SerpinB2 Regulates Immune Response in Kidney Injury and Aging.

BACKGROUND: Expression of SerpinB2, a regulator of inflammatory processes, has been described in the context of macrophage activation and cellular senescence. Given that mechanisms for these processes interact and can shape kidney disease, it seems plausible that SerpinB2 might play a role in renal aging, injury, and repair. METHODS: We subjected SerpinB2 knockout mice to ischemia-reperfusion injury or unilateral ureteral obstruction. We performed phagocyte depletion to study SerpinB2's role beyond the effects of macrophages and transplanted bone marrow from knockout mice to wild-type mice and vice versa to dissect cell type-dependent effects. Primary tubular cells and macrophages from SerpinB2 knockout and wild-type mice were used for functional studies and transcriptional profiling. RESULTS: Cultured senescent tubular cells, kidneys of aged mice, and renal stress models exhibited upregulation of SerpinB2 expression. Functionally, lack of SerpinB2 in aged knockout mice had no effect on the magnitude of senescence markers but associated with enhanced kidney damage and fibrosis. In stress models, inflammatory cell infiltration was initially lower in knockout mice but later increased, leading to an accumulation of significantly more macrophages. SerpinB2 knockout tubular cells showed significantly reduced expression of the chemokine CCL2. Macrophages from knockout mice exhibited reduced phagocytosis and enhanced migration. Macrophage depletion and bone marrow transplantation experiments validated the functional relevance of these cell type-specific functions of SerpinB2. CONCLUSIONS: SerpinB2 influences tubule-macrophage crosstalk by supporting tubular CCL2 expression and regulating macrophage phagocytosis and migration. In mice, SerpinB2 expression seems to be needed for coordination and timely resolution of inflammation, successful repair, and kidney homeostasis during aging. Implications of SerpinB2 in human kidney disease deserve further exploration.

Expression of plasminogen activator inhibitor-2 is negatively associated with invasive potential in hepatocellular carcinoma cells.

OBJECTIVE: To investigate the association between plasminogen activator inhibitor (PAI)-2 expression and invasive potential in hepatocellular carcinoma (HCC) cells. METHODS: The HCC cell lines with high, low, and non-metastatic potentials, namely MHCC97-H, MHCC97-L, and SMMC-7721 respectively, were cultured in vitro. Matrigel invasion assay and Western blot of PAI-2 protein expression were conducted. RESULTS: The number of invaded cells in MHCC97-L was significantly higher than that in SMMC-7721 (P=0.005), whereas that in MHCC97-H was higher than in MHCC97-L (P=0.017) and SMMC-7721 (P=0.001). Contrarily, PAI-2 protein expression was gradually reducing from SMMC-7721, MHCC97-L, to MHCC97-H (MHCC97-H vs. MHCC97-L, P<0.001; MHCC97-H vs. SMMC-7721, P=0.001; MHCC97-L vs. SMMC-7721, P=0.001). The Pearson's correlation analysis revealed a significant negative association between invaded cell number and PAI-2 expression (r=-0.892, P=0.001). CONCLUSION: PAI-2 expression may be negatively associated with the invasive potential of HCC.

A physiological function of inflammation-associated SerpinB2 is regulation of adaptive immunity.

SerpinB2 (plasminogen activator inhibitor-2) is widely described as an inhibitor of urokinase plasminogen activator; however, SerpinB2(-/-) mice show no detectable increase in urokinase plasminogen activator activity. In this study, we describe an unexpected immune phenotype in SerpinB2(-/-) mice. After immunization with OVA in CFA, SerpinB2(-/-) mice made approximately 6-fold more IgG2c and generated approximately 2.5-fold more OVA-specific IFN-gamma-secreting T cells than SerpinB2(+/+) littermate controls. In SerpinB2(+/+) mice, high inducible SerpinB2 expression was seen at the injection site and in macrophages low levels in draining lymph nodes and conventional dendritic cells, and no expression was seen in plasmacytoid dendritic, B, T, or NK cells. SerpinB2(-/-) macrophages promoted greater IFN-gamma secretion from wild-type T cells in vivo and in vitro and, when stimulated with anti-CD40/IFN-gamma or cultured with wild-type T cells in vitro, secreted more Th1-promoting cytokines than macrophages from littermate controls. Draining lymph node SerpinB2(-/-) myeloid APCs similarly secreted more Th1-promoting cytokines when cocultured with wild-type T cells. Regulation of Th1 responses thus appears to be a physiological function of inflammation-associated SerpinB2; an observation that may shed light on human inflammatory diseases like pre-eclampsia, lupus, asthma, scleroderma, and periodontitis, which are associated with SerpinB2 polymorphisms or dysregulated SerpinB2 expression.

Forty years later and the role of plasminogen activator inhibitor type 2/SERPINB2 is still an enigma.

Plasminogen activator inhibitor (PAI)-2 expression is acutely upregulated in pregnancy, inflammation, infection, and other pathophysiological conditions. Circumstances that prevent PAI-2 upregulation are associated with chronic pathology. Altogether this strongly suggests that PAI-2 is one of the many proteins that maintain homeostasis during damage or stress. However, several functions ranging from a classical serpin to various intracellular roles have been ascribed to PAI-2 and, because none of these have been definitively proven in vivo, to this day its precise role or roles remains an enigma. This review readdresses the evidence supporting a role for PAI-2 in fibrinolysis and proteolysis within extracellular environments and includes a review of the many potential intracellular functions attributed to PAI-2.

SerpinB2 deficiency modulates Th1/Th2 responses after schistosome infection.

SerpinB2, also known as plasminogen activator inhibitor type-2, is a major product of macrophages and is upregulated during many infections. Although SerpinB2 inhibits urokinase plasminogen activator in vitro, evidence that this represents its physiological role in vivo is not compelling. We have recently shown that SerpinB2-/-mice generate enhanced Th1 responses after immunization with a Th1 immunogen. Herein,we show that Schistosoma japonicum granulomas induced liver SerpinB2 mRNA expression by >600-fold in wild-type mice. In SerpinB2-/- mice, worm and egg burden, and granuloma number and volume were unaffected. However, granulomas in these mice were associated with reduced fibrosis (as determined by Sirius red staining and image analysis) and increased iNOS, IL-6, IL-10 and TNFa and decreased Arg 1 and IL-13 mRNA expression. SerpinB2-/- mice immunized with soluble egg antigen (SEA) also showed reduced levels of SEA-specific IgG1. SerpinB2 deficiency thus promoted certain Th1 and reduced certain Th2 responses in response to this Th2 immunogen.

A structural basis for differential cell signalling by PAI-1 and PAI-2 in breast cancer cells.

PAI-1 and PAI-2 (plasminogen-activator inibitor types 1 and 2) are inhibitors of cell surface uPA (urokinase plasminogen activator). However, tumour expression of PAI-1 and PAI-2 correlates with poor compared with good patient prognosis in breast cancer respectively. This biological divergence may be related to additional functional roles of PAI-1. For example, the inhibition of uPA by PAI-1 reveals a cryptic high-affinity site within the PAI-1 moiety for the VLDLr (very-low-density-lipoprotein receptor), which sustains cell signalling events initiated by binding of uPA to its receptor. These interactions and subsequent signalling events promote proliferation of breast cancer cells. Biochemical and structural analyses show that, unlike PAI-1, the PAI-2 moiety of uPA-PAI-2 does not contain a high-affinity-binding site for VLDLr, although uPA-PAI-2 is still efficiently endocytosed via this receptor in breast cancer cells. Furthermore, global protein tyrosine phosphorylation events were not sustained by uPA-PAI-2 and cell proliferation was not affected. We thus propose a structurally based mechanism for these differences between PAI-1 and PAI-2 and suggest that PAI-2 is able to inhibit and clear uPA activity without initiating mitogenic signalling events through VLDLr.

Deficiency of plasminogen activator inhibitor-2 impairs nutritionally induced murine adipose tissue development.

BACKGROUND: A functional role for several components of the fibrinolytic (plasminogen/plasmin) system in development of adipose tissue has been demonstrated. No information is available, however, on a potential role of plasminogen activator inhibitor-2 (PAI-2) in obesity. METHODS: In vitro, 3T3-F442A murine pre-adipocytes were differentiated into mature adipocytes. In vivo, 5-week-old male PAI-2-deficient (PAI-2(-/-)) mice and wild-type (WT) controls of the same genetic background (C57Bl/6) were kept on a high fat diet (HFD, caloric value of 20.1 kJ g(-1)) for 15 weeks. RESULTS: Semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR) revealed expression of PAI-2 mRNA during in vitro differentiation of pre-adipocytes and in vivo in s.c. and gonadal (GON) adipose tissues of WT mice, where it was localized both in the stromal/vascular cell fraction and in adipocytes. During HFD feeding, food intake and body weight gain were comparable for WT and PAI-2(-/-) mice. Subcutaneous plus GON fat mass was, however, significantly lower in PAI-2(-/-) mice (3.15 +/- 0.21 vs. 3.91 +/- 0.18 g; P < 0.05). Immunohistochemical analysis of adipose tissues revealed significant adipocyte hypotrophy in s.c. fat of PAI-2(-/-) mice (about 25% reduction in size; P < 0.01). Blood vessel density, normalized to adipocyte number, was comparable in s.c. fat, but was lower (P < 0.05) in GON fat of PAI-2(-/-) mice. Adipose tissue-associated fibrinolytic activity was not affected by PAI-2 deficiency. CONCLUSION: PAI-2 promotes adipose tissue development in mice via a mechanism independent of its antifibrinolytic effect.

Plasminogen activator inhibitor-2 is highly tolerant to P8 residue substitution--implications for serpin mechanistic model and prediction of nsSNP activities.

The serine protease inhibitor (serpin) superfamily is involved in a wide range of cellular processes including fibrinolysis, angiogenesis, apoptosis, inflammation, metastasis and viral pathogenesis. Here, we investigate the unique mousetrap inhibition mechanism of serpins through saturation mutagenesis of the P8 residue for a typical family member, plasminogen activator inhibitor-2 (PAI-2). A number of studies have proposed an important role for the P8 residue in the efficient insertion and stabilisation of the cleaved reactive centre loop (RCL), which is a key event in the serpin inhibitory mechanism. The importance of this residue for inhibition of the PAI-2 protease target urinary plasminogen activator (urokinase, uPA) is confirmed, although a high degree of tolerance to P8 substitution is observed. Out of 19 possible PAI-2 P8 mutants, 16 display inhibitory activities within an order of magnitude of the wild-type P8 Thr species. Crystal structures of complexes between PAI-2 and RCL-mimicking peptides with P8 Met or Asp mutations are determined, and structural comparison with the wild-type complex substantiates the ability of the S8 pocket to accommodate disparate side-chains. These data indicate that the identity of the P8 residue is not a determinant of efficient RCL insertion, and provide further evidence for functional plasticity of key residues within enzyme structures. Poor correlation of observed PAI-2 P8 mutant activities with a range of physicochemical, evolutionary and thermodynamic predictive indices highlights the practical limitations of existing approaches to predicting the molecular phenotype of protein variants.

Plasminogen activator system and vascular disease.

Vascular diseases, such as atherosclerosis, thromboembolic disorders and stroke, in addition to surgical procedures such as restenosis, all share the plasminogen activator system as a central component in the pathogenesis of vascular injury. Since the development of plasminogen deficient mice our knowledge of the effects of this proteolytic system in cardiovascular disease has vastly increased. The plasminogen activator system plays a key role in vascular homeostasis and constitutes a critical response mechanism to cardiovascular injury. The central components of the PA system are the proteolytic activators, urokinase-plasminogen activator (u-PA) and tissue-type plasminogen activator (t-PA), plasminogen (plg) and its degradation product, plasmin, together with the major inhibitors of this system, plasminogen activator inhibitor-1 and -2 (PAI-1, PAI-2). An extensive network of additional proteases, inhibitors, receptors and modulators directly associate and are influenced by the PA system, the largest group being the Matrix Metalloproteinases (MMPs) and their respective inhibitors the Tissue inhibitors of MMPs (TIMPS).

Overexpression of plasminogen activator inhibitor type 2 in basal keratinocytes enhances papilloma formation in transgenic mice.

The serpin plasminogen activator inhibitor (PAI) type 2 is expressed in differentiated epidermal keratinocytes. To explore its role in this tissue, we studied the impact of PAI-2 overexpression on epidermal differentiation and skin carcinogenesis. A mouse PAI-2-encoding transgene was targeted to basal epidermis and hair follicles under the control of the bovine keratin type 5 gene promoter. Two mouse lines were established, one of which strongly expressed the transgene and produced elevated levels of PAI-2 in the epidermis. Although it had no manifest impact on cellularity or differentiation of skin or hair follicles, PAI-2 overexpression rendered the mice highly susceptible to skin carcinogenesis induced by a single application of 7,12-dimethylbenz(a)anthracene (initiation) followed by twice weekly applications of 12-O-tetradecanoylphorbol-13-acetate [TPA (promotion)]. In transgenic mice, papillomas could be observed after 3 weeks of promotion; after 8 weeks, 94% (31 of 33) of transgenic mice had developed readily visible papillomas, whereas only 35% (7 of 20) of control mice (transgene-negative littermates) had barely detectable lesions. After 11 weeks, all but 1 (32 of 33) of the transgenic mice had papillomas as compared with only 65% (13 of 20) of control mice. After 11 weeks of promotion, application of TPA was terminated. In control mice, papillomas regressed and eventually disappeared; in transgenic mice, there was continued growth of papillomas, some of which further progressed to carcinomas. In contrast to massive apoptosis in regressing papillomas of control mice, only a few apoptotic cells were detected in transgenic papillomas after the cessation of TPA application. The effect of PAI-2 on papilloma formation did not appear to involve inhibition of the secreted protease urokinase-type plasminogen activator (uPA): PAI-2 accumulated predominantly in cells, and PAI-2 overexpression failed to alleviate a phenotype induced by uPA secretion, as demonstrated by a double transgenic strategy. In addition, in situ hybridization revealed that uPA mRNA is not expressed concomitantly with PAI-2 in developing papillomas. We conclude that overexpression of PAI-2 promotes the development and progression of epidermal papillomas in a manner that does not involve inhibition of its extracellular target protease, uPA, but appears to be related to an inhibition of apoptosis.

Urokinase-type plasminogen activator and its receptor: new targets for anti-metastatic therapy?

Urokinase-type plasminogen activator (uPA) and its receptor are instrumental in cell invasion and metastasis; their high levels of expression in human tumours correlates with a high risk of recurrence. uPA has a pleiotropic effect on cell migration and spreading in vivo and in vitro through the activation of plasminogen or other protein factors at the cell surface or in the extracellular matrix. Three specific inhibitors, with different tissue-specificities and regulatory properties, modulate cell-surface exposure of uPA activity. Overall, uPA is at the centre of a complex system affecting cell movement and invasiveness, and inhibition of uPA is now a goal of anti-metastatic therapy. The role of uPA and its inhibition are discussed in this review by Francesca Fazioli and Francesco Blasi.

Functional activity of eukaryotic signal sequences in Escherichia coli: the ovalbumin family of serine protease inhibitors.

It is widely assumed that the functional activity of signal sequences has been conserved throughout evolution, at least between Gram-negative bacteria and eukaryotes. The ovalbumin family of serine protease inhibitors (serpins) provides a unique tool to test this assumption, since individual members can be secreted (ovalbumin), cytosolic (leukocyte elastase inhibitor, LEI), or targeted to both compartments (plasminogen activator inhibitor 2, PAI-2). The facultative secretion of PAI-2 is mediated by a signal sequence proposed to be inefficient by design. We show here that the same internal domain that promotes an inefficient translocation of murine PAI-2 in mammalian cells is a weak signal sequence in Escherichia coli. In contrast, the ovalbumin signal sequence is much more efficient, whereas the corresponding sequence elements from LEI, maspin and PI-10 are entirely devoid of signal sequence activity in E.coli. Mutations that improve the activity of the PAI-2 signal sequence and that convert the N-terminal regions of maspin and PI-10 into efficient signal sequences have been characterized. Taken together, these results indicate that several structural features contribute to the weak activity of the PAI-2 signal sequence and provide new insights into the plasticity of the "hydrophobic core" of signal sequences. High-level expression of two chimeric proteins containing the PAI-2 signal sequence is toxic, and the reduced viability is accompanied by a rapid decrease in the membrane proton motive force, in ATP levels and in translation. In unc- cells, which lack the F0F1 ATP-synthase, the chimeric proteins retain their toxicity and their expression only affected the proton motive force. Thus, the properties of these toxic signal sequences offer a new tool to dissect the interactions of signal sequences with the protein export machinery.

Different roles for plasminogen activators and metalloproteinases in melanoma metastasis.

Malignant human melanoma cells produce many matrix-degrading enzymes, including plasminogen activators and matrix metalloproteinases. These enzymes have substrate specificity for different components of ECM and most of them have been demonstrated to contribute to melanoma cell-mediated dissolution of matrices and to melanoma cell invasion. The degradation of complex matrices in vitro requires the cooperation of proteases with specificity for glycoproteins and collagens. The contribution of proteases to spontaneous melanoma metastasis was studied by overexpressing specific protease inhibitors in human melanoma cells. Overexpression of PAI-2 inhibited the spread of distant metastasis indicating a role for uPA/plasmin in melanoma invasion. Overexpression of TIMP-2, in contrast, reduced the growth rate of subcutaneous tumors, but did not inhibit metastasis, indicating that MMP activities promote melanoma growth in the skin and may not be required for metastatic dissemination. Thus, uPA and MMP activities are involved in different processes, but they both contribute to melanoma malignancy.

A hybrid protein of the amino-terminal fragment of urokinase and mutant plasminogen activator inhibitor-2 efficiently inhibits tumor cell invasion and metastasis.

The urokinase plasminogen activator(uPA) system plays important roles in tumor cell invasion and metastasis. In the present study, we evaluated the effects of ATF-PAI2CD, a hybrid protein of the amino-terminal fragment of urokinase and mutant plasminogen activator inhibitor-2, on 95D cells in vitro and in vivo. Furthermore, our results support a current hypothesis that fusion protein blocks tumor invasion and motility by inhibiting localized pericellular proteolysis. Treatment of 95D cells with ATF-PAI2CD resulted in a dose-dependent decrease in tumor-cell invasion through matrigel, and ATF-PAI2CD was much more effective than PAI-2CD. In addition, extracellular regular protein kinase (ERK1/2) expression was downregulated and the adhesion ability to fibronectin was increased in 95D cells treated with the fusion protein, which was confirmed by cell adhesion assay. A high-concentration of ATF-PAI2CD caused a significant reduction in tumor volume and weight in BALB/c (nu/nu) mice female inoculated with human 95D cells (5 x 10(6)); the antitumor effects were significant, which demonstrated a 67.9+/-4.2% reduction in tumor growth compared with control mice. The number of lymphatic metastasis was significantly reduced in mice treated with high- and middle- concentrations of ATF-PAI2CD, whereas a low-concentration of ATF-PAI2CD failed to exhibit any antimetastatic effects. In conclusion, the results suggested that the hybrid protein has therapeutic potential for lung carcinoma and other tumors to inhibit tumor invasion and metastasis.

Suppression of keratinocyte proliferation by plasminogen activator inhibitor-2.

We have previously shown that urokinase plasminogen activator (uPA) stimulates the growth of human keratinocytes in culture. For this effect, uPA activity is essential to generate the active amino terminal fragment, by an autolytic process. Our findings indicated further that inhibition of uPA may result in the suppression of growth of keratinoytes. Here, we provide evidence that plasminogen activator inhibitor (PAI)-2 has an anti-proliferative effect on keratinocytes. The uPA activity in cultured keratinocytes increased in parallel with cell proliferation, reaching a maximum level at confluency and decreasing gradually thereafter. The analysis of synchronized cells showed that the peak uPA activity in the medium occured just prior to S-phase, suggesting that the production and secretion of uPA is related to cell proliferation. In contrast, PAI-2 levels showed a steady increase, even after confluency. When PAI-2, purified from human cornified cells, was added to synchronized keratinocytes, S-phase was no longer evident and the peak uPA activity was eliminated. In experiments with a bacterially expressed PAI-2 fusion protein, [3H]thymidine incorporation by keratinocytes was significantly suppressed, confirming an anti-proliferative effect of PAI-2. These results strongly suggest that PAI-2 is involved in the regulation of keratinocyte proliferation and differentiation.

Serpins in the human hair follicle.

Proteinases and their inhibitors are very likely to function as mediators or regulators of the hair growth cycle. Very little information is currently available, however, regarding the specific inhibitors present in human hair follicles at defined stages of their growth cycle. In this study we have analyzed two proteinase inhibitors, plasminogen activator inhibitor type 2 and protease nexin 1, in human hair follicles using in situ hybridization and/or immunohistochemistry. Protease nexin 1 mRNA was found only in the mesenchymal population of the hair follicle, i.e., the follicular papilla cells, during the anagen but not the catagen phase. In contrast, plasminogen activator inhibitor type 2 was localized to several epithelial populations in the follicle: the more differentiated cells of the infundibulum; the companion layer in anagen follicles; and the single layer of outer root sheath cells directly abutting the club hair in telogen follicles. At least some of the plasminogen activator inhibitor type 2 in human follicles appears to be in the relaxed form, as evidenced by strong staining with an antibody that is specific for this form of the inhibitor. This suggests that plasminogen activator inhibitor type 2 interacts with and is cleaved by an endogenous follicular proteinase and supports a constitutive role for this inhibitor in human follicular epithelia.

The enigma PAI-2. Gene expression, evolutionary and functional aspects.

The type-2 plasminogen activator inhibitor (PAI-2) belongs to the ovalbumin subfamily of serpins. It exhibits close to 50% homology with several recently cloned protease inhibitors such as the leukocyte elastase inhibitor, the placental thrombin inhibitor and the squamous cell carcinoma antigen. PAI-2 exists in an intracellular, nonglycosylated form of 47 kDa and a secreted, glycosylated form of about 60 kDa. The PAI-2 gene does not have a signal peptide which might explain why the major portion of PAI-2 remains intracellularly. Several response elements have been identified in the promoter region which are necessary for constitutive and phorbol ester and retinoic acid induced expression of the gene. These include two AP-1 sites, and response elements for cAMP, glucocorticoids and retinoic acid. The physiological function of PAI-2 has not been clearly elucidated. It may have cytoprotective functions and appears to play a role in programmed cell death.

Increased focal adhesion kinase- and urokinase-type plasminogen activator receptor-associated cell signaling in endothelial cells exposed to asbestos.

Exposure of low-passage endothelial cells in culture to nonlethal amounts of asbestos, but not refractory ceramic fiber-1, increases cell motility and gene expression. These changes may be initiated by the fibers mimicking matrix proteins as ligands for receptors on the cell surface. In the present study, 1- to 3-hr exposures of endothelial cells to 5 mg/cm2 of chrysotile asbestos caused marked cell elongation and motility. However, little morphological change was seen when chrysotile was added to cells pretreated with either mannosamine to prevent assembly of glycophosphatidylinositol (GPI)-anchored receptors or with herbimycin A to inhibit tyrosine kinase activity. Affinity purification of GPI-anchored urokinase-type plasminogen activator receptor (uPAR) from chrysotile-exposed cells demonstrated that asbestos altered the profile of proteins and phosphoproteins complexed with this receptor. Tyrosine kinase activities in the complexes were also increased by asbestos. Immunoprecipitations with selective monoclonal antibodies demonstrated that both chrysotile and crocidolite asbestos increase kinase activities associated with p60 Src or p120 focal adhesion kinase (FAK). Further, chrysotile also changed the profile of proteins and phosphoproteins associated with FAK in intact cells. These data suggest that asbestos initiates endothelial cell phenotypic change through interactions with uPAR-containing complexes and that this change is mediated through tyrosine kinase cascades.

Properties of metastasizing and nonmetastasizing human melanoma cells.

Dissemination of tumor cells includes several steps, such as: (a) detachment of tumor cells from the primary tumor, (b) traversement of the basement membrane, and (c) migration into the extracellular matrix. In these processes, at least two important categories of proteins are involved: proteases and adhesion molecules. In this contribution we describe the expression and function of components of the plasminogen activator (PA) system (proteases) and of integrins (cell-matrix adhesion molecules) in a panel of four human melanoma cell lines with different invasive and metastatic capacity. Regarding the components of the PA system, we found differences in expression of urokinase-type PA (uPA) and type 1 and 2 PA inhibitors (PAI-1 and -2) between metastasizing and nonmetastasizing cell lines. Both components were exclusively expressed in the highly invasive and metastatic cell lines. Interestingly, studies on the expression of PA components in fresh human melanocytic lesions, showed expression of these components exclusively in advanced primary melanomas and melanoma metastases. Regarding integrin expression we found elevated levels of VLA-2 and VLA-6 in the highly invasive and metastatic cell lines compared with normal cultured melanocytes and nonmetastatic melanoma cell lines. In addition, increased adhesion of the highly metastatic cell lines to laminin (LM) and collagen (COLL) was observed. Furthermore, reduced adhesion of normal melanocytes and nonmetastatic melanoma cells to LM and CO was mainly due to the fact that the integrins involved in adhesion to these matrix components were present in an inactive state. Finally, differences were observed in expression of integrins involved in adhesion to fibronectin.

Neutral proteinases and their inhibitors in the loosening of total hip prostheses.

This study demonstrated the profile of the neutral proteinases, i) matrix metalloproteinases (MMP)-1, -2, -3, and -9, and ii) serine proteinases, elastase, cathepsin G, urokinase and tissue type plasminogen activators (uPA and tPA) as well as their inhibitors, namely, tissue inhibitor of matrix metalloproteinases (TIMP)-1, alpha 1-antitrypsin, alpha 1-antichymotrypsin, plasminogen activator inhibitor (PAI)-1 & 2, around loose hip prostheses to clarify the step in the cascade of biological host response in the loosening of replaced total hip joints. Immunohistochemical analysis showed the presence of MMPs (MMP-1, -2, -3, and -9) and serine proteinases (elastase, cathepsin G, uPA and tPA) both in the interface tissues and pseudocapsular tissues. Functional biochemical analysis revealed elevated proteolytic activities of MMPs, especially, MMP-2 and MMP-9, and also elastase and cathepsin G, which were not inhibited in loco, although the inhibitors, TIMP-1, alpha 1-antitrypsin and alpha 1-antichymotrypsin were detected. The results suggested the imbalance of neutral proteinase-inhibitor levels around loose hip prostheses. The proteolytic enzyme in the interface tissues could directly weaken periprosthetic tissues. The pseudocapsular tissues may induce cellular host response and proteolytic activation. Thus, the pseudocapsular tissues could contribute to the loosening via production of MMPs and serine proteinases into the synovial fluid. Pseudosynovial fluid, which showed high contents of inhibitors (TIMP-1, alpha 1-antitrypsin and alpha 1-antichymotrypsin) associated with low proteolytic potentials, could be produced to prevent the unfavorable elevation of proteolytic enzymes in loco as a local host response to implants.