Genistein inhibits the contact-stimulated migration of prostate cancer cells

The results of several epidemiological studies have suggested that a soybean-based diet is associated with a lower risk of prostate cancer. We investigated the effect of the soy isoflavone genistein on the proliferation and contact-stimulated migration of rat prostatic carcinoma MAT-LyLu and AT-2 cell lines. Genistein almost completely inhibited the growth of both MAT-LyLu and AT-2 cells in the concentration range from 25 to 100 μM, but the addition of 1 μM genistein to the medium significantly stimulated the proliferation of both cell lines. Additionally, at concentrations above 25 μM, genistein showed a potent cytotoxic effect. However, the central finding of this study is that at physiologically relevant concentrations (1 μM and 10 μM), genistein inhibits the motility of prostate cancer cells stimulated by homo-and heterotypic contacts. These results show that at physiological concentrations, genistein exerts an inhibitory effect on the migration of prostate cancer cells and suggest that it may be one of the factors responsible for the anti-metastatic activity of plant isoflavonoids     

Comparative studies of intracellular Ca2+ in strongly and weakly metastatic rat prostate cancer cell lines

The metastatic ability of prostate cancer cells involves differential expression of ionic mechanisms. In the present study, using electrophysiological recordings and intracellular Ca2+ measurements, we investigated Ca2+ related signalling in two rat prostate cancer (MAT-LyLu and AT-2) cell lines of markedly different metastatic potential. Whole-cell voltage clamp experiments indicated the absence of an inward current carried through voltage-dependent Ca2+ channels in either cell line. A Ca2+-dependent component was also absent in the voltage-activated outward K+ currents. Indo-1 microfluorimetry confirmed these results and also revealed marked differences in the resting level of intracellular Ca2+ and the ability of the two cell lines to regulate intracellular Ca2+. The weakly metastatic AT-2 cells displayed a significantly higher resting intracellular Ca2+ than the related but strongly metastatic MAT-LyLu cell line. Increasing extracellular K+ decreased intracellular Ca2+ in the AT-2 but had no effect on intracellular Ca2+ levels in the MAT-LyLu cells. Furthermore, increasing extracellular Ca2+ increased intracellular Ca2+ in AT-2 but, again, had no effect on MAT-LyLu cells. These results suggested the presence of a tonic, voltage-independent Ca2+ permeation mechanism operating specifically in the AT-2 cells. The influx of Ca2+ into the AT-2 cells was suppressed by both CdCl2 (100-300 microM) and SKF-96365 (10-30 microM). It is concluded that the strongly metastatic MAT-LyLu cell line lacks a voltage-independent basal Ca2+ influx mechanism that is present in the weakly metastatic AT-2 cells.     

Tetrodotoxin suppresses morphological enhancement of the metastatic MAT-LyLu rat prostate cancer cell line

Voltage-gated Na⁺ channels are expressed by highly metastatic MAT-LyLu cells, but not by poorly metastatic AT-2 cells, derived from the rodent Dunning model of prostatic cancer. We have investigated the possible involvement of these channels in the morphological development of the cells. Incubation of both the MAT-LyLu and the AT-2 cell line for 24 h with the Na⁺ channel blocker tetrodotoxin (TTX) at 6 μM altered the morphology only of the MAT-LyLu cell line. TTX produced significant decreases in: (a) cell process length and (b) field diameter, and increases in (c) cell body diameter and (d) process thickness. Importantly, 6 μM TTX had no significant effects on proliferation rates or cellular toxicity. The results suggest that Na⁺ channel activity plays a significant role in determining the morphological development of MAT-LyLu cells in such a way as to enhance their metastatic potential. Received: 9 March 1998 / Accepted: 5 October 1998     

Contribution of functional voltage-gated Na+ channel expression to cell behaviors involved in the metastatic cascade in rat prostate cancer: II. Secretory membrane activity

The secretory membrane activities of two rat prostate cancer cell lines of markedly different metastatic potential, and corresponding electrophysiological characteristics, were studied in a comparative approach. In particular, voltage-gated Na(+) channels (VGSCs) were expressed in the strongly metastatic MAT-LyLu but not in the closely related, but weakly metastatic, AT-2 cells. Uptake and release of the non-cytotoxic marker horseradish peroxidase (HRP) were used as indices of general endocytotic and exocytotic membrane activity, respectively. The amount of tracer present in a given experimental condition was quantified by light microscopic digital imaging. The uptake of HRP was an active process, abolished completely by incubating the cells at low temperature (5 degrees C) and suppressed by disrupting the cytoskeleton. Interestingly, the extent of HRP uptake into the strongly metastatic MAT-LyLu cells was almost twice that into the weakly metastatic AT-2 cells. Vesicular uptake of HRP occurred in a fast followed by a slow phase; these appeared to correspond to cytoplasmic and perinuclear pools, respectively. Importantly, the overall quantitative difference in the uptake disappeared in the presence of 1 microM tetrodotoxin which significantly reduced the uptake of HRP into the MAT-LyLu cells. There was no effect on the AT-2 cells, consistent with functional VGSC expression occurring selectively in the former. A similar effect was observed in Na(+)-free medium. The uptake was partially dependent upon extracellular Ca(2+) but was not affected by raising the extracellular K(+) concentration. We suggest that functional VGSC expression could potentiate prostate cancer cells' metastatic ability by enhancing their secretory membrane activity.     

Apigenin inhibits growth and motility but increases gap junctional coupling intensity in rat prostate carcinoma (MAT-LyLu) cell populations

Apigenin (4',5,7,-trihydroxyflavone) is a flavonoid abundant in the common fruits, herbs and vegetables constituting the bulk of the human diet. This study was aimed at quantifying the effects of apigenin on the basic cellular traits determining cancer development, i.e. cell proliferation, gap junctional coupling, and motility, using the Dunning rat prostate MAT-LyLu cell model. We demonstrated that apigenin considerably inhibits MAT-LyLu cell proliferation and significantly enhances the intensity of connexin43-mediated gap junctional coupling. This effect correlates with an increased abundance of Cx43-positive plaques at the cell-to-cell borders seen in apigenin-treated variants. Moreover, we observed an inhibitory effect of apigenin on the motility of MAT-LyLu cells. The basic parameters characterising MAT-LyLu cell motility, especially the rate of cell displacement, considerably decreased upon apigenin administration. This in vitro data indicates that apigenin may affect cancer development in general, and prostate carcinogenesis in particular, via its influence on cellular activities decisive for both cancer promotion and progression, including cell proliferation, gap junctional coupling and cell motility and invasiveness.     

Prostate cancer-derived angiogenin stimulates the invasion of prostate fibroblasts

Prostate fibroblasts promote prostate cancer progression by secreting factors that enhance tumour growth and induce the migration and invasion of prostate cancer cells. Considering the role of fibroblasts in cancer progression, we hypothesized that prostate cancer cells recruit these cells to their vicinity, where they are most directly available to influence cancer cell behaviour. To test this hypothesis, we performed modified Boyden chamber assays assessing the migration and collagen I invasion of normal primary prostate fibroblasts (PrSCs) and prostate cancer-associated fibroblasts (PCAFs) in response to media conditioned by the metastatic prostate cancer cell lines PC-3, LNCaP and DU145. During 4-hr incubations, PrSCs and PCAFs migrated and invaded in response to the conditioned media. To identify candidate proteins in the conditioned media that produced these effects, we performed cytokine antibody arrays and detected angiogenin in all three media. Angiogenin-blocked PC-3-conditioned medium, obtained using an anti-angiogenin polyclonal antibody or angiogenin siRNA, significantly reduced PC-3-induced PrSC and PCAF collagen I invasion. Furthermore, angiogenin alone at 1, 2 and 5 ng/ml significantly stimulated PCAF collagen I invasion. These results suggest that PC-3-derived angiogenin stimulates the invasion of normal prostate fibroblasts and PCAFs and is sufficient for invasion of the latter. Because prostate fibroblasts play key roles in prostate cancer progression, targeting their invasion using an anti-angiogenin-based therapy may be a strategy for preventing or treating advanced prostate cancer.     

Contact guidance of Walker carcinosarcoma cells by the underlying normal fibroblasts is inhibited by RGD-containing synthetic peptides

The metastatic spread of malignant neoplasms is associated with active migration of cancer cells. The migration of neoplastic cells during the metastatic process may be affected by various extracellular factors, including chemoattractants, haptotactic signals, electric fields, substrate anisotropy, and cell-to-cell contacts. We examined the effect of homotypic collisions and heterotypic interactions with normal human skin fibroblasts on the motile activity of Walker carcinosarcoma cells. It was found that Walker carcinosarcoma cells moving in a dense population neither show contact inhibition of movement when colliding with one another nor increase their motile activity as a result of contact stimulation of motility. On the other hand, when plated onto the surface of aligned fibroblasts, Walker carcinosarcoma cells migrated mainly along the long axes of underlying fibroblasts as a result of contact guidance. The directional character of movement (but not the speed of migration) of Walker carcinosarcoma cells on the surface of aligned fibroblasts was completely effaced by RGD-containing synthetic peptide at a concentration of 1 mg/ml but not by 5 microM verapamil (selective voltage-gated calcium channel inhibitor) or 10 microM gadolinium chloride (non-specific blocker of mechanosensitive ion channels). The suppression of directional character of migration of tumour cells by RGD-containing peptide was associated with the decrease in the amount of fibronectin macromolecules attached to fibroblasts. This suggests that alignment and anisotropic distribution of fibronectin macromolecules may be responsible for contact guidance of tumour cells moving on the surface of fibroblasts.     

A Study of Membrane Activity in Rat Prostate Cancer Cells: An Evaluation of the FM1-43 Dye Technique

A study was initiated to test whether the FM1-43 dye technique could beapplied to the study of endocytic membrane activity in two rodent prostatecancer (MAT-LyLu and AT-2) cell lines of markedly different metastaticability. The lipophilic dye FM1-43, which has frequently been used tomonitor endo/exocytic activity in excitable cells was employed. We found,as in excitable tissues, that both strongly metastatic (MAT-LyLu) andweakly metastatic (AT-2) cells in culture take up FM1-43 to give vesicularstaining of a variable pattern, which appeared to differ between the twocell lines. However, unlike excitable tissues, neither cell linesubsequently released the dye. Indeed, both cell lines retained the dyethrough several rounds of cell division suggesting that dye incorporatedby cells does not enter the endo/exocytotic cycle. Uptake of dye wasindependent of temperature, Na⁺/K+ gradients, pH or metabolism. Wesuggest that passive accumulation of FM1-43 can occur in cancer cells andshould not, automatically, be interpreted as evidence of endocytosis.     

Contribution of functional voltage-gated Na+ channel expression to cell behaviors involved in the metastatic cascade in rat prostate cancer: I. Lateral motility

Previous work suggested that functional voltage-gated Na(+) channels (VGSCs) are expressed specifically in strongly metastatic cells of rat and human prostate cancer (PCa), thereby raising the possibility that VGSC activity could be involved in cellular behavior(s) related to the metastatic cascade. In the present study, the possible role of VGSCs in the lateral motility of rat PCa cells was investigated in vitro by testing the effect of modulators that either block or enhance VGSC activity. Two rat PCa cell lines of markedly different metastatic ability were used in a comparative approach: the strongly metastatic MAT-LyLu and the weakly metastatic AT-2 cell line, only the former being known to express functional VGSCs. Using both electrophysiological recording and a motility assay, the effects of two VGSC blockers (tetrodotoxin and phenytoin) and four potential openers (veratridine, aconitine, ATX II, and brevetoxin) were monitored on (a) Na(+) channel activity and (b) cell motility over 48 h. Tetrodotoxin (at 1 microM) and phenytoin (at 50 microM) both decreased the motility index of the MAT-LyLu cell line by 47 and 11%, respectively. Veratridine (at 20 microM) and brevetoxin (at 10 nM) had no effect on the motility of either cell line, whilst aconitine (at 100 microM) and ATX II (at 25 pM) significantly increased the motility of the MAT-LyLu cell line by 15 and 9%, respectively. Importantly, at the concentrations used, none of these drugs had effects on the proliferation or viability of either cell line. The results, taken together, would suggest strongly that functional VGSC expression enhances cellular motility of PCa cells. The relevance of these findings to the metastatic process in PCa is discussed.     

Ubiquitin C-terminal hydrolase-L3 regulates EMT process and cancer metastasis in prostate cell lines

Ubiquitin C-terminal hydrolase-L3 (UCH-L3) is among the deubiquitinating enzymes (DUBs) that cleave ubiquitin (Ub) from Ub precursors or protein substrates. Many DUBs have been shown to participate in cancer progression in various tissues. However, the mechanism and role of UCH-L3 in carcinogenesis has largely been unknown until recently. Here we investigated the implication of UCH-L3 in prostate cancer progression. Interestingly, UCH-L3 is upregulated in normal or non-metastatic prostate cancer cells and is downregulated in metastatic prostate cancer cell lines. Notably, knockdown of UCH-L3 in normal prostate cell line RWPE1 promotes epithelial-to-mesenchymal transition (EMT), an important process for cancer cell invasion and metastasis. The induction of EMT by UCH-L3 knockdown results in an increase of cell migration and invasion. Yet, to the contrary, overexpression of UCH-L3 in highly metastatic prostate cancer cell line PC3 reverses EMT but the active site mutant UCH-L3 did not. Collectively, our findings identify UCH-L3 as a novel EMT regulator in prostate cells and highlight UCH-L3 as a potential therapeutic target for preventing metastatic prostate cancer.     

Competition amongst Eph receptors regulates contact inhibition of locomotion and invasiveness in prostate cancer cells

Metastatic cancer cells typically fail to halt migration on contact with non-cancer cells. This invasiveness is in contrast to normal mesenchymal cells that retract on contact with another cell. Why cancer cells are defective in contact inhibition of locomotion is not understood. Here, we analyse the dynamics of prostate cancer cell lines co-cultured with fibroblasts, and demonstrate that a combinatorial code of Eph receptor activation dictates whether cell migration will be contact inhibited. The unimpeded migration of metastatic PC-3 cells towards fibroblasts is dependent on activation of EphB3 and EphB4 by ephrin-B2, which we show activates Cdc42 and cell migration. Knockdown of EphB3 and EphB4 restores contact inhibition of locomotion to PC-3 cells. Conversely, homotypic collisions between two cancer cells results in contact inhibition of locomotion, mediated by EphA-Rho-Rho kinase (ROCK) signalling. Thus, the migration of cancer cells can switch from restrained to invasive, depending on the Eph-receptor profile of the cancer cell and the reciprocal ephrin ligands expressed by neighbouring cells.     

The role of the voltage-gated potassium channel,Kv2.1 in prostate cancer cell migration

Voltage-gated potassium (Kv) channels are involved in many important cellular functions and play pivotal roles in cancer progression. The expression level of Kv2.1 was observed to be higher in the highly metastatic prostate cancer cells (PC-3), specifically in their membrane, than in immortalized prostate cells (WPMY-1 cells) and comparatively less metastatic prostate cancer cells (LNCaP and DU145 cells). However, Kv2.1 expression was significantly decreased when the cells were treated with anti-oxidants, such as N-acetylcysteine or ascorbic acid, implying that the highly expressed Kv2.1 could detect reactive oxygen species (ROS) in malignant prostate cancer cells. In addition, the blockade of Kv2.1 with stromatoxin-1 or siRNA targeting Kv2.1 significantly inhibited the migration of malignant prostate cancer cells. Our results suggested that Kv2.1 plays an important role as a ROS sensor and that it is a promising therapeutic molecular target in metastasis of prostate cancer.     

Contact-activated migration of melanoma B16 and sarcoma XC cells.

During migration, tumour cells interact with neighbouring neoplastic and normal host cells, and such interaction may influence their motile activity. We investigated the effect of homotypic collisions on the motile activity of two tumour cell lines, mouse melanoma B16 and rat sarcoma XC, and nontransformed human skin fibroblasts. It was found that the tumour cells show only limited motile activity when moving as single cells without contact with neighbours. At a higher density of the culture (and also at a greater number of cell to cell contacts) the activation of motility of investigated tumour cells was observed. On the other hand, the normal human skin fibroblasts showed a typical reaction of density-dependent inhibition of motility. The motile activity of tumour cells was not affected by conditioned media and was visibly dependent on a direct physical contact among colliding cells. The activation of cell movement was observed about 40-50 min after the initial contact between tumour cells. Contact-activated migration of neoplastic cells was inhibited by 50 microM verapamil (a selective voltage-gated calcium channel inhibitor) and 10 microM gadolinium chloride (a nonspecific blocker of mechanosensitive ion channels) but not by pertussis toxin. The observation that homotypic collisions among tumour cells strongly increase their motile activity suggests that contact-activated migration may play a significant role in tumour invasion and metastasis.     

MiR-203 controls proliferation,migration and invasive potential of prostate cancer cell lines

Prostate cancers show a slow progression from a local lesion (primary tumor) to a metastatic and hormone-resistant phenotype. After an initial step of hyperplasia, in a high percentage of cases a neoplastic transformation event occurs that, less frequently, is followed by epithelial to mesenchymal transition and invasion of healthy tissues (usually bones). MicroRNA-203 (miR-203) is a tumor suppressor microRNA often silenced in different malignancies. Here, we show that miR-203 is downregulated in clinical primary prostatic tumors compared to normal prostate tissue, and in metastatic prostate cancer cell lines compared to normal epithelial prostatic cells. Overexpression of miR-203 in brain or bone metastatic prostate cell lines (DU145 and PC3) is sufficient to induce a mesenchymal to epithelial transition with inhibition of cell proliferation, migration and invasiveness. We have identified CKAP2, LASP1, BIRC5, WASF1, ASAP1 and RUNX2 as new miR-203 direct target mRNAs involved in these events. Therefore, miR-203 could be a potentially new prognostic marker and therapeutic target in metastatic prostate cancer.     

Modulation of prostate cancer growth in bone microenvironments

Bone remains one of the major sites, and most lethal host organs, for prostate cancer metastasis. Prostate cell spread and establishment in bone depends on multiple reciprocal modifications of bone stromal and epithelial cancer cell behaviors. This review focuses on recent advances in the characterization of cell-cell and cell-matrix interplay, effects on cell growth, adhesion and invasion, and several therapeutic possibilities for co-targeting prostate cancer cells and bone stroma. We address the topic from three main perspectives: (1) the normal and aging bone stromal environment, (2) the "reactive" bone stromal environment, and (3) the cancerous prostate epithelial cells themselves. First, normal, and especially aging, bones provide uniquely rich and "fertile soil" for roaming cancer cells. The interactions between prostate cancer cells and insoluble extracellular matrices, soluble growth factors, and/or sex steroid hormones trigger bone remodeling, through increased osteoclastogenesis and furthur matrix metalloproteinase activity. Second, after cancer cell arrival and establishment in the bone, host stromal cells respond, becoming "reactive" in a process again involving extracellular matrix remodeling, together with growth factor and steroid receptor signaling this process ultimately enhances cancer cell migration, stromal transdifferentiation, and invasion of the cancer tissues by stromal, inflammatory, and immune-responsive cells. Third, prostate cancer cells also respond to supportive bone microenvironments, where soluble and matrix-associated molecules affect cancer cell growth and gene expression, especially altering cancer cell surface receptor and integrin-mediated cell signaling. We discuss both integrin cell-matrix and gap junctional cell-cell communication between cancer cells and their microenvironments during prostate cancer progression.     

CrkI and p130(Cas) complex regulates the migration and invasion of prostate cancer cells

Prostate cancer metastasis is often associated with poor prognosis. The molecular coupling of the adaptor protein Crk to the docking protein p130(Cas) serves as a switch that regulates cell migration in several invasive cancer cells and Ack appears to act upstream of CrkII to modulate the cell motility. However, the precise role of Ack, Crk and p130(Cas) complex in prostate cancer migration remains unknown. In this study we examined the expression of Crk and p130(Cas) in prostate cancer cell lines, and found that CrkI and p130(Cas) protein level was higher in highly invasive PC-3M and PC-3 cell lines than in moderately invasive DU-145 cells. Upon shRNA mediated knockdown of CrkI and p130(Cas) in PC-3M cells, cell migration and invasion were significantly inhibited as analyzed by wound healing assay and transwell invasion assay. Furthermore, co-immunoprecipitation assay showed that p130(Cas) interacted with CrkI in PC-3M cells and the stability of p130(Cas) and CrkI depended on each other. AckI interacted with both CrkI and p130(Cas) and the interaction of AckI with CrkI seemed to be independent of p130(Cas) . Taken together, our results demonstrate the high expression of CrkI and p130(Cas) in invasive prostate cancer cells and the important role of CrkI/p130(Cas) complex in the migration and invasion of prostate cancer cells. These data suggest that CrkI/p130(Cas) could be exploited as potential molecular therapeutic target for prostate cancer metastasis.     

Contact-mediated acceleration of migration of melanoma B16 cells depends on extracellular calcium ions

The escape of malignant cells from primary tumour and their active migration to the surrounding tissues are among the most important steps in the metastatic process. During migration, tumour cells interact with neighbouring neoplastic and normal cells and such interactions may affect their motile activity. We investigated the effect of extracellular calcium ions on migration of mouse melanoma B16 cells stimulated by homotypic cell-to-cell contacts. It was found that the decreasing of extracellular Ca2+ influx into B16 cells by lowering Ca2+ concentration in culture medium, or by the application of 0.5 mM La3+ (non-selective inorganic Ca2+ channels blocker), reduced the contact-mediated acceleration of migration of melanoma cells but only slightly affected the basal motile activity of non-stimulated single, separated cells moving without contacts with neighbouring ones in sparse culture. Since it was suggested that contact-mediated acceleration of migration of melanoma B16 cells may be controlled by mechanosensitive and/or voltage-gated ion channels, the presented data support the concept that these channels may affect cell migration by regulation of extracellular Ca2+ influx into stimulated cell.