Melanoma cell migration to type IV collagen requires activation of NF-kappaB

Chemotaxis is the consequence of environmental factors engaging their receptors to initiate signaling cascades. However, the biochemical mechanisms controlling this phenomenon are not clear. We employed an in vitro modified Boyden 48-well chemotaxis migration system to characterize the role of signal transducers in type IV collagen (CIV) induced A2058 human melanoma cell migration. Using specific pharmacological inhibitors and a series of dominant-negative and constitutively active signaling proteins, we show that Ras and Rac GTPases, PI-3K, and PKC participate in cell migration mediated by beta1 integrins. Collagen also induces a time- dependent degradation of IkappaB-alpha and an increase in nuclear translocation of NF-kappaB which is dependent on PKC pathway. More importantly, collagen-stimulated melanoma cell migration directly correlated with an increase in NF-kappaB transactivation. Furthermore, CIV induced an increase in beta1 integrin mRNA levels. Specific NF-kappaB inhibitors Helenalin and SN-50 inhibited melanoma cell migration to collagen, indicating a novel requirement for NF-kappaB transactivation in cell chemotaxis mediated by beta1 integrin signals. These results describe signal transduction events that are initiated by type IV collagen through beta1 integrins and demonstrate an important role for NF-kappaB in regulating melanoma chemotaxis.     

Angiogenin interacts with the plasminogen activation system at the cell surface of breast cancer cells to regulate plasmin formation and cell migration

Angiogenin (ANG), a 14‐kDa pro‐angiogenic secreted protein, has been shown to play a role in cell migration and tumor invasion, which involve proteolytic cleavage of plasminogen to generate plasmin. However, the mechanism by which ANG regulates plasmin formation and cell migration was not known. Our studies here detected elevated levels of secreted and cell surface‐bound ANG in highly invasive metastatic breast cancer cells. ANG was also detected at very high levels in the tumor cells in infiltrating ductal carcinomas. By immunofluorescence and immunoprecipitation analysis, ANG was detected at the leading edges of the cell surfaces where it colocalized and interacted with members of the plasminogen activation system (PAS) such as annexin A2 (A2), calpactin (S100‐A10) and urokinase plasminogen activator receptor (uPAR). Analysis of lipid raft (LR) and non‐lipid raft (NLR) regions of the cell membranes showed the predominance of ANG, A2 and S100‐A10 in the LR regions. In contrast, uPAR was detected predominantly in the NLR fractions, suggesting that ANG interacts with uPAR at the junctions of LR and NLR regions. ANG knockdown in T47D and MDA‐MB‐231 breast cancer cell lines did not affect the cellular expression of A2, S100‐A10 and uPAR but decreased cell migration and plasmin formation. Neutralization of ANG with monoclonal antibodies similarly decreased the migration of MDA‐MB‐231 cells. In the presence of ANG, uPAR was observed to interact with uPA, which is necessary for plasmin formation. Conversely, in the absence of ANG, uPAR did not interact with uPA and FAK and Src kinases were observed to be dephosphorylated. Exogenous addition of recombinant ANG to ANG knocked down MDA‐MB‐231 cells restored FAK phosphorylation, uPAR interactions with uPA, plasmin formation as well as migration of these cells. Taken together, our results identified a novel role for ANG as a member of the uPAR interactome that facilitates the interaction of uPAR with uPA, leading to plasmin formation and cell migration necessary for tumor invasion and metastasis of breast cancer cells.     

Regulation of glioma cell migration by serine-phosphorylated P311

P311, an 8-kDa polypeptide, was previously shown to be highly expressed in invasive glioma cells. Here, we report the functional characteristics of P311 with regard to influencing glioma cell migration. P311 is constitutively serine-phosphorylated; decreased phosphorylation is observed in migration-activated glioma cells. The primary amino acid sequence of P311 indicates a putative serine phosphorylation site (S59) near the PEST domain. Site-directed mutagenesis of S59A retarded P311 degradation and induced glioma cell motility. In contrast, S59D mutation resulted in the rapid degradation of P311 and reduced glioma cell migration. Coimmunoprecipitation coupled with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis identified Filamin A as a binding partner of P311, and immunofluorescence studies showed that both proteins colocalized at the cell periphery. Moreover, P311-induced cell migration was abrogated by inhibition of beta1 integrin function using TACbeta1A, a dominant-negative inhibitor of beta1 integrin signaling, suggesting that P311 acts downstream of beta1 signaling. Finally, overexpression of P311 or P311 S59A mutant protein activates Rac1 GTPase; small interfering RNA-mediated depletion of Rac1 suppresses P311-induced motility. Collectively, these results suggest a role for levels of P311 in regulating glioma motility and invasion through the reorganization of actin cytoskeleton at the cell periphery.     

Both u-PA inhibition and vitronectin binding by plasminogen activator inhibitor 1 regulate HT1080 fibrosarcoma cell metastasis

Overexpression of plasminogen activator inhibitor 1 (PAI-1) reduces tumor cell migration in vitro and metastasis in mice in vivo by mechanisms involving either inhibition of urokinase plasminogen activator (u-PA) activity or competition for an integrin binding site on vitronectin. To analyze the effects of PAI-1 on tumor cell migration in vitro and metastasis in vivo, recombinant adenoviral vectors expressing wild-type or mutant PAI-1 proteins were constructed. The mutant PAI-1 proteins were defective in either vitronectin binding (PAI-1(VN-)), plasminogen activator inhibition (PAI-1(INH-)) or both (PAI-1(VN-,INH-)). In vitro, migration of HT1080 human fibrosarcoma cells through a reconstituted extracellular matrix (ECM) was reduced 73% by overexpression of wild-type PAI-1 and 65% by PAI-1(VN-) compared with control virus-infected cells. Migration of cells infected by virus expressing either PAI-1(INH-) or PAI-1(VN-,INH-) was unaffected, indicating a requirement for plasminogen activator inhibitory activity. In vivo, however, only overexpression of wild-type PAI-1 reduced the burden of metastasis by 68% compared with the control group. This indicates that both u-PA inhibition and PAI-1 ECM interactions contribute to the mechanism of PAI-1-mediated regulation of cell migration.     

Melanoma cell migration is upregulated by tumour necrosis factor-alpha and suppressed by alpha-melanocyte-stimulating hormone

We reported recently that the inflammatory cytokine tumour necrosis factor alpha (TNF-alpha) can upregulate integrin expression, cell attachment and invasion of cells through fibronectin in a human melanoma cell line (HBL). Furthermore, the actions of TNF-alpha were suppressed by the addition of an anti-inflammatory peptide alpha-melanocyte-stimulating hormone (alpha-MSH). In the current study, we extend this work investigating to what extent TNF-alpha might stimulate melanoma invasion by promoting cell migration and whether alpha-MSH is also inhibitory. Two human melanoma cell lines were examined in vitro (HBL and C8161) using a scratch migration assay. Analysis using either time-lapse video microscopy or imaging software analysis of migrating 'fronts' of cells revealed that C8161 cells migrated more rapidly than HBL cells. However, when cells were stimulated with TNF-alpha both cell types responded with a significant increase in migration distance over a 16-26 h incubation time. alpha-Melanocyte-stimulating hormone had an inhibitory effect on TNF-alpha-stimulated migration for HBL cells, completely blocking migration at 10(-9) M. In contrast, C8161 cells did not respond to alpha-MSH (as these cells have a loss-of-function melanocortin-1 receptor). However, stable transfection of C8161 cells with the wild-type melanocortin-1 receptor produced cells whose migration was significantly inhibited by alpha-MSH. In addition, the use of a neutralising antibody to the beta(1)-integrin subunit significantly reduced migration in both cell types. This data therefore supports an inflammatory environment promoting melanoma cell migration, and in addition shows that alpha-MSH can inhibit inflammatory stimulated migration. The data also support a fundamental role of the beta(1)-integrin receptor in melanoma cell migration.     

Promotion of malignant astrocytoma cell migration by osteopontin expressed in the normal brain: differences in integrin signaling during cell adhesion to osteopontin versus vitronectin

The extracellular matrix of the normal adult brain lacks expression of most of the adhesive glycoproteins that are known to promote cell attachment, and it has been thought that the malignant invasion of astrocytoma tumor is mediated primarily by remodeling of the matrix by the tumor cells. It has been reported, however, that normal brain neuropil does contain a protein(s) that promotes cell attachment. Therefore, we explored the possibility that the cell attachment protein, osteopontin, is expressed in the normal human brain. Here, we report that osteopontin is expressed in the cortical gray and white matter of normal adult brain, with the levels of osteopontin expression being equivalent to those in malignant astrocytic tumor biopsies as assessed by Western blot analysis. Immunoblotting identified osteopontin polypeptides with relative molecular weights of 60- and 65-kDa in normal brain white matter and in astrocytic tumors, with an additional 70-kDa polypeptide being identified in normal cortical gray matter and in some astrocytic tumors. Recombinant osteopontin was found to promote attachment of U-251MG human malignant astrocytoma cells in a process that was inhibited by anti-integrin monoclonal antibodies anti-alphavbeta3 (75%), anti-alphavbeta5 (80%), and anti-alpha5 (40%). On attachment, integrins alphavbeta5 and alphavbeta3 localized to focal adhesions, and there was an alteration in cell morphology with the formation of lamellae-like processes. The attachment was associated with activation of Rac in a slow and prolonged fashion and rapid activation of Rho. Similarly, integrins alphavbeta5 and alphavbeta3 localized to focal adhesions on attachment of the U-251MG cells to vitronectin, but on this substrate, the cells assumed a spread and flat morphology, and there was rapid activation of both Rac and Rho. Extracts of normal brain white matter were capable of promoting haptotactic migration, and this response was inhibitable by monoclonal antibodies anti-alphavbeta3 and anti-alpha5. Depletion of the osteopontin in these extracts abrogated the haptotactic response significantly (50%). These data indicate that the cell attachment protein, osteopontin, is expressed in the normal adult brain and that it has the potential to promote malignant astrocytoma cell invasion.     

Regulation of the urokinase-type plasminogen activator system by the von Hippel-Lindau tumor suppressor gene.

The urokinase-type plasminogen activator (uPA) system plays an important role in tumor cell invasion, metastases, and angiogenesis. uPA, uPA receptor, and plasminogen activator inhibitor 1 (PAI-1) are prognostic factors in different solid tumors, e.g., renal cell carcinomas (RCCs). von Hippel-Lindau (VHL) disease is an inherited cancer syndrome that is characterized by extensively vascularized tumors, including hemangioblastomas and RCCs. In 75% of sporadic RCCs, the VHL gene is also inactivated. It has been recognized in sporadic RCC that PAI-1 mRNA levels are up-regulated and uPA mRNA levels are down-regulated. We determined the role of the VHL tumor suppressor gene in the regulation of the uPA system in RCC. In 786-O RCC cells expressing the wild-type (wt) VHL gene, we measured a 3-fold higher overall urokinase activity than in 786-O cells expressing a mutant VHL gene or lacking VHL. uPA mRNA and protein levels were higher in cells with wt VHL compared with cells with mutant VHL or lacking VHL. In addition, PAI-1 mRNA and protein levels were dramatically increased in 786-O cells with mutant VHL or lacking VHL, compared with cells expressing wt VHL. Our results provide further evidence that the VHL gene plays an important role in the process of angiogenesis by regulation of plasmin-mediated proteolysis of the extracellular matrix and may explain why VHL-induced RCCs grow slowly and metastasize relatively late.     

The role of the plasminogen activation system in angiogenesis and metastasis

The urokinase plasminogen activator system (uPA) has been demonstrated to be required for the movement of cells through a matrix. These observations have been extended to the migration of endothelial cells during the process of angiogenesis, and recent data suggest that the uPA system is central to this process. uPA is a serine protease that is capable of initiating an extracellular cascade of proteolysis that involves the activation of plasminogen and matrix metalloproteases. These proteolytic cascades remodel extracellular matrix (ECM) and basement membrane (BM), allowing for the movement of cells across and through these barriers. In addition, these proteolytic cascades process and release various growth and differentiation factors that are sequestered on the cell surface or within the ECM, which contribute to the evolution of a migratory or invasive cell phenotype. uPA is also able to modulate signaling and cell adhesion through its specific cell surface receptor, uPAR. Recent data suggest that the nonproteolytic activities of the uPA system are coupled to adhesion, migration and signaling through various integrins. This article reviews the evidence for the role of this system in tumor angiogenesis and metastasis, which suggests that the uPA system initiates multiple cascades that contribute to these processes.     

Immunolocalization of the components of the plasminogen activating system in breast carcinoma tissue

The plasminogen activating system plays an important role in the progression of carcinomas and the significance of this system in various carcinomas has been thoroughly investigated. To follow up these investigations, we examined the immunolocalization of the components of the plasminogen activating system, namely the urokinase-type plasminogen activator (uPA), its receptor (uPAR), and two inhibitors (PAI-1 and PAI-2), in 72 cases of breast carcinomas. uPA, uPAR and PAI-1 were uniformly expressed in 75.0%, 84.7% and 80.6% of the cases respectively, although their expression was less uniform in T3 or larger carcinomas (p<0.05). Furthermore, the immunoreactivities of these three proteins were often very similar in the lesions. PAI-2 expression was, to the contrary, statistically less extensive (p<0.01)than PAI-1, and only 52.8% of the cases were uniformly positive. The incidence of PAI-2 expression was statistically lower in T3 or larger carcinomas (p<0.01), and in stage III (p<0.01) and grade III carcinomas (p<0.05). Moreover, PAI-1 immunoreactivity was more commonly found in lymph node positive (p<0.05), T3 or larger and stage III carcinomas than PAI-2 immunoreactivity. These findings suggest that uPA, uPAR and PAI-1, whose expression should be regulated by carcinomas once they have grown to a certain degree, work in association with one another, probably promoting carcinoma progression, while PAI-2 might act as the inhibitor in this system. Furthermore, breast carcinomas containing more PAI-I than PAI-2 are more active in respect to both local proliferation and metastasis.     

Comparison of immunohistochemistry with immunoassay (ELISA) for the detection of components of the plasminogen activation system in human tumour tissue

Enzyme-linked immunosorbent assay (ELISA) methods and immunohistochemistry (IHC) are techniques that provide information on protein expression in tissue samples. Both methods have been used to investigate the impact of the plasminogen activation (PA) system in cancer. In the present paper we first compared the expression levels of uPA, tPA, PAI-1 and uPAR in a compound group consisting of 33 cancer lesions of various origin (breast, lung, colon, cervix and melanoma) as quantitated by ELISA and semi-quantitated by IHC. Secondly, the same kind of comparison was performed on a group of 23 melanoma lesions and a group of 28 breast carcinoma lesions. The two techniques were applied to adjacent parts of the same frozen tissue sample, enabling the comparison of results obtained on material of almost identical composition. Spearman correlation coefficients between IHC results and ELISA results for uPA, tPA, PAI-1 and uPAR varied between 0.41 and 0.78, and were higher for the compound group and the breast cancer group than for the melanoma group. Although a higher IHC score category was always associated with an increased median ELISA value, there was an overlap of ELISA values from different scoring classes. Hence, for the individual tumour cases the relation between ELISA and IHC is ambiguous. This indicates that the two techniques are not directly interchangeable and that their value for clinical purposes may be different.     

Tumor-targeted immune complex formation: effects on myeloid cell activation and tumor-directed immune cell migration

The effectiveness of cellular immunotherapy of solid tumors is often hampered by the lack of specific infiltration of immune effector cells into the tumor mass. Therefore, we studied the potential of tumor antigen-specific antibodies to elicit tumor-specific myeloid cell activation, to induce or enhance tumor infiltration by immune cells. To this end, we developed an in vitro model system using the human myeloid cell line MonoMac-6. Incubation of IFN-gamma-primed MonoMac-6 cells with serum-opsonized zymosan or EGP-2-directed, mouse IgG2a-opsonized, EGP-2-positive tumor cells resulted in the production of ROS and TNF-alpha and induced E-selectin and ICAM-1 expression on HUVECs. FcR-mediated MonoMac-6 cell activation was strictly dependent on the activation of MonoMac-6 cells with IFN-gamma. In addition, no myeloid cell activation was observed in the presence of human serum or using tumor antigen-specific mouse antibody subclasses other than IgG2a, suggesting the crucial involvement of CD64 (FcgammaR1) in the effects observed. However, serum-inhibited myeloid cell activation was completely restored employing a 2-step targeting approach in which tumor cell opsonization with mouse anti-EGP-2 antibodies was followed by incubation with human antimouse Ig antibodies. Moreover, using this 2-step approach, not only anti-EGP-2-directed mouse IgG2a but also mouse IgG1 antibodies effectively induced tumor-specific myeloid cell activation. In conclusion, we describe a method to induce efficient and tumor-specific activation of myeloid cells based on the sequential use of mouse tumor antigen-specific and human antimouse Ig antibodies. Targeted myeloid cell activation may provide a means to aid in the induction of a tumor-directed immune response and as such, the method described here could be of clinical significance.     

Differential expression of the components of the plasminogen activating system in human thyroid tumour derived cell lines and papillary carcinomas

We characterised the expression of the plasminogen activators (uPA and tPA), the uPA receptor (uPAR) and the PAs inhibitors (PAI-1 and PAI-2) in human thyroid cell lines derived from normal thyroid, follicular adenoma, follicular, papillary and anaplastic carcinomas. Urokinase PA activity was detected in the supernatant of normal thyrocytes and augmented in those of all tumour cells. Quantitative RT-PCR analysis showed that uPA, uPAR and PAI-1 mRNAs increased in all carcinoma cells. Similar results were found in 13 papillary thyroid carcinoma (PTC) tissues which were mirrored in Western blot experiments. A correlation was found between tumour size and uPA mRNA increase, and higher levels of uPA and uPAR mRNAs were found in metastatic PTC. In conclusion, thyroid carcinoma cell lines and PTC overexpress uPA, uPAR and PAI-1 and the correlation of uPA and its cognate receptor with tumour size and metastasis may suggest their potential prognostic relevance in thyroid cancer.     

Regulation of chemosensitivity and migration by clusterin in non-small cell lung cancer cells

Purpose  

In terms of drug resistance, cancer cells usually benefit from high clusterin (CLU) expression on chemotherapy. In contrast, CLU expression has been found to be a favorable prognostic factor in lung cancer patients. The aims of this study are to determine the association between CLU expression and chemotherapeutic sensitivity and the potential role of CLU in migration in human non-small-cell lung cancer (NSCLC) cell lines.     

Engaged urokinase receptors enhance tumor breast cell migration and invasion by upregulating alpha(v)beta5 vitronectin receptor cell surface expression

We have previously shown that urokinase receptor physically and functionally interacts with alpha(v)beta5 vitronectin receptor, leading to tumor breast cell migration and invasion. Here, the link between these 2 receptors was further investigated by analyzing the expression levels of urokinase receptor and alpha(v)beta5 integrin in 35 human breast carcinomas and 5 benign breast lesions. The occurrence of a positive correlation between urokinase receptor and alpha(v)beta5 protein levels in benign and malignant tumor specimens prompted us to investigate whether engaged urokinase receptors might modulate alpha(v)beta5 expression. Here, we report the receptor-dependent ability of catalytically inactive urokinase to upregulate the alpha(v) and beta5 chains in MDA-MB-231 and MCF-7 breast carcinoma cell lines in a time- and concentration-dependent manner. This effect is dependent on protein kinase C activity and requires new protein synthesis. Accordingly, the availability of assembled alpha(v)beta5 receptors on the cell surface increases upon urokinase treatment, as shown by immunoprecipitation and immunocytochemical analyses. Exposure to urokinase leads to enhanced tumor cell migration and invasion, which is prevented by the "phosphorylation-like" urokinase receptor antagonist His-uPA(138E/303E), the DNA-binding drug mithramycin, the protein kinase C inhibitor calphostin C and anti-alpha(v)beta5 antibodies. Finally, urokinase enables benign breast MCF-10A cells to cross Matrigel in a alpha(v)beta5- and urokinase receptor-dependent manner, indicating that urokinase controls a regulatory circuitry crucial to breast tumor progression.