the enzymes on the fibroblast RNA fractions. Ribonucleases from normal and silica-treated rat peritoneal macrophages have been shown before to regulate the nucleic acid and protein metabolism of rat experimental granulation-tissue fibroblasts. These biologically active enzymes were taken into the fibroblasts in a greater amount than the corresponding human monocyte enzymes and the biologically inactive rat macrophage ribonuclease. The biologically active macrophage enzymes were incorporated mainly into the nuclear fraction. The other three mononuclear ribonucleases were not found particularly in any subcellular compartment. Both biologically active macrophage enzymes degraded the nuclear RNA of fibroblasts and released it to the soluble fraction in contrast to the biologically inactive macrophage enzyme and ribonuclease from normal human monocytes. Instead the ribonuclease from normal human monocytes seemed to degrade RNA in the soluble fraction. There were no marked differences in the subcellular effects of ribonucleases from normal and silica-treated macrophages. However, the treatment of human monocytes with silica changed their ribonuclease so that it split the nuclear RNA of fibroblast and released it to the soluble fraction in the same way as the biologically active macrophage enzymes did.     

Regulation of macrophage collagenase, prostaglandin, and fibroblast-activating-factor production by anti-inflammatory agents: different regulatory mechanisms for tissue injury and repair

Activation of macrophages results in the production of tissue destructive mediators and enzymes including prostaglandins (PGE) and collagenase. In addition, activated macrophages also generate mediators which enhance connective tissue formation through their effects on fibroblast growth. To determine whether the pro-inflammatory mediators and the mediator(s) involved in tissue repair are under the same regulatory control, guinea pig macrophage cultures were treated with various pharmacologic agents and their supernatants monitored for biologic activity. The nonsteroidal anti-inflammatory agent, indomethacin, and the glucocorticoid, dexamethasone, at pharmacologic concentrations inhibited not only prostaglandin synthesis (greater than 90%) but also the production of collagenase (greater than 90%). Colchicine, a microtubule disruptive agent, but not the inactive form, lumicolchicine, markedly diminished the production of collagenase independently of prostaglandin synthesis. In contrast to the inhibitory effects of these anti-inflammatory agents on PGE and collagenase production, indomethacin did not inhibit the production of macrophage-derived fibroblast-activating factor (FAF). Furthermore, dexamethasone at pharmacologic doses did not inhibit FAF production. Colchicine not only did not inhibit FAF, but frequently enhanced the appearance of FAF In the macrophage cultures. Thus, it appears that regulation of the production of PGE and collagenase is different than the regulation of FAF synthesis and therefore the production of these mediators can be differentially modulated. Such a dissociation may provide a basis for mononuclear cell-mediated fibroblast growth and tissue repair to occur independently of the release of PGE2 and collagenase and even following anti-inflammatory drug therapy.     

Effect of heparin on the production of matrix metalloproteinases and tissue inhibitors of metalloproteinases by human dermal fibroblasts

The influence of heparin and a heparin fragment devoid of anticoagulant activity on the production of matrix metalloproteinases and tissue inhibitors of metalloproteinases by human dermal fibroblasts was studied. Doses (0.1-400 microg/ml) responses were performed and data obtained were similar whatever heparin or fragment was used. The basal expression of collagenase by fibroblasts decreased quasi-linearly with increasing doses of heparins from 1 to 400 microg/ml. TIMP-1 levels were not affected by supplementing serum free culture medium with heparins. On the contrary, at low concentration, i.e. 1-10 microg/ml, heparins stimulated the secretion of both 72-kDa gelatinase (1.4-1.6-fold) and particularly TIMP-2 (>4-fold). At high doses, MMP-2 and TIMP-2 production by fibroblasts returned to basal levels. These results suggested that the local concentration of heparin released by mast cells could be instrumental in modulating fibroblast growth and proteolytic phenotype.