Kaposi's sarcoma cells of different etiologic origins respond to HIV-Tat through the Flk-1/KDR (VEGFR-2): relevance in AIDS-KS pathology.

Kaposi's sarcoma (KS) is an hyperplastic lesion whose main histological features are typical spindle shaped cells with a mixed endothelial-mesenchymal-macrophage phenotype, an intense vascularization and an inflammatory infiltrate. The etiology of KS appears to be linked to activation of a latent HHV8 infection. Sporadic and iatrogenic KS are slow progressing lesions that can undergo spontaneous regression. In contrast, KS, which is frequently associated with HIV infection, is found in a highly aggressive form in AIDS patients. The HIV-1 Tat has been shown to activate the VEGF receptor KDR in endothelial and KS spindle cells, suggesting this HIV protein could contribute to KS pathogenesis. We used primary 'reactive' KS cell culture from sporadic and epidemic KS, and an immortal KS-line (KS-Imm) isolated in our laboratory from a iatrogenic KS lesion, to verify if Tat-induced cell signaling is able to mediate cellular responses. We demonstrate that KS cells migrated in response to Tat and that VEGF is able to compete with the Tat chemotactic activity towards these cells. A function-blocking anti-KDR antibody was able to abrogate both VEGF and Tat-induced KS chemotactic response, indicating a direct involvement of this receptor. Our data show that HIV-Tat can also activate KS cells derived from sporadic or iatrogenic lesions, suggesting that in AIDS patients Tat could cooperate with VEGF in activation of KDS on KS precursor spindle and endothelial cells, and contribute to the aggressiveness of AIDS-KS lesions.

Osteoblasts modulate secretion of urokinase-type plasminogen activator (uPA) and matrix metalloproteinase-9 (MMP-9) in human prostate cancer cells promoting migration and matrigel invasion.

Prostate carcinoma (PRCA) cells metastasize to the skeleton with high frequency. Bone stores growth regulatory factors, which are released in active form during bone remodeling. We propose that bone cell-derived growth factors may induce the development of PRCA bone metastasis by recruiting tumor cells and increasing their proliferation in the bone microenvironment. Serum-free conditioned medium harvested from osteoblast cultures (OB CM) stimulated the in vitro chemotaxis of PRCA cells and invasion of a reconstituted basement membrane (Matrigel), suggesting enhanced invasive activity. Preosteoblastic cell CMs were less effective than CMs obtained from mature OB. CMs harvested from differentiated osteoblast cultures capable of matrix mineralization were more active compared to CMs from proliferating osteoblasts. OB CMs stimulated secretion of urokinase (uPA) and matrix metalloproteinase-9 (MMP-9). Inhibition of these matrix-degrading proteases by neutralizing antibodies and/or by inhibitors of their catalytic activity reduced Matrigel invasion. Secretion of uPA and activation of MMP-9 were most prominent by differentiated OB CMs with respect to poorly differentiated cells in vitro. These results are in agreement with several in vivo studies and indicate that factors produced during osteogenesis by bone cells stimulate PRCA cell chemotaxis and matrix proteases expression, thus representing potential targets for alternative therapies deterring the progression of PRCA metastasis to bone.

Somatostatin controls Kaposi's sarcoma tumor growth through inhibition of angiogenesis.

Somatostatin and its analogs are active in the inhibition of SST receptor-positive endocrine neoplasms, but their activity and mechanism in nonendocrine tumors is not clear. Somatostatin potently inhibited growth of a Kaposi's sarcoma xenograft in nude mice, yet in vitro the tumor cells did not express any known somatostatin receptors and were not growth inhibited by somatostatin. Histological examination revealed limited vascularization in the somatostatin-treated tumors as compared with the controls. Somatostatin was a potent inhibitor of angiogenesis in an in vivo assay. In vitro, somatostatin inhibited endothelial cell growth and invasion. Migration of monocytes, important mediators of the angiogenic cascade, was also inhibited by somatostatin. Both cells types expressed somatostatin receptor mRNAs. These data demonstrate that somatostatin is a potent antitumor angiogenesis compound directly affecting both endothelial and monocytic cells. The debated function of somatostatin in tumor treatment and the design of therapeutic protocols should be reexamined considering these data.

HIV-1 Tat protein mimicry of chemokines.

The HIV-1 Tat protein is a potent chemoattractant for monocytes. We observed that Tat shows conserved amino acids corresponding to critical sequences of the chemokines, a family of molecules known for their potent ability to attract monocytes. Synthetic Tat and a peptide (CysL24-51) encompassing the "chemokine-like" region of Tat induced a rapid and transient Ca2+ influx in monocytes and macrophages, analogous to beta-chemokines. Both monocyte migration and Ca2+ mobilization were pertussis toxin sensitive and cholera toxin insensitive. Cross-desensitization studies indicated that Tat shares receptors with MCP-1, MCP-3, and eotaxin. Tat was able to displace binding of beta-chemokines from the beta-chemokine receptors CCR2 and CCR3, but not CCR1, CCR4, and CCR5. Direct receptor binding experiments with the CysL24-51 peptide confirmed binding to cells transfected with CCR2 and CCR3. HIV-1 Tat appears to mimic beta-chemokine features, which may serve to locally recruit chemokine receptor-expressing monocytes/macrophages toward HIV producing cells and facilitate activation and infection.

Inhibition by oral N-acetylcysteine of doxorubicin-induced clastogenicity and alopecia, and prevention of primary tumors and lung micrometastases in mice.

The thiol N-acetylcysteine (NAC), an analog and precursor of glutathione, displays cancer preventive properties not only in early stages of the carcinogenesis process but also in its advanced stages. NAC inhibited type-IV collagenase activity as well as invasion, tumor take, and metastasis of malignant cells in murine models. Previously, we provided evidence for synergistic effects of oral NAC with intravenously injected doxorubicin (DOX). In the present study B16-BL6 melanoma cells were injected s.c. into the footpad of C57BL/6 mice. The animals were divided into 5 groups: i) untreated mice; ii) mice receiving daily NAC with drinking water (12.25 mmol/kg body weight) starting 16 h after injection of cancer cells; iii) mice receiving a single i.v. injection of DOX (2 micromol/kg body weight) 24 h after injection of cancer cells; iv) mice receiving a combination of NAC and DOX, with NAC treatment starting 72 h before injection of cancer cells; and v) mice treated as in iv) but with NAC treatment starting 16 h after injection of cancer cells. Both NAC and DOX, either individually or in combination, significantly enhanced the survival time as compared to controls. The weight of local primary tumors was significantly decreased by either drug, and was further decreased to a significant extent, compared to the individual treatments, in the two groups of mice receiving combinations of NAC and DOX. No lung micrometastases, evaluated by immunohistochemistry as S-100-positive foci of melanocytic cells, were detectable in the two groups of mice receiving the combined treatments. NAC significantly, attenuated the time-related increase of micronucleated polychromatic erythrocytes in the peripheral blood of DOX-treated mice. All mice individually treated with DOX developed a partial but well evident alopecia, diffusely affecting their back hair, which was totally prevented by NAC, irrespective of the combination schedule. Thus, besides preventing DOX cardiotoxicity, as extensively documented in the literature, oral NAC protects mice from DOX-induced myelogenotoxicity and alopecia, and at the same time interacts with this cytotoxic agent in inhibiting cancer cell invasion and metastasis.

Identification of a novel domain of HIV tat involved in monocyte chemotaxis.

Human immunodeficiency virus (HIV) Tat is chemotactic for monocytes and dendritic cells, an activity that could play a key role in the expansion of HIV infection of accessory cells. To date, domains of Tat previously found to interact with cell surface molecules have shown only partial chemotactic activity toward monocytes. Using overlapping Tat peptides, we identify a novel region of Tat with a potent chemotactic activity for monocytes, reaching levels equal to Tat itself. This peptide also provokes monocyte polarization similar to Tat and is able to compete with Tat for induction of monocyte migration. Specific high affinity (kd = 3 x 10(-9) M) cell surface binding sites on monocyte cell surfaces for this region of Tat are demonstrated. These data indicate that the majority of Tat effects on monocytes are mediated by a novel region in the cysteine-rich and core domains. These domains are highly conserved among different HIV isolates, suggesting an important role in the establishment of HIV infection.

Monocyte-derived dendritic cells and monocytes migrate to HIV-Tat RGD and basic peptides.

OBJECTIVE AND DESIGN: Extracellular Tat released from HIV-1-infected cells is a mitogenic and motogenic factor for endothelial and Kaposi's sarcoma (KS)-derived cells and is angiogenic in vivo. Here we show for the first time that Tat induces migration of human dendritic cells in a concentration-dependent manner and that the Arg-Gly-Asp (RGD) and basic Tat peptides contribute to dendritic and monocyte cell migration. In vivo, Tat stimulates invasion of macrophages into a matrigel sponge. METHODS: Monocyte and dendritic cell chemotaxis was assessed using the Boyden chamber assay. RESULTS: Tat induced migration of monocyte-derived dendritic cells at the same levels as the N-formyl-Met-Leu-Phe peptide, and of monocytes at levels comparable to RANTES. Peptide mapping of the chemotactic activity of Tat showed that the RGD domain, which has been shown to support integrin-mediated cell migration, and the basic domain which binds and activates the tyrosine kinase receptor KDR on endothelial cells, both had activity. Antibody-blocking experiments indicate that responses to the RGD domain was inhibited by beta1 and alpha vbeta3 integrin blocking antibodies. Combination of the Tat RGD and basic peptides did not show additive effects; however, Tat co-operated with macrophage-chemotactic protein or RANTES in inducing monocyte migration. CONCLUSIONS: Our results show that Tat can act as a chemoattractant for dendritic cells, and that both the RGD and basic domains are involved in this response. These same domains attract monocytes. The alpha vbeta3 and beta1 integrins are equally involved in Tat-induced monocyte migration, while the alpha vbeta3 integrin largely mediates the dendritic cell response to Tat.

In vitro regulation of pericellular proteolysis in prostatic tumor cells treated with bombesin.

Bombesin is a potent inducer of signal trasduction pathways involved in the proliferation and invasion of androgen-insensitive prostatic tumor cells. This study examines the bombesin-mediated modulation of pericellular proteolysis, monitoring cell capability to migrate and invade basement membranes, using a chemo-invasion assay and analyzing protease production. The results suggest that bombesin could modulate the invasive potential of prostatic cell lines regulating secretion and cell-surface uptake of uPA and MMP-9 activation. In fact, in PC3 and DU145 cells but not in LNCaP cells, urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor-1 (PAI-1) are induced by bombesin treatment. Bombesin also stimulates cell proliferation and this effect can be inhibited blocking uPA by antibodies and/or uPA inhibitor p-aminobenzamidine. Moreover, HMW-uPA induces cell proliferation in LNCaP cells, which do not produce uPA in the basal conditions, while PC3 and DU145 cell growth is supported by autocrine production of uPA. The increment of uPA activity on the external plasma membrane causes an increased pericellular plasmin activation. This effect is inhibited by antibodies against uPA and by p-aminobenzamidine. Similarly to EGF, bombesin stimulates secretion and activation of MMP-9 and TIMP-1 production. MMP-9 activation can be also obtained by HMW-uPA treatment, suggesting that plasma-membrane-bound uPA can start a proteolytic cascade involving MMP-9. Therefore, in in vitro assays, bombesin is able to modulate pericellular proteolysis and cell proliferation, differently distributing and activating proteolytic activities. This effect can be related to the "non-random" degradation of the extracellular matrix in which membrane uPA-uPAreceptor complexes could start bombesin-induced directional protein degradation during metastatic spread.

Urokinase-type plasminogen activator overexpression enhances the invasive capacity of endothelial cells.

Fetal bovine aortic endothelial GM 7373 cells were transfected with a viral expression vector harboring the human urokinase-type plasminogen activator (uPA) gene. The stable transfectant clone uPA-R5 overexpressed and secreted human uPA as shown by Northern blot analysis, immunoprecipitation of metabolically labeled proteins, plasmin chromogenic assays, and SDS-PAGE zymography of cell extracts and conditioned media. The uPA-R5 cells were analyzed for their invasive capacity in vitro in the Matrigel chemoinvasion assay in the presence of serine- or metalloprotease inhibitors. uPA overexpression enhanced the invasive capacity of GM 7373 cells through a mechanism which differs from that mediated by metalloproteases. Endothelial cell uPA transfectants may represent an useful experimental model to investigate the role of uPA in angiogenesis and angioproliferative diseases.

Suppression of invasive behavior of melanoma cells by stable expression of anti-sense perlecan cDNA.

BACKGROUND: Heparan sulfate proteoglycans are one of the major components of extracellular matrix and are secreted at different levels by several normal and tumoral cells. Perlecan, the basement membrane proteoglycan, has structural domains involved in cell/matrix interactions and growth factor storage. Metastatic melanoma cells show an increase in perlecan expression as compared to low metastatic ones. We examined whether reduction of perlecan expression could down-modulate the malignant phenotype in melanoma clones. MATERIALS AND METHODS: We transfected B16-F10 murine malignant melanoma cells with a perlecan antisense cDNA construct and tested the in vitro behavior of the selected clones. RESULTS: The expression of antisense mRNA corresponded to a reduction of perlecan synthesis. The clones with reduced perlecan synthesis showed a down-regulation of proliferation and invasion. CONCLUSIONS: These results further indicate the importance of perlecan as a regulator of growth factor activity affecting the biological properties of metastatic cells, and suggest the potential use of antisense perlecan DNA in anti-melanoma gene therapy approaches.

The angiogenesis induced by HIV-1 tat protein is mediated by the Flk-1/KDR receptor on vascular endothelial cells.

The HIV-1 Tat protein transactivates HIV, viral and some host cell genes. Tat can be released by infected cells and acts extracellularly in the microenvironment, regulating functions of immunocompetent and mesenchymal cells. One of the most striking effects of Tat is the induction of a functional program in vascular cells related to angiogenesis and inflammation (migration, proliferation and expression of plasminogen activator inhibitor-1 and E selectin). Tat induces growth of Kaposi's sarcoma (KS) spindle cells and is angiogenic in vivo and in transgenic mice10-12. We previously reported that Tat is a direct angiogenic factor and noted the Tat arginine- and lysine-rich sequence is similar to that of other potent angiogenic growth factors, such as vascular endothelial growth factor-A (VEGF-A). It is possible that Tat mimics one of these factors by interacting with its growth factor tyrosine kinase receptor. Here we demonstrate that Tat specifically binds and activates the Flk-1/kinase insert domain receptor (Flk-1/KDR), a VEGF-A tyrosine kinase receptor (for review see ref. 13), and that Tat-induced angiogenesis is blocked by agents blocking the Flk-1/KDR receptor. Endothelial cell stimulation by Tat occurs in the absence of activation of FLT-1, another VEGF-A tyrosine kinase receptor.

Synergism between N-acetylcysteine and doxorubicin in the prevention of tumorigenicity and metastasis in murine models.

The thiol N-acetylcysteine (NAC) is a promising cancer chemopreventive agent which acts through a variety of mechanisms, including its nucleophilic and antioxidant properties. We have recently shown that NAC inhibits type-IV collagenase activity as well as invasion, tumor take and metastasis of malignant cells in mice. NAC is also known to attenuate the cardiotoxicity of the cytostatic drug doxorubicin (DOX, Adriamycin). The present study was designed to evaluate whether the combination of NAC and DOX treatments in mice injected with cancer cells could affect their tumorigenic and metastatic properties. Six separate experiments were carried out, using a total of 291 adult female mice. In experimental metastasis assays, in which B16-F10 melanoma cells were injected i.v. into (CD-1)BR nude mice, DOX significantly reduced the number of lung metastases when administered i.v. at a dose of 10 mg/kg body weight, 3 days after the i.v. injection of cancer cells. NAC inhibited lung metastases when added to the medium of cancer cells before their i.v. injection. The combined treatment with DOX and NAC, under various experimental conditions, was highly effective, showing a synergistic reduction in the number of mestastases. In tumorigenicity and spontaneous metastasis assays, in which B16-BL6 melanoma cells were injected s.c. into the footpad of C57BL/6 mice, DOX decreased the number of lung metastases when given i.p. at 2 mg/kg body weight. Oral NAC exerted significant protective effects, and considerably prolonged survival of mice. The combined treatment with DOX and NAC again showed synergistic effects on the frequency and weight of primary tumors and local recurrences, and completely prevented the formation of lung metastases in the experiment in which these end-points were evaluated at fixed times. While injection of DOX 7 days after implantation of cancer cells failed to improve the cancer-protective effects of NAC, its injection after I day resulted in a striking inhibition of lung metastases. These findings demonstrate an evident synergism between DOX (given parenterally) and NAC (given with drinking water) in preventing tumorigenicity and metastases. The indications of these animal studies warrant further evaluation in clinical trials.

Invasive phenotype of MCF10A cells overexpressing c-Ha-ras and c-erbB-2 oncogenes.

Infection with erbB-2 (E) of Ha-ras (H) oncogene-transfected cells has been previously shown to cooperatively induce anchorage-independent growth of the MCF10A human mammary epithelial cell line in vitro, but not to induce nude mouse tumorigenicity. Here we show that oncogene-transformed MCF10A are able to halt in the lungs of nude mice, a sign of organ colonization potential. We have therefore studied the transformants for in vitro migratory and invasive properties known to correlate with the metastatic potential of human mammary carcinoma cells in nude mice. MCF10A transfected with Ha-ras, infected with a recombinant retroviral vector containing the human c-erB-2 proto-oncogene (MCF10A-HE cells), show a higher invasive index than either the single transfectant (MCF10A-H) or MCF10A-erB-2(MCF10A-E) cells in the Boyden chamber chemotaxis and chemoinvasion assays. The MCF10A-HE cells also adopted an invasive stellate growth pattern when plated or embedded in Matrigel, in contrast to the spherical colonies formed by the single transformants MCF10A-H, MCF10A-E, and the parental cells. Dot-blot analysis of gelatinase A and TIMP-2 mRNA levels revealed increasing gelatinase A mRNA levels (HE > E > H > MCF10A) and reduced TIMP-2 expression in both single and double transformants. Furthermore, MCF10A-HE cells show more MMP-2 activity than parental MCF10A cells or the single transformants. CD44 analysis revealed differential isoform banding for the MCF10A-HE cells compared to parental cells, MCF10A-H and MCF10A-E, accompanied by increased binding of hyaluronan by the double transformants. Our results indicate that erB-2 and Ha-ras co-expression can induce a more aggressive phenotype in vitro, representative of the malignancy of mammary carcinomas.

Effect of osteoblast supernatants on cancer cell migration and invasion.

Malignant tumor cells of different origin seem to have preferential sites for metastasis. Breast cancer, prostate cancer and certain melanomas have bone as one of their preferential targets for metastasis. Bone is continuously being remodelled, a process largely controlled by local growth factors. A possible explanation for malignant cell recruitment to bone is that osteoblast products, directly secreted or released from the matrix by osteoclast resorbing activity, are able to stimulate cancer cell migration. To test this hypothesis we have utilized an in vitro system of differentiating osteoblasts which in culture progress all the way to the formation of mineralized nodules. Conditioned media obtained from these osteoblast cultures at different stages were able to induce chemotactic migration and invasion of both melanoma and breast cancer cells. The migratory and invasive phenotype was accompanied by enhanced gelatinolytic activity of osteoblast stimulated cancer cells. Our data suggest that osteoblasts secrete potent factors able to direct tumor cell migration towards remodelling bone.

Osteoblastic cells from rat long bone. I. Characterization of their differentiation in culture.

We here report the characterization for osteogenic markers alkaline phosphate (AP), osteocalcin, and mineral deposition of osteoblast cultures derived from cells migrating out from seven-day-old rat tibia fragments. The cells outgrown from bone fragments responded to stimulation with PTH with cAMP increase. We show in these cultures a high level of biosynthesis of type III collagen and osteonectin, and report the stimulatory effect that conditioned serum-free media (CM) from these cultures exert on the migration of endothelial cells (EA hy 926). The cultures were kept for the initial seven days in a Coon's modified F12 medium, then were switched to a medium containing ascorbic acid and beta-glycerophosphate (BGP), and cultured for another 41 days. They showed constitutive and timely restricted osteoblast markers and mineralization. Maximal AP activity occurred in concomitance with cell doubling, then fell to low levels by the time cultures were stationary. 45Ca incorporation in the monolayer increased after four weeks of culture, in concomitance with the appearance of unmineralized nodules, and remained high throughout the phase of mineral deposition. Biosynthesis of collagens type I, type III, and type V was detected at all times; secreted newly synthesized collagens decreased overall, relative to total secreted newly synthesized proteins, and on a per cell basis, with progression of the culture, while the ratio of collagen type III/collagen type I increased. Osteonectin was detected by immunohistochemistry and high amounts of osteonectin were synthesized constitutively. Osteocalcin was detected on virtually all cells tested at 21 and 28 days. A preliminary step in neoangiogenesis is the migration of endothelial cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Inhibition of invasion, gelatinase activity, tumor take and metastasis of malignant cells by N-acetylcysteine.

The thiol N-acetylcysteine (NAC) is currently considered one of the most promising cancer chemopreventive agents by virtue of its multiple and coordinated mechanisms affecting the process of chemical carcinogenesis. Recent studies have shown that an unpaired cysteine residue in the propeptide plays a key role in inactivation of latent metastasis-associated metalloproteinases: the present study was designed to assess whether NAC could also affect tumor take, invasion and metastasis of malignant cells. As assessed by zymographic analysis, NAC completely inhibited the gelatinolytic activity of type-IV collagenases in the cells tested (gelatinases A and B). Moreover, NAC was efficient in inhibiting the chemotactic and invasive activities of tumor cells of human (A2058 melanoma) and murine origin (K1735 and B16-F10 melanoma cells as well as C87 Lewis lung carcinoma cells) in Boyden-chamber assays, which are predictive of the invasive and metastatic properties. Reduced glutathione (GSH) had a similar, although less effective activity. The number of lung metastases decreased sharply when B16-F10 murine melanoma cells, injected i.v. into nude mice, were pre-treated with NAC and resuspended in medium supplemented with 10 mM NAC. In other experiments NAC was given in drinking water, starting 48-72 hr before subcutaneous inoculation of either B16-F10 cells or of their highly metastatic variant B16-BL6, or intramuscular injection of LLC cells. In all experiments NAC treatment decreased the weight of the locally formed primary tumor and produced a dose-related delay in tumor formation. Spontaneous metastasis formation by B16-F10 and B16-BL6 tumors was slightly yet significantly reduced by oral administration of NAC. However, this was not observed for Lewis lung tumors. These data indicate that NAC affects the process of tumor-cell invasion and metastasis, probably due to inhibition of gelatinases by its sulfhydryl group, with the possible contribution of other mechanisms, including the potent antioxidant activity of this thiol.

Mechanisms of kaposis-sarcoma cell supernatant-induced vascular cell invasion.

Kaposi's sarcoma (KS) is a highly angiogenic lesion frequently associated with acquired immune deficiency syndrome. Histologically the lesions appear to contain proliferative 'spindle shaped' cells with a mixed smooth muscle-endothelial-fibroblastic histotype and a conspicuous neovascularization, derived from host cell recruitment. Media conditioned by cultured KS cells (KS-CM) have angiogenic properties. KS-CM is able to promote endothelial and smooth muscle cell migration and invasion. The mechanisms of this KS-CM activity are still unknown. We hypothesize that KS-CM contains numerous factors with different roles in inducing the neo angiogenic process. We show that AIDS-IST-KS cell supernatants induce gelatinase A production and plasminogen activator (PA) up-regulation in vascular cells. KS-CM activity in vivo is heparin dependent. Also bFGF alone, a heparin dependent factor, alone can induce endothelial and smooth muscle cell invasion, MMP-2 production and PA activity. However, antibodies to bFGF do not block KS-CM activity and do not reduce the effect on PA up-regulation. This evidence suggests that heparin-binding factors other than bFGF may be present. Chromatography of KS-CM on heparin-sepharose demonstrates the presence of two heparin-binding fractions with chemotactic and gelatinase A inducing activity. The flow through was also active. KS-CM absorption on heparin-sepharose beads did not modify its induction of PA activity, further evidence for the presence of non heparin-binding factors as well.

Induction of chemotactic and invasive phenotype in BALB/c 3T3 cells by 1,2-dibromoethane transformation.

1,2-Dibromoethane (DBE), which can act as initiating agent, is capable of inducing a malignant phenotype in BALB/c 3T3 cells. Cells transformed with a single noncytotoxic dose formed more progressive tumors in vivo. Almost all animals (95%) receiving the inoculum of two different transformed clones developed tumors within 1 month. In the control group only 55% of the animals developed tumors after 4 months. Treatment with DBE also increased the chemotactic properties of target cells, which also acquired ability to penetrate and colonize a reconstituted basal membrane (matrigel). These data suggest that DBE could play a key role in tumor progression.