Phospholipase-C gamma-1 (PLCgamma-1) is critical in hepatocyte growth factor induced in vitro invasion and migration without affecting the growth of prostate cancer cells.

BACKGROUND: Phospholipase C gamma-1 (PLCgamma-1) is an intracellular signalling molecule regulating a number of biological processes including transporter mechanisms, transcription factors, and scaffolding proteins mediating cytoskeleton and membrane trafficking. Hepatocyte growth factor (HGF) is a pleiotrophic factor and a mediator of metastatic spread. This study sought to determine the effect of HGF on the invasive and migratory potential of prostate cancer cells targeted by a ribozyme transgene to PLCgamma-1. METHODS: A ribozyme transgene consisting of hammerhead ribozyme and antisense specific to PLCgamma-1 was cloned into a PEF6 expression vector and transfected into PC-3 cells. RT-PCR and Western blotting confirmed knock down of PLCgamma-1. In vitro invasion and a cytodex-2 bead motility assays with in vitro and in vivo growth models were used to assess the impact of PLCgamma-1 manipulation. RESULTS: PC-3 cells stably transfected with PLCgamma-1 ribozyme transgene (PC-3(DeltaPLC)gamma) manifested a reduction of PLCgamma-1 expression at mRNA/protein levels. HGF/SF increased invasiveness (P < 0.01) and motility (P < 0.0001) of PC-3(WT) and PC-3(PEF6) cells. In contrast, PLCgamma-1 knock down PC-3(DeltaPLC)gamma cells had reduced invasiveness (P < 0.05) and motility (P < 0.01) compared with PC-3(WT) and PC-3(PEF6) cells. Although there was a marginal change of cell growth in vitro, there was no difference in the rate of growth between PC-3(DeltaPLC)gamma, PC-3(WT), and PC-3(PEF6) cells. CONCLUSION: Targeting PLCgamma-1 by way of a hammerhead ribozyme to PLCgamma-1 is an effective method in reducing invasive phenotype of prostate cancer. PLCgamma-1 is a signalling intermediate that has prime influence on HGF induced cellular invasion and migration without affecting the growth of the cells.

Matriptase-2 inhibits breast tumor growth and invasion and correlates with favorable prognosis for breast cancer patients.

PURPOSE: The type II transmembrane serine proteases are cell surface proteolytic enzymes that mediate a diverse range of cellular functions, including tumor invasion and metastasis. Matriptase (matriptase-1) and matriptase-2 belong to the type II transmembrane serine protease family. Matriptase-1 is known to play a role in breast cancer progression, and elevated levels of matriptase-1 correlate with poor patient outcome. The role of matriptase-2 and its cellular function in cancer is unknown. This study aimed to provide new insights into the significance of matriptase-2 in cancer. EXPERIMENTAL DESIGN: Matriptase-2 expression levels were assessed in a cohort of human breast cancer specimens (normal, n = 34; cancer, n = 95), in association with patient clinical variables, using both quantitative and qualitative analysis of the matriptase-2 transcript along with immunohistochemical techniques. Matriptase-2 was also experimentally overexpressed in the MDA-MB-231 human breast cancer cell line. The effects of matriptase-2 overexpression were examined through a series of in vitro and in vivo studies. RESULTS: Here, we show that reduced matriptase-2 levels in breast cancer tissues correlate with an overall poor prognosis for the breast cancer patient. This study also reveals that matriptase-2 overexpression in breast cancer cells significantly suppressed tumorigenesis in CD1 athymic mice (P = 0.000003). Furthermore, we report that matriptase-2 overexpression dramatically reduced the invasive (P = 0.0001) and migratory properties (P = 0.01) of the breast cancer cells. CONCLUSIONS: Matriptase-2 suppresses breast tumor development in vivo, displays prognostic value for breast cancer patients, inhibits both breast cancer cell invasion and motility in vitro, and may play a contrasting role to matriptase-1 in breast cancer.

Expression of the prostate transglutaminase (TGase-4) in prostate cancer cells and its impact on the invasiveness of prostate cancer.

BACKGROUND: Prostate transglutaminase (TGase-4), has been identified as a TGase that has a pattern of prostate specific expression. This study sought to determine (i) the level of TGase-4 in human cancer cell lines including prostate cancer cells; (ii) to investigate the effect after knocking down the expression of TGase-4 transcript using a ribozyme transgene; (iii) to establish the effect of HGF/SF, a pro-invasion/metastasis cytokine, on the invasive capacity of TGase-4 knockdown cells. METHODS: RT-PCR and quantitative RT-PCR were used to assess the presence of TGase-4 transcript at the mRNA level in a panel of 26 cell lines including 6 prostate cancer cell lines (PC-3, DU-145, CA-HPV-10, PZ-HPV-7, PNT2C2 and PNT1A). A ribozyme transgene consisting of hammerhead ribozyme and antisense specific to TGase-4 was constructed using a pEF6 expression vector and transfected into CA-HPV-10 cell, a cell line highly expressed TGase-4. An in vitro invasion assay assessed the effects of HGF/SF on cell invasiveness. RESULTS: TGase-4 transcript was detected in a number of cell lines, including prostate, colorectal, lung and breast tumour cells. At the mRNA level, TGase-4 was strongly expressed in CA-HPV-10 cells with lower levels of expression seen in PC-3, DU-145, PZ-HPV-7 and PNT1A cells. TGase-4 knock-down in CA-HPV-10 cells was established at the mRNA level. HGF/SF significantly increased the invasion of wild type (21.67 +/- 0.88; P < 0.001 vs. control 8.67 +/- 0.67) and control plasmid transfected cells (16.33 +/- 0.88; P < 0.001 vs. control 7.67 +/- 0.88) compared with untreated cells. However, cells transfected with the TGase-4 ribozyme transgene had a reduced invasive capacity (9.33 +/- 0.88 P < 0.01 vs. control 4.33 +/- 0.88) through Matrigel. CONCLUSION: TGase-4 has a relatively wide profile of expression in human cancer cell lines and is strongly expressed in the low invasive CA-HPV-10 prostate cancer cell line. The molecule is associated with the invasive potential of prostate cancer cells.

Hepatocyte growth factor up-regulates the expression of the bone morphogenetic protein (BMP) receptors, BMPR-IB and BMPR-II, in human prostate cancer cells.

Hepatocyte growth factor (HGF) plays multiple roles in cancer, by acting as a motility, invasion and angiogenesis stimulating factor, which promotes metastasis and tumour growth. Bone morphogenetic proteins (BMPs) are members of the TGF-beta superfamily. The effects of BMPs are mediated by two subgroups of receptors, type I and type II. Recent studies have shown that some BMPs, via their signaling pathways, affect the growth of prostate cancer cells. BMPR-IB and BMPR-II have been reported to be expressed at low levels in prostate cancer. However, little is known about the crosstalk between HGF and BMP pathways. In this study, prostate cancer cells (PC-3 and DU-145) were exposed to HGF at different concentrations (1-75 ng/ml) for 18 h, or were treated with HGF at 40 ng/ml over various time periods (up to 24 h). The effect of HGF on BMP receptor expression was further investigated in a nude mouse PC-3 xenograft model. Mice were treated with either HGF, the HGF antagonist NK4, or a combination of both. The expression of BMPR-IB and BMPR-II mRNA was up-regulated by HGF, as shown by both conventional PCR and quantitative PCR. An elevation of BMPR-IB and BMPR-II at the protein level was confirmed by both Western blot analysis and immunocytochemical staining. In a murine prostate tumour model, infusion of recombinant HGF resulted in an increase in the levels of both BMPR-IB and BMPR-II transcript in prostate tumours. Concomitant delivery of NK4, an HGF antagonist, prevented this effect. In conclusion, HGF up-regulates the expression of the bone morphogenetic protein receptors, BMPR-IB and BMPR-II, in prostate cancer cells, both in vitro and in vivo. This may have important implications in the development of bone metastasis in prostate cancer.

Rapid molecular and morphological responses of prostate cell lines to cell-cell contact.

Cell-cell adhesion in 2-D PZ-HPV-7 prostate epithelial and DU-145 prostate cancer cell aggregates (monolayers), synchronously and rapidly (within 30 s) formed in suspension in an ultrasound trap has been examined over 60 min. The intracellular distributions of the cadherin/catenin complex components for both cell lines were time-dependent and were clearly identifiable as early as 150 s following cell-cell contact in the trap, while equilibrium positions were reached within 60 min following cell-cell contact. The accumulation of E-cadherin at the cell-cell interface was greater for PZ-HPV-7 than for DU-145 cells over 60 min in the trap, with the apparent formation of adherens junctions over that time scale in PZ-HPV-7 but not in DU-145 cells. The amounts of F-actin, alpha-, beta-, and gamma-catenins recruited to the cell-cell interface of PZ-HPV-7 cells were on average 2.4 times higher than those of DU-145 cells. The ability of different cell types to spread along neighboring cells was 1.5-fold greater for the PZ-HPV-7 than for the DU-145 cells. These results, discussed also in the context of earlier studies of cell adhesion in an ultrasound trap, characterize a reduced adhesiveness of DU-145 cells compared to PZ-HPV-7 cells.

Does the PGC-1/PPARgamma pathway play a role in Com-1/p8 mediated cell growth inhibition in prostate cancer?

Com-1, candidate of metastasis-1, also known as p8, has been shown to regulate the growth and apoptosis of cancer cells and is associated with the disease progression in human cancers including prostate cancer. In the current study, we investigated a potential mechanism underlying the anticancer action of Com-1/p8 in human prostate cancer. Human prostate cancer cells were used. Full-length Com-1 cDNA was isolated from normal mammary tissues. Ribozyme transgenes that specifically target human Com-1 were constructed using the pEF6/V5-His vector. Com-1 interacting proteins were determined using immunoprecipitation method. Cell growth and invasiveness were investigated using in vitro methods. Using immunoprecipitation and Western blotting, Com-1 was found to be cross-reprecipitated with PGC-1, a coactivator of peroxisome proliferator activated receptor (PPAR)-gamma, but not PPAR-gamma itself. Elimination of Com-1 from prostate cancer cells resulted in a reduced response of the cells to ciglitizone, a PPAR-gamma agonist, whereas forced expression of Com-1 rendered cells more responsive to ciglitizone. We further demonstrated that the overexpression of Com-1/p8 resulted in changes in the expression of the PGC-1 responsive gene, fatty acid synthase (FAS). Com-1 may act as a tumour suppressor in human prostate cancer cells. The potential tumour suppressive effect of Com-1 is at least partly via its interaction with PGC-1, the PPAR-gamma coactivator.

Com-1/p8 acts as a putative tumour suppressor in prostate cancer.

Com-1, candidate of metastasis-1, also known as p8, is a recently discovered molecule with a putative role in determining the metastatic nature of cancer cells. We have investigated the expression of Com-1 in normal and malignant human prostate tissues and its molecular interaction within prostate cancer cells. The expression of Com-1 in human prostate tissues and prostate cancer cell lines was assessed at both the mRNA and protein levels, by RT-PCR and immunohistochemistry. The staining intensity of Com-1 was semiquantified using computer assisted image analysis. Full- length Com-1 cDNA was isolated from normal mammary tissues. Ribozyme transgenes that specifically target human Com-1 were constructed using the pEF6/V5-His vector. The growth of prostate cancer cells in vitro and tumour growth in vivo (athymic mice model) following Com-1 overexpression in prostate cancer cells were determined. In normal prostate tissues, the epithelial cells strongly stained Com-1, both in the cytoplasm and in the nucleus. In contrast, prostate cancer cells in tumour tissue showed substantially reduced Com-1 staining levels (p < 0.05 compared to normal cells for both cytoplasmic and nucleus staining), whereas the prostate cancer cell lines PC-3, DU145 and CA-HPV10 widely expressed Com-1. Transfection of these cells with hammerhead ribozyme transgenes resulted in the loss of expression of the Com-1 transcript. Using an in vitro invasion assay we found that the loss of Com-1 from prostate cancer cells increased their invasiveness. Knockout of Com-1 also resulted in the accelerated growth of all three cell lines. Forced overexpression of Com-1/ p8 in prostate cancer cells was able to reverse the changes in invasiveness and growth seen with the Com-1 knock-out cells. In a spontaneous tumour model, it was demonstrated that PC-3 cells with forced overexpression of Com-1 (PC-3com1Exp) had a significantly slower rate of growth compared with control cells (tumour size 36.6 +/- 31.2 vs 114.3 +/- 68.1 mm3, for tumours from PC-3com1Exp and control PC-3 cells, respectively, p = 0.0023). In conclusion, Com-1/p8 was expressed at lower levels in human prostate cancer cells compared with normal epithelial cells. Com-1/p8 levels are inversely correlated with the invasiveness and growth of prostate cancer cells in vitro and the overexpression of Com-1 reduced the growth of prostate tumours in vivo. Com-1/p8 is a potential tumour suppressor in human prostate cancer.

Elevated levels of tumour endothelial marker-8 in human breast cancer and its clinical significance.

Tumour endothelial marker-8 (TEM-8) belongs to a family of endothelial markers that are raised during tumour angiogenesis. We have recently reported aberrant expression of TEMs at the mRNA level in human breast cancer. This study sought to examine the level of TEM-8 expression at the protein and mRNA level in human breast cancer tissue, and in a panel of human breast cancer cell lines. We also wished to determine if TEM-8 can be used as a suitable marker for identifying tumour associated micro-vessels. At the mRNA level more tumours showed positive TEM-8 expression compared to normal background tissue. TEM-8 was detected in a variety of breast cancer cell lines, endothelial cells (HECV) and in a human fibroblast cell line (MRC5) at both the mRNA and protein level. Using immunohistochemistry the distribution of TEM-8 staining was more widespread in invasive breast cancer tissue compared to normal background tissue. Furthermore, the TEM-8 marker was found to be more discriminatory in identifying micro-vessels in tumour endothelium (2.8+/-0.83 vs. normal 1.66+/-0.52; P<0.011), compared to the vWFA marker (1.61+/-0.54 vs. normal 2.71+/-0.76; P<0.009). Raised levels of TEM-8 were associated with shorter survival outcome, but were not correlated to disease-free survival as shown by Kaplan-Meier and Cox regression analysis. We conclude that TEM-8 is a useful marker for identifying tumour associated micro-vessels and that elevated levels are associated with disease progression, which may have some bearing on the prognostic outcome in breast cancer.

Expression of membrane type-1 matrix metalloproteinase, MT1-MMP in human breast cancer and its impact on invasiveness of breast cancer cells.

MT1-MMP (membrane type-1 matrix metalloproteinase), otherwise known as MMP14 is a proteolytic enzyme known to be involved in degradating extracellular matrix and assist progression of cancer invasion and progression. We investigated the impact of targeting the expression of MT1-MMP in breast cancer and its clinical relevance. Human breast cancer cell line MDA-MB-231 was used. Expression of MT1-MMP in the breast cancer cell line was manipulated by way of retroviral ribozyme transgene. The in vitro invasion, growth and cell migration were determined on cell lines transfected with either the transgene or control plasmid. Protein and message levels of MMP14 was also assessed using immunohistochemistry and real-time quantitative analysis, and correlated with clinical and pathological information of the patients. Retroviral ribozyme transgene to human MT1-MMP successfully knocked down the levels of MT1-MMP mRNA from MDA-MB-231 cells. Reduction of MT1-MMP from the breast cancer cells resulted in significant reduction of in vitro invasiveness and loss of response to an invasion stimulus, HGF, compared with control and wild-type cells. The invasion index for MT1-MMP knockdown cells were 13+/-3.1 (without HGF) and 16.4+/-2.3 (with HGF, p=0.14), and the index for transfection control cells 25.3+/-4.3 (without HGF) and 40.4+/-4.1 (with HGF, p=0.0049). Transfection with the transgenes did not change the rate of cell growth. In clinical breast cancer, MT1-MMP staining was both membranous and cytoplasmic. Tumour cells displayed stronger staining compared with normal mammary epithelial cells. Tumour tissues had a marginally higher levels of the MMP14 transcript (8.6+/-1.9), compared with normal tissues (4.7+/-1.4), p=0.13. No significant difference was observed between node positive and node negative tumours (9.0+/-2.2 vs 8.7+/-3.1, p=0.24). Marginally higher levels of the MMP14 transcript were seen in tumours which developed metastasis and local recurrence. However, tumours from patients who died of breast cancer related causes had significantly higher levels of the transcript, compared with tumours from patients who remained disease-free 10 years after initial surgery (12.2+/-2.5 vs 6.3+/-1.2, p=0.0091). MT1-MMP is a proteolytic enzyme that is pivotal in controlling the invasiveness of breast cancer cells. It is highly expressed in aggressive breast tumours and is associated with clinical outcome. The enzyme is a potential therapeutic target in breast cancer.

Genetic reduction of matriptase-1 expression is associated with a reduction in the aggressive phenotype of prostate cancer cells in vitro and in vivo.

PURPOSE: Matriptase-1 has been implicated as playing an important role in various types of cancer progression through many different cancer related pathways. In the current study we assessed the efficacy of targeting matriptase-1 using ribozyme technology in vitro and in vivo. EXPERIMENTAL DESIGN: Matriptase-1 expression was reduced in the PC-3 and DU-145 cell line using hammerhead ribozyme transgenes. In vitro assays were set up to assess changes in growth, invasion, adhesion and migration in these cells. In vivo tumour development model was also used to examine the efficacy of targeting matriptase-1 in a living environment. RESULTS: The in vitro results suggest an overall reduction in the aggressive nature of the two cell lines (PC-3 and DU-145) when matriptase-1 levels are reduced, with properties such as growth, invasiveness and migration all being reduced (in most cases a greater than 50% reduction in migration and invasion compared to the control was observed), though strangely an increase in adhesion is seen in the PC-3 knockout. The in vitro data is strongly backed up by the results of the in vivo work which demonstrates matriptase-1 deficient cells have a substantially reduced ability to grow and develop in vivo compared to control cells when explanted into nude mice, with significant differences in growth and development (P < or = 0.05) being seen after 7 days, and highly significant differences (p < or = 0.001) after 15 days. CONCLUSIONS: Together this data strongly implicates matriptase-1 as playing a vital role in the aggressive nature and progression of prostate cancer.

The potential lymphangiogenic effects of hepatocyte growth factor/scatter factor in vitro and in vivo.

Lymphangiogenesis is key to the lymphatic spread of cancer cells. The current study examined the potential effect of hepatocyte growth factor (HGF), a factor known to have strong biological effects on endothelial cells, on the lymphangiogenic function of endothelial cells and the formation of lymphatic vessels using both in vitro and in vivo models. Human endothelial cells that have lymphatic characteristics, human prostate and breast cancer cells PC-3 and MDA MB 231, were used. Expression of lymphatic markers, podoplanin, Prox-1, vascular endothelial growth factor receptor 3 (VEGF-R3) and LYVE-1 was determined using reverse transcription polymerase reaction and quantitative PCR. In nude mice prostate and breast xenograft tumour models, either HGF or an HGF-producing fibroblast cell line MRC-5 was given with or without the HGF antagonist, NK4. The lymphangiogenic marker and lymphatic vessels in tumour tissues were also assessed using quantitative PCR and immunohistochemistry, respectively. In the mice tumour models, infusion of rhHGF significantly increased the levels of podoplanin and LYVE-1 in the tumour (p=0.05 for podoplanin and p<0.05 for LYVE-1 vs. without HGF in the prostate tumour model, p<0.05 for podoplanin and p<0.01 for LYVE-1 vs. without HGF for the breast tumour model; p<0.05 for podoplanin and p<0.01 for LYVE-1 vs. without HGF in the breast tumour model). The increased level of LYVE-1 transcript was supported by an increase in the number of LYVE-1-positive lymphatic vessels in tumours, using immunohistochemical analysis. Co-injection of MRC5 cells also increased the levels of LYVE-1 and number of LYVE-1-positive vessels in tumour tissues. The effects of HGF and MRC5 were significantly reduced by the HGF antagonist, NK4. In the in vitro models, rhHGF significantly increased the level of both podoplanin and LYVE-1, as shown by quantitative PCR analysis. Hepatocyte growth factor has potential lymphangiogenic activities, and this may have important implications in the nodal spread of cancer cells.

Targeting matrilysin and its impact on tumor growth in vivo: the potential implications in breast cancer therapy.

INTRODUCTION: Matrilysin (MMP-7) is a metalloproteinase that is involved in the degradation of extracellular matrix, invasion, and tumor progression. The current study examined if targeting matrilysin using retroviral ribozyme transgenes may have an impact on breast cancer cells and may have clinical implications. EXPERIMENTAL DESIGN: Retroviral hammerhead ribozyme transgenes were designed to specifically target human matrilysin mRNA. The breast cancer cell MDA-MB-231 was transfected with either a retroviral matrilysin transgene or a control retroviral transgene. Stably transfected cells were tested for their invasiveness and migratory properties in vitro. The cells were also used in creating a tumor model in athymic nude mice in which the growth of tumors and levels of matrilysin were assessed. In addition, levels of both protein and mRNA of matrilysin were investigated in a cohort of human breast tumors. RESULTS: Expression of matrilysin in MDA-MB-231 was successfully eliminated by the retroviral hammerhead ribozyme transgene for matrilysin as revealed by reverse transcription-PCR. Matrilysin transgene-transduced cancer cells (MDA-MB-231DeltaMatrilysin) exhibited a significantly lower degree of invasion (number of invading cells 16.0 +/- 2.5) compared with wild type (MDA-MB-231(WT); 26.2 +/- 6.2, P < 0.05) or control transgene-transduced cancer cells (MDA-MB-231pRevTRE; 25.3 +/- 4.2, P < 0.01). However, the rate of growth of the cells in vitro was not significantly affected. In the in vivo tumor model, MDA-MB-231DeltaMatrilysin tumors, which had very low levels of immunoreactive matrilysin, grew at a significantly lower rate (0.24 +/- 0.03 cm3, 4 weeks after inoculation) compared with the wild-type MDA-MB-231(WT) (1.46 +/- 0.04 cm3) and MDA-MB-231pRevTRE (1.12 +/- 1.0 cm3) tumors. In human breast tumors, breast cancer cells stained matrilysin at a significantly higher density, compared with normal mammary epithelium. The highest level of matrilysin was seen in high-grade tumors and that from patients with moderate and poor prognosis. Finally, high levels of matrilysin were significantly linked with a poor long-term survival (P = 0.0143). CONCLUSION: Matrilysin, which is aberrantly expressed in human breast tumors, can be effectively eliminated from breast cancer cells by way of hammerhead ribozyme transgene. Elimination of matrilysin is associated with low invasiveness and slow tumor growth. Taken together, the study suggests that targeting matrilysin may have important therapeutic implications.

Anti-cancer ProTides: tuning the activity of BVDU phosphoramidates related to thymectacin.

Based on our wide ranging knowledge of phosphoramidate ProTides as anti-viral agents we have tuned the lead anti-cancer agent thymectacin in the ester and amino acid regions and revealed a substantial enhancement in in vitro potency versus colon and prostate cancer cell lines. Twelve analogues have been reported, with yields of 29-78%. The compounds are fully characterised and data clearly reveal the presence of two phosphate diastereoisomers, as expected, in roughly equi-molar proportions. The compounds were evaluated in tissue culture versus three different tumour cell lines, using thymectacin as the control. It is notable that minor structural modification of the parent phenyl methoxyalaninyl structure of thymectacin leads to significant enhancements in potency. In particular, replacement of the methyl ester moiety in the lead by a benzyl ester gave a 175-fold boost in potency versus colon cancer HT115. This derivative emerges as a low micromolar inhibitor of HT115 cells and a new lead for further optimisation.

Com-1/P8 in oestrogen regulated growth of breast cancer cells, the ER-beta connection.

BACKGROUND: Com-1 is a molecule that has recently discovered to have putative action on the metastatic nature of cancer cells. The current study investigated the impact of Com-1 on oestrogen regulated cell growth of breast cancer cells and explored the potential link between Com-1 and ER-beta. METHOD: Full length Com-1 cDNA was isolated from normal mammary tissues. Ribozyme transgenes that specifically targeted human Com-1 were constructed using the pEF6/V5-His vector. Expression of Com-1 was assessed at both mRNA and protein levels. Interaction of Com-1 with other candidate molecules was studied using immunoprecipitation and Western blotting. RESULTS: Elimination of Com-1 by way of ribozyme transgenes results in breast cancer cells with increased rate of growth and increased invasive potential. In contrast, over-expression of Com-1 in the cancer cells had an opposite effect. In ER-alpha-negative/ER-beta positive MDA MB-231 cells, elimination of Com-1 caused more vigorous growth in response to 17-beta-estradiol. However, the effect of Com-1 modification on MCF-7, which is positive for both ER-alpha and ER-beta, was less clear. Protein interaction analysis has indicated that the Com-1 and ER-beta were mutually co-precipitated with each other in breast cancer cells. Immunocytochemical staining revealed that Com-1 was primarily present in the nucleus, with some degree of cytoplasmic staining, and that the distribution of Com-1 was identical to that of ER-beta. 17-Beta-estradiol stimulation resulted in reduction of nucleic staining of Com-1. This reduction of nucleic Com-1 can be reverted when ubiquitin inhibitor, ubiquitin aldehyde or the lactacystin proteosome inhibitor was present, suggesting a pivotal role of the ubiquitin-proteosome pathway in the Com-1/ER-beta complex. CONCLUSION: Com-1 plays a tumour suppressor role in breast cancer cells and is involved in oestrogen-regulated cell growth. This action is potentially exerted by interacting with ER-beta, in human breast cancer cells. The fate of Com-1 can be dually regulated by oestrogen and ubiquitin pathway.

Hepatocyte growth factor, its receptor, and their potential value in cancer therapies.

Hepatocyte growth factor plays multiple roles in cancer, by acting as a motility and invasion stimulating factor, promoting metastasis and tumour growth. Furthermore, it acts as a powerful angiogenic factor. The pivotal role of this factor in cancer has indicated HGF as being a potential target in cancer therapies. The past few years have seen rapid progress in developing tools in targeting HGF, in the context of cancer therapies, including development of antagonists, small compounds, antibodies and genetic approaches. The current article discusses the potential value of HGF and its receptor as targets in cancer therapies, the current development in anti-HGF research, and the clinical value of HGF in prognosis and treatment.

Targeting the HGF/SF receptor c-met using a hammerhead ribozyme transgene reduces in vitro invasion and migration in prostate cancer cells.

BACKGROUND: Hepatocyte growth factor scatter factor (HGF/SF) elicits a number of biological activities including invasion and migration through activation of its tyrosine kinase receptor c-Met. Over expression of c-Met has been implicated in prostate cancer development and progression. This study examined the effect of a ribozyme transgene, designed to inhibit human c-Met expression, and its impact on in vitro invasion and migration in prostate cancer. METHODS: A transgene (Met 560) consisting of U1 snRNA, hammerhead ribozyme, and antisense was cloned into a modified pZeoU1-EcoSpe vector and transfected into DU-145 cells. The effect of HGF/SF was tested on prostate cancer cells whose expression of c-Met had been blocked by way of a ribozyme transgene. RESULTS: Met 560 stable transfectants (DU-145(+/+)) manifested a complete loss of c-Met expression at mRNA and protein levels. In contrast, control plasmid (DU-145(+/-)) and wild-type DU-145 cells (DU-145(-/-)) had similar levels of c-Met expression. HGF/SF significantly increased the in vitro invasiveness (mean 47.71 +/- SE 7.75; P < 0.01 vs. control 24.14 +/- 1.34), and migration (mean 48.44 +/- SE 3.51; P < 0.01 vs. control 22.95 +/- 1.47) of DU-145(-/-) cells, respectively. Similarly, HGF/SF also increased the invasion (62.33 +/- 6.34; P < 0.001 vs. control 24.5 +/- 2.35) and migration (46.14 +/- 2.26; P < 0.01 vs. control 21.82 +/- 1.62) of DU-145(+/-) cells. In contrast, DU-145(+/+) cells had lost its response to HGF/SF induced invasion (22.33 +/- 2.08; P > 0.05 vs. control 23.5 +/- 2.11) and migration (24.12 +/- 0.86; P > 0.05 vs. control 23.27 +/- 0.81). CONCLUSIONS: Targeting the HGF/SF receptor by way of a hammerhead ribozyme encoding antisense to c-Met, is an effective method to reduce the invasive or migration potential in prostate cancer, and may have important therapeutic implications.

Levels of expression of endothelial markers specific to tumour-associated endothelial cells and their correlation with prognosis in patients with breast cancer.

Tumour endothelial markers (TEMs) are a newly discovered family of endothelial markers associated with tumour specific angiogenesis. This study sought to examine the levels of expression for TEMs in human breast cancer. Breast cancer tissues (n = 120) together with normal background tissues (n = 33) were obtained after surgery. RNA was extracted from frozen sections for gene amplification. The expression of TEMs was assessed using RT-PCR and the quantity of their transcripts was determined using real-time-quantitative PCR (Q-RT-PCR). TEM-7R (P = 0.05) and TEM-8 (P < 0.01) were significantly raised in breast cancer tissues compared with the levels detected in normal background tissues. After a median follow-up of 72.2 months it was found that patients who had recurrent disease and/or who had died from breast cancer had a significantly (P < 0.05) elevated level of TEM-1 compared to those patients who were disease free. In addition, elevated levels of TEM-4, TEM-5, TEM-6, TEM-7 and TEM-7R were also raised in breast cancer tissues. Patients who had developed nodal involvement exhibited significantly (P < 0.05) high levels of TEM-1 and TEM-7R compared to patients who were node negative. Furthermore, the levels of TEMs did not correlate with tumour or histological grade. We conclude that elevated levels of TEM-1, TEM-7R and TEM-8 (but not TEM-2, 4, 5, 6 and 7) are associated with either nodal involvement, and/or disease progression, and may therefore, have a prognostic value in breast cancer.

Reduction of stromal fibroblast-induced mammary tumor growth, by retroviral ribozyme transgenes to hepatocyte growth factor/scatter factor and its receptor, c-MET.

PURPOSE: Hepatocyte growth factor/scatter factor (HGF/SF) is known to increase the invasiveness and migration of cancer cells in vitro and induce angiogenesis. This study examined if inhibition of HGF/SF receptor expression by cancer cells and HGF/SF expression by stromal fibroblasts affects the growth of mammary cancer. EXPERIMENTAL DESIGN: Transgenes encoding ribozymes to specifically target human HGF/SF receptor (pLXSN-MET) or HGF/SF (pLXSN-HGF) were constructed using a pLXSN retroviral vector. Human mammary cancer cells MDA MB 231 was transduced with pLXSN-MET (MDA(+/+)). A human fibroblast cell line MRC5, which produces bioactive HGF/SF, was transduced with pLXSN-HGF (MRC5(+/+)). These cells were used in a nude mice breast tumor model. RESULTS: HGF receptor in MDA(+/+) cells and HGF in MRC5(+/+)cells were successfully removed with respective ribozymes as shown by reverse transcription-PCR and Western blotting, respectively. MDA(+/+) was found to have reduced invasiveness when stimulated with HGF/SF. MRC5(+/+) exhibited a significant reduction in HGF/SF production. When injected into athymic nude mice, MDA(+/+) exhibited a slower rate of growth, compared with the wild type (MDA(-/-)), and the cells transduced with control viral vector (MDA(+/-)). The growth of MDA(-/-) tumor was significantly enhanced when coimplanted with wild-type MRC5 (MRC5(-/-)), and the stimulatory effect was reduced when MRC5(+/+) cells were coimplanted instead of MRC5(-/-). The reduction of tumor growth was accompanied by reduction of angiogenesis, as demonstrated by the staining of VE-cadherin in primary tumor tissues. CONCLUSIONS: Retroviral ribozyme transgenes targeting HGF/SF in fibroblasts or its receptor cMET in mammary cancer cells can reduce the growth of mammary cancer and associated angiogenesis by inhibiting paracrine stromal-tumor cell interactions.

The HGF/SF antagonist NK4 reverses fibroblast- and HGF-induced prostate tumor growth and angiogenesis in vivo.

Our study examined the in vitro and in vivo responses of a newly discovered HGF/SF antagonist, NK4, on HGF/SF-promoted growth of human prostate cancer cells (PC-3). Nude mice were s.c. injected with either PC-3- and/or HGF/SF-producing fibroblasts (MRC5), and tumor size was measured over a 4-week period. rh-HGF/SF and/or NK4 were introduced by osmotic minipumps. An in vitro study found that NK4 significantly suppressed HGF/SF-induced invasion (HGF/SF; p < 0.01 vs. HGF/SF+NK4) and migration (HGF/SF; p < 0.05 vs. HGF/SF+NK4). Similarly, NK4 also suppressed the invasion (MRC5; p < 0.01 vs. MRC5+NK4) and migration (MRC5; p < 0.05 vs. MRC5+NK4) induced by MRC5 cells. NK4 also suppressed HGF/SF- and MRC5-induced tyrosine phosphorylation of the HGF/SF receptor Met as assessed by immunoprecipitation. Using a nude mouse model, prostate tumor volume (mm(3)) was significantly increased in both HGF/SF- (HGF/SF; p < 0.05 vs. control) and MRC5- (MRC5; p < 0.01 vs. control) treated groups compared to the control. In contrast, NK4 alone significantly reduced the growth of prostate tumors (NK4; p < 0.01 vs. control). In addition, NK4 also suppressed both HGF/SF- (HGF/SF; p < 0.01 vs. HGF/SF+NK4) and MRC5- (MRC5; p < 0.05 vs. MRC5+NK4) induced tumor growth in vivo by significantly reducing (p < 0.05) the degree of tumor angiogenesis using a recently discovered family of tumor endothelial markers (TEMs) by Q-RT-PCR analysis. In conclusion, NK4 suppresses both HGF/SF- and MRC5-induced invasion/migration of PC-3 cells in vitro. Furthermore, the HGF/SF antagonist NK4 significantly reduces prostate tumor growth in vivo by inhibiting the degree of tumor angiogenesis as determined by TEM-1 and TEM-8. Finally, our study provides evidence of the therapeutic potential of NK4 in prostate cancer development by antagonising HGF/SF-mediated events.

Growth and angiogenesis of human breast cancer in a nude mouse tumour model is reduced by NK4, a HGF/SF antagonist.

Hepatocyte growth factor/scatter factor (HGF/SF) is a cytokine primarily produced by stromal fibroblasts and is a known angiogenic and invasion-inducing factor. It is increased in patients with breast cancer. This study examined the effect of NK4, a newly described HGF/SF antagonist, on HGF/SF-promoted growth of a human breast cancer. Both in vitro (invasion and migration assays) and in vivo (murine tumour model) methods were used to ascertain the effect of NK4 on HGF/SF from two sources: human fibroblast-derived HGF/SF and recombinant HGF/SF. In the in vitro invasion assay and migration assay, both HGF/SF and human fibroblasts, which secrete bioactive HGF/SF, increased the invasiveness and migration of the breast cancer cells (MDA MB 231). NK4 significantly reduced this invasiveness and motility. In the animal model, tumour volume and weight was significantly reduced with addition of NK4. It also suppressed HGF/SF-induced growth and markedly retarded tumour growth induced by fibroblasts (MRC5), secreting bioactive HGF/SF. Tumour angiogenesis was assessed by immunohistochemical staining of primary tissue sections using VE-cadherin (an endothelial cell specific cell-cell adhesion molecule). Again, NK4 reduced the effects of both HGF/SF and fibroblasts. We conclude that NK4 has a significant effect on the growth of human breast tumours in nude mice, particularly when stimulated by HGF/SF or fibroblasts. This may occur by decreasing angiogenesis. This gives a clear indication of the therapeutic worth of NK4.