Matrix metalloproteinase-3-dependent generation of a macrophage chemoattractant in a model of herniated disc resorption.

Herniated disc (HD) is a common health problem that is resolved by surgery unless spontaneous resorption occurs. HD tissue contains abundant macrophage infiltration and high levels of matrix metalloproteinases (MMPs) MMP-3 and MMP-7. We developed a model system in which disc tissue or isolated chondrocytes from wild-type or MMP-null mice were cocultured with peritoneal macrophages and used this system to investigate the role of MMPs and chondrocyte/macrophage interactions in disc resorption. We observed a marked enhancement of MMP-3 protein and mRNA in chondrocytes after exposure to macrophages. Chondrocytic MMP-3, but not MMP-7, was required for disc resorption, as determined by assaying for a reduction in wet weight and proteoglycan content after 3 days of coculture. Surprisingly, chondrocyte MMP-3 was required for the generation of a macrophage chemoattractant and the subsequent infiltration of the disc tissue by proteolytically active macrophages. We conclude that macrophage induction of chondrocyte MMP-3 plays a major role in disc resorption by mechanisms that include the generation of a bioactive macrophage chemoattractant.

The 92-kDa gelatinase B is expressed by advanced stage melanoma cells: suppression by somatic cell hybridization with early stage melanoma cells.

The production and local release of various proteolytic enzymes, either by tumor cells or tumor-associated stromal cells, is thought to facilitate the malignant behavior of solid tumors. Human cutaneous melanoma offers an excellent clinical model to study the possible contribution of such proteases to solid tumor progression because melanoma goes through a series of well defined stages in its pathogenesis; moreover, permanent cell lines have been established from these various stages. As a first step to analyzing the gelatinolytic enzymes in melanoma pathology, we examined cell lines derived from early stage primary melanomas in which patients were cured of their disease and compared the results to those obtained with cell lines established from advanced stage primary lesions or metastases (i.e., from patients who eventually succumbed to the disease). We found that 80% of cell lines examined from early stage lesions constitutively produced only the 72-kDa gelatinase A but never the 92-kDa gelatinase B. In contrast, the majority of advanced stage cell lines examined produced both the 72-kDa gelatinase A and the 92-kDa gelatinase B. Advanced stage cell lines that did not constitutively produce the 92-kDa gelatinase B could be induced to do so with transforming growth factor beta, interleukin 1 beta or 12-O-tetradecanoyl-phorbol-13-acetate. In total, 0 of 5 early stage cell lines constitutively expressed the 92-kDa gelatinase B, and only 2 of 5 could be induced to produce this activity. In contrast, all advanced stage cell lines that were evaluated either constitutively or inducibly produced the 92-kDa gelatinase B. To analyze the mechanism by which 92-kDa gelatinase B production is switched on in the advanced stage melanoma cell lines, somatic cell hybrids were constructed using an advanced stage melanoma cell line as one partner and either one of two early stage cell lines as the other. Constitutive production of the 92-kDa gelatinase B in such hybrids was lost and could not be induced in such hybrids. Coculture of the early and advanced stage cell lines failed to recapitulate what was seen after somatic hybridization, and zymographic analysis of lysates from hybrid cell lines demonstrated no 92-kDa gelatinase B activity. Reverse transcription-PCR analysis demonstrated that the loss of 92-kDa gelatinase B production occurred at the level of steady-state mRNA for the enzyme.(ABSTRACT TRUNCATED AT 400 WORDS)

Targets of extinction: identification of genes whose expression is repressed as a consequence of somatic fusion between cells representing basal and luminal mammary epithelial phenotypes.

The use of somatic cell hybrids has led to an increased understanding of the 'negative' regulation of cellular phenotype. Using somatic cell hybrids constructed between human breast cells that represent differing stages of malignancy but also display differing phenotypes from the same tissue, we present experimental results suggesting that luminal epithelial characteristics are controlled by repressive mechanisms. Fusion of HBL 100 cells, non-tumorigenic and characteristic of the basal cell lineage, with MCF-7 or MDA-MB-468 malignant breast cancer cells, characteristic of the luminal lineage, resulted in hybrid cells that displayed the phenotype of the HBL 100 cells. Using representational difference analysis, a panel of genes whose expression was repressed in the hybrid between HBL 100 and MDA-MB-468 was identified. This analysis revealed markers of luminal epithelial cells to be repressed, including Ep-CAM, cytokeratin 19 and E-cadherin. These markers were found to be coordinately re-expressed in variant hybrid cells indicating that the observed repression is reversible. Integrin (alpha)(v)(beta)(3) expression was found to be in mutual exclusivity to the luminal epithelial markers, thereby revealing a bidirectional 'switch' in the pattern of gene expression in this system. Finally, the expression of Ep-CAM was found to be lost in heterokaryons produced by fusion of HBL 100 and MCF-7 or MDA-MB-468 cells suggesting that the extinction of this gene in hybrid cells is the consequence of a trans-acting factor(s) synthesized by the HBL 100 cells. These data suggest that a number of markers of luminal cell differentiation in the mammary gland can be controlled through negative mechanisms and that such control of phenotype is highly coordinated.

Constitutive production of 92-kDa gelatinase B can be suppressed by alterations in cell shape.

We have examined the effect that cell shape has on production of the 92-kDa gelatinase B, an enzyme of the matrix metalloproteinase family thought to contribute to the invasiveness of both normal and malignant cells. Using the agent poly(HEMA) and a human melanoma cell line that constitutively produces both the 72- and 92-kDa gelatinases, we have found that alteration in cell shape, that is, a change in cell "roundness," resulted in a specific loss of the constitutive production of the 92-kDa gelatinase B. To examine this phenomenon further, cells were treated with an inhibitor of actin polymerization, cytochalasin D. This treatment also resulted in a loss of 92-kDa gelatinase B production, provided the cells were treated with drug from the out-set of the experiment. If the cells were allowed to attach and spread prior to drug exposure, no loss of 92-kDa gelatinase B production was observed. Similar to the poly (HEMA) results, cytochalasin D had little effect on production of the 72-kDa gelatinase A. Treatment with the tubulin polymerization inhibitor colchicine had no effect on 92-kDa gelatinase B production, nor did growth of the cells as three-dimensional tumor spheroids, although an alteration in cell morphology was observed in both instances. This phenomenon was studied in another system, namely, HL-60 cells, which were induced to differentiate into macrophage-like cells in response to TPA treatment and consequently produce the 92-kDa gelatinase B. HL-60 cells treated with TPA and cytochalasin D failed to produce the 92-kDa gelatinase B. These results suggest that the 92-kDa gelatinase B can be regulated by alterations in cell shape but more specifically, by alterations in the organization of the actin cytoskeleton. Furthermore, the mechanism responsible for cell shape/actin cytoskeletal down-regulation of the 92-kDa gelatinase B may be common to many cell types competent to produce this enzymatic activity.

Contributions of tumor and stromal matrix metalloproteinases to tumor progression, invasion and metastasis.

The malignant progression of tumors is driven by the expression of oncogenes and loss of expression of tumor suppressor genes; factors that are intrinsic to cancer cells. The phenotypic changes brought about by the gain or loss of expression of oncogenes and tumor suppressor genes lead to the acquisition of malignant traits, namely, the ability to invade into and grow in ectopic tissue environments. Recently, however, focus in cancer research has widened from the cancer cell to include the surrounding tumor stroma as an integral player in the process of tumor progression. One of the areas in cancer research contributing to this enhanced appreciation of stromal involvement in tumor progression and metastasis is that of matrix metalloproteinases (MMPs). This review provides an overview of the characteristics of MMPs and discusses their role in the progression and metastasis of tumors. Initially, attention will focus on the regulation of MMPs in tumor cells but will switch to discourse on stromal expression of MMPs in tumors and speculation on the functional consequences of stromal expression of MMPs.

Demonstration of a splenic cytotoxic effector cell in mice of genotype SCID/SCID.BG/BG.

Splenocytes from mice of genotype scid/scid.bg/bg were tested in vitro to characterize the nature of the immunological deficit in these doubly mutant animals. The cells were unresponsive to the mitogens LPS and Con A and to alloantigens, as predicted for scid/scid genotype. Splenocytes from scid/scid.bg/bg lysed the NK cell-sensitive target cell line YAC at levels approximately 50% lower than those observed for scid/scid splenocytes. Splenocytes from SCID-beige mice failed to lyse the NK-resistant, LAK-sensitive cell line P815 but showed high levels of activity against the murine placental cell line Be6. Lytic activity was found in both nonadherent and plastic adherent cells and was eliminated by pretreatment of the effectors with anti-asialo-GM1 and complement. Incubation of 1 x 10(5) splenocytes with hrIL-2 failed to induce blastogenesis in scid/scid.bg/bg cells but produced a response in cultures of scid/scid or bg/bg spleen cells. However, blastogenesis and elevated levels of LAK-type killing were observed following incubation of higher numbers of scid/scid.bg/bg splenocytes in hrIL-2. Thus, doubly mutant scid/scid.bg/bg mice have reduced NK cell activity, in comparison to scid/scid mice, and appear to possess LAK-like effector cells and LAK cell precursors.

'Proteolytic switching': opposite patterns of regulation of gelatinase B and its inhibitor TIMP-1 during human melanoma progression and consequences of gelatinase B overexpression.

Although it is generally accepted that proteolytic degradation is an important mechanism used by malignant cells in the process of metastasis, comparatively little is known about the regulation of molecules responsible for proteolysis and how they become de-regulated during human tumour progression. Using a genetically related pair of human melanoma cell lines, derived from the same patient at different stages of disease, we analysed differences in the cytokine-mediated regulation of gelatinase B (MMP-9), an enzyme thought to play an important role in cellular invasiveness, and TIMP-1, a physiological inhibitor of this enzyme. Whereas the advanced stage (i.e. metastatic) partner of this pair (WM 239) could produce gelatinase B upon induction with interleukin (IL)-1beta or tumour necrosis factor alpha (TNF-alpha), the early stage (i.e. primary) partner (WM 115) could not. In sharp contrast, we found that TIMP-1 displayed an opposite pattern of induction in these cell lines. Specifically, the early stage cell line, WM 115, demonstrated a marked increase in the production of TIMP-1 when treated with IL-1beta or TNF-alpha whereas the advanced cell line, WM 239, showed no such increase. Treatment with the DNA demethylating agent, 2-deoxy-5-azacytidine, resulted in a marked up-regulation of both gelatinase B and TIMP-1 in both cell lines. It was further found that constitutive overexpression of gelatinase B in WM 239 cells and an additional melanoma cell line (MeWo), derived from a metastatic lesion, was able to greatly enhance lung colonization in an experimental metastasis assay while we did not observe differences in tumorigenicity. From these results we conclude that an altered responsiveness of gelatinase B and TIMP-1 to induction by similar agents is associated with disease progression in human melanoma and that this altered responsiveness can have consequences to the aggressive nature of the disease.

Variant sublines of early-stage human melanomas selected for tumorigenicity in nude mice express a multicytokine-resistant phenotype.

Surgical removal of early-stage radial growth phase or vertical growth phase primary cutaneous human melanomas usually results in cure of the disease. Hence there are few examples of genetically-related paired human melanoma cell lines for study in which one member of the pair is from a curable early-stage lesion and the partner is a more aggressive malignant variant. A rapid method of obtaining such variants is described. It consists of injecting cells from established early-stage radial growth phase or vertical growth phase melanoma cell lines--which are normally non- or poorly tumorigenic in nude mice--into such hosts, where the cell inoculum is co-mixed with Matrigel, a reconstituted basement membrane extract. This resulted in the rapid formation of progressively growing solid tumors from which permanent cell lines were established. Subsequently, the sublines were found to be frankly tumorigenic upon retransplantation into new nude mouse hosts in the absence of Matrigel co-injection. This process was repeated a second time, resulting in the isolation of secondary sublines, manifesting a stepwise increase in tumorigenic properties. The tumorigenic variant sublines were examined for their relative sensitivity to a panel of different cytokines that are normally growth inhibitory for melanoma cells from early-stage primary lesions. All the sublines were found to express an increased resistance to the cytokines transforming growth factor-beta, interleukin-6, interleukin-1 and tumor necrosis factor-alpha, and did so in a stable manner. Thus the results support the hypothesis that a progressive multicytokine resistance accompanies the progression of human melanoma. The availability of such related sublines should provide a valuable resource to help study the changes associated with, and perhaps causative of, disease progression in human malignant melanomas.

Resistance of malignant trophoblast cells to both the anti-proliferative and anti-invasive effects of transforming growth factor-beta.

Human placental trophoblast invasion of the uterus is a highly controlled event. We had shown that transforming growth factor-beta (TGF-beta) produced in the pregnant uterus controls invasiveness and reduces proliferation of first trimester placental trophoblasts in vitro. The anti-invasive effect of TGF-beta was due, at least in part, to induction of tissue inhibitor of metalloproteinases (TIMP)-1. In the present study we compared the effects of TGF-beta on proliferation ([3H]-TdR incorporation) and invasiveness (3-day Matrigel invasion assay) of JAR and JEG-3 choriocarcinoma cells vs normal first trimester human trophoblast cells. Transcripts of type IV collagenases (72- and 92-kDa enzymes, i.e., gelatinases A and B) and their inhibitors (TIMP-1 and TIMP-2) in these cells were measured by Northern analysis, and secretion of gelatinases and plasminogen activators (PAs) was evaluated by gel zymography. The results revealed that: (a) TGF-beta inhibited invasiveness and proliferation of normal trophoblast but not JAR and JEG-3 choriocarcinoma cells; (b) gelatinase A mRNA, expressed by the normal trophoblast and JAR cells, was upregulated in the presence of TGF-beta; (c) gelatinase B mRNA was not detected in the total RNA preparations of treated or untreated normal trophoblast or choriocarcinoma cells; (d) TGF-beta significantly upregulated the levels of TIMP-1 mRNA in the normal trophoblasts, but this transcript was very low in treated as well as untreated choriocarcinoma cells; TGF-beta also upregulated the 3.5-kb TIMP-2 message in the normal trophoblast; (e) gelatin zymography revealed a distinct band of approximately 68-kDa (gelatinase A) in the conditioned media of normal trophoblast and JAR cells; however, TGF-beta did not change the level of secretion of this gelatinase; and (f) the normal trophoblast also exhibited significant PA secretion (casein zymography) which was reduced in the presence of TGF-beta. PA secretion by the malignant trophoblast cells was low and unaffected by TGF-beta. These findings suggest that choriocarcinoma cells may become refractory to the mechanisms which control normal trophoblast proliferation and invasiveness. Concurrent resistance to antiproliferative and anti-invasive molecules such as TGF-beta may be highly relevant to tumor progression.

Establishment and characterization of first trimester human trophoblast cells with extended lifespan.

We established trophoblast cell cultures with extended lifespans by introducing into first trimester human trophoblasts the gene encoding simian virus 40 large T antigen. The transfected trophoblasts were characterized according to their expression of various morphological and functional markers. Both parental (HTR-8) and transfected (HTR-8/SVneo) lines were morphologically similar and positive for cytokeratin, confirming their epithelial (trophoblastic) identity. Whereas the parental cells senesced after 12-14 passages, the transfectants have been in culture for over 32 passages. Human chorionic gonadotrophin was detected only in the HTR-8/SVneo cells and not in the parental cells. Both lines required at least 5% serum in order to sustain growth in vitro and responded to transforming growth factor-beta (TGF-beta) with reduced [3H]-thymidine incorporation in a dose-dependent manner. Treatment with TGF-beta also resulted in decreased secretion of plasminogen activators (PAs) and reduced PA activity by both lines. Both cell lines secreted mostly 72-kDa type IV collagenase as determined by substrate gel zymography, but the level of secretion of this enzyme was not significantly affected by TGF-beta in either line. Even though both lines exhibited similar in vitro invasive abilities, only the invasiveness of the parental cells was reduced by TGF-beta. Neither parental or transfected cells were capable of growth in soft agar and no sign of tumor formation was evident more than 5 months after subcutaneous inoculation of the transfected cells into nude mice. These results indicate that apart from their ability to sustain prolonged growth in culture, the transfected HTR-8/SVneo cells share a number of phenotypic properties with the parental trophoblast cells. For this reason, these transfected trophoblasts may prove to be an important tool for the study of placental function and/or tumor progression.