The type 1 IGF receptor (IGF-IR) is activated by two ligands, IGF-1 and IGF-2, and by insulin at supraphysiological concentrations. It plays a significant role in the growth of normal and abnormal ...cells, and antibodies against the IGF-IR are now in clinical trials. Targeting of the IGF-IR in cancer cells (by antibodies or other means) can be improved by the appropriate selection of responsive tumors. This review focuses on the optimization of IGF-IR targeting in human cancer.
We have previously reported that insulin-like growth factor-I (IGF-I) supports growth and survival of mouse and human medulloblastoma cell lines, and that IGF-I receptor (IGF-IR) is constitutively ...phosphorylated in human medulloblastoma clinical samples. Here, we demonstrate that a specific inhibitor of insulin-like growth factor-I receptor (IGF-IR), NVP-AEW541, attenuated growth and survival of mouse (BsB8) and human (D384, Daoy) medulloblastoma cell lines. Cell cycle analysis demonstrated that G1 arrest and apoptosis contributed to the action of NVP-AEW54. Interestingly, very aggressive BsB8 cells, which derive from cerebellar tumors of transgenic mice expressing viral oncoprotein (large T-antigen from human polyomavirus JC) became much more sensitive to NVP-AEW541 when exposed to anchorage-independent culture conditions. This high sensitivity to NVP-AEW54 in suspension was accompanied by the loss of GSK-3β constitutive phosphorylation and was independent from T-antigen-mediated cellular events (Supplementary Materials). BsB8 cells were partially rescued from NVP-AEW541 by GSK3β inhibitor, lithium chloride and were sensitized by GSK3β activator, sodium nitroprusside (SNP). Importantly, human medulloblastoma cells, D384, which demonstrated partial resistance to NVP-AEW541 in suspension cultures, become much more sensitive following SNP-mediated GSK3β dephosphorylation (activation). Our results indicate that hypersensitivity of medulloblastoma cells in anchorage-independence is linked to GSK-3β activity and suggest that pharmacological intervention against IGF-IR with simultaneous activation of GSK3β could be highly effective against medulloblastomas, which have intrinsic ability of disseminating the CNS via cerebrospinal fluid.
Acquisition of independence from anchorage to the extracellular matrix is a critical event for onset and progression of solid cancers. To identify and characterize new genes conferring anchorage ...independence, we transduced MCF10A human normal breast cells with a retroviral cDNA expression library and selected them by growth in suspension. Microarray analysis targeted on library-derived transcripts revealed robust and reproducible enrichment, after selection, of cDNAs encoding the scaffolding adaptor Gab2. Gab2 was confirmed to strongly promote anchorage-independent growth when overexpressed. Interestingly, downregulation by RNA interference of endogenous Gab2 in neoplastic cells did not affect their adherent growth, but abrogated their growth in soft agar. Gab2-driven anchorage independence was found to specifically involve activation of the Src-Stat3 signaling axis. A transcriptional 'signature' of 205 genes was obtained from GAB2-transduced, anchorage-independent MCF10A cells, and found to contain two main functional modules, controlling proliferation and cell adhesion/migration/invasion, respectively. Extensive validation on breast cancer data sets showed that the GAB2 signature provides a robust prognostic classifier for breast cancer metastatic relapse, largely independent from existing clinical and genomic indicators and from estrogen receptor status. This work highlights a pivotal role for GAB2 and its transcriptional targets in anchorage-independent growth and breast cancer metastatic progression.
Epithelial cell adhesion molecule (EpCAM), involved in Ca2+-independent homotypic cell-cell adhesion in epithelial tissues, is overexpressed in several cancer types. Although studies investigating ...the function of EpCAM in cancers have shown that it plays a role in cell proliferation, invasion and metastasis, the overall function of EpCAM in cancer cells has remained elusive. Here, we report a novel function of EpCAM in multicellular aggregates (MCAs). EpCAM inhibition using RNA interference (RNAi) did not affect cell morphology, proliferation or expression of certain genes, including cyclin D1 in monolayer cultures of the human oral squamous cell carcinoma cell lines HSC-3 or HSC-4. However, in HSC-4 cells cultured as MCAs, suppression of EpCAM significantly reduced the expression levels of cyclin D1. Nuclear localization of the cyclin D1 protein was observed in MCAs of HSC-4 cells but not in MCAs of EpCAM knockdown HSC4 cells, suggesting that EpCAM regulates cyclin D1 expression and localization in HSC-4 cells under anchorage-independent conditions. We propose that targeting EpCAM might result in more efficient therapies under certain conditions of oral squamous cell carcinoma.
While most untransformed cells require substrate attachment for growth (anchorage dependence), the oncogenic transformed cells lack this requirement (anchorage independence) and are often ...tumorigenic. However, the mechanism of loss of anchorage dependence is not fully understood. When rat normal fibroblasts were cultured in suspension without substrate attachment, the cell cycle arrested in G1 phase and the cyclin-dependent kinase inhibitor p27Kip1 protein and its mRNA accumulated. Conditional expression of oncogenic Ras induced the G1-S transition of the cell cycle and significantly shortened the half-life of p27Kip1 protein without altering its mRNA level. Inhibition of the activation of mitogen-activated protein (MAP) kinase by cyclic AMP-elevating agents and a MEK inhibitor prevented the oncogenic Ras-induced degradation of p27Kip1. These results suggest that the loss of substrate attachment induces the cell cycle arrest through the up-regulation of p27Kip1 mRNA, but the oncogenic Ras confers anchorage independence by accelerating p27Kip1 degradation through the activation of the MAP kinase signaling pathway. Furthermore, we have found that p27Kip1 is phosphorylated by MAP kinase in vitro and the phosphorylated p27Kip1 cannot bind to and inhibit cdk2.
Malignant melanoma cells show high aggressiveness and metastatic potential. Tumor cells as they become more metastatic, gradually lose their dependence on both adhesion and serum. Thus, in the ...process of tumor progression cells undergo series of changes that allow them to adapt to different tissue milieu. This implies that during this process, points on the integrin pathway may become constitutively activated. In the present study we investigated the possible role of FAK, being one of the key members of the integrin-signaling pathway, in the multistep progression towards a malignant phenotype in human melanoma. In our study we show that in melanoma cells there is neither an increase in the amount of FAK nor in its phosphorylation capacity, but rather in its levels of constitutive activation. Indeed, in all melanoma cells tested and not in nevus and neuroblastoma cells, we observed various degrees of constitutive activation of FAK. Our results also suggest that FAK constitutive activation is regulated at least in part by the cytoskeleton, implying that steps along the integrin signaling pathway involving FAK could be among the oncogenic mechanisms that operate in melanoma and may account for the highly aggressive, anchorage independent phenotype of this tumor.
Mutant p53 in cell adhesion and motility Yeudall, W Andrew; Wrighton, Katharine H; Deb, Sumitra
Methods in molecular biology (Clifton, N.J.),
2013, Volume:
962
Journal Article
Pro-oncogenic properties of mutant p53 were investigated with the aid of migration assays, adhesion assays, and soft agar growth assays using cells stably expressing gain-of-function p53 mutants. To ...determine cell migration, "wound-healing" (scratch) assays and haptotactic (chamber) assays were used. H1299 cells expressing mutant p53 were found to migrate more rapidly than cells transfected with empty vector alone. Results from both types of migration assay were broadly similar. Migratory ability differed for different p53 mutants, suggesting allele-specific effects. Cells expressing p53 mutants also showed enhanced adhesion to extracellular matrix compare to controls. Furthermore, stable transfection of mutant p53-H179L into NIH3T3 fibroblasts was sufficient to allow anchorage-independent growth in soft agar.
The secreted phosphoprotein osteopontin (OPN) is strongly associated with the process of neoplastic transformation, based both on its pattern of expression in vivo and in vitro and on functional ...analyses. We have used 3T3 cells derived from wildtype and OPN-deficient mice and transformed by transfection with oncogenic ras to assess the role of OPN in transformation in vitro and in tumorigenesis in vivo. There was no effect of an absence of OPN on the ability of the cells to undergo immortalization or to form morphologically transformed foci following ras transfection. Wildtype and OPN-deficient cell lines were established from such foci, and lines with similar ras mRNA levels selected for further analysis. Ras-transformed cell lines from both wildtype and OPN-deficient mice could form colonies in soft agar indicating that this process can occur in the absence of OPN. However, the ability of the OPN-deficient cell lines to form colonies was reduced as compared to wildtype cell lines. Tumorigenesis in syngeneic and nude mice was assessed for a subset of cell lines that formed colonies efficiently in soft agar. Cell lines unable to make OPN formed tumors in these mice much more slowly than wildtype cells, despite similar growth of the cells on plastic and in soft agar. Taken together, these results indicate that maximal transformation by ras requires OPN expression, and implicate increased OPN expression as an important effector of the transforming activity of the ras oncogene.
The epithelial cell adhesion molecule (EpCAM) is a Ca^<2+> -independent intracellular adhesion in epithelial tissues, and is highly expressed in several cancers. Despite much research on the function ...of EpCAM in cancers, complete understanding remains elusive. Recent studies have reported the possibility that EpCAM is a cancer stem cell marker. The expression level of cyclin D1 in monolayer cultures of a human oral squamous cell carcinoma cell line, HSC-4, was not affected by the depression of EpCAM expression using RNA interference (RNAi). On the other hand, suppression of EpCAM reduced the expression level of cyclin D1 in HSC-4 cells as multicellular aggregates (MCAs). Moreover, it was observed that localization of EpCAM protein in HSC-4 cells was altered between MCAs and monolayers. These results suggest that EpCAM regulates the cell growth of HSC-4 through the cyclin D1 expression under anchorage independent conditions. It is proposed that targeting EpCAM might lead to more useful therapies against oral squamous cell carcinoma.
Cellular transformation, the conversion of normal cells into tumorigenic cells in vitro, is characterized by immortalization, anchorage- and serum-independent growth and tumour formation in the nude ...mouse. Among these, anchorage-independent growth is one of the defining characteristics of transformed cells and tumour cells. Without attachment to the extracellular substrate, most normal cells cannot grow or survive, but tumour cells can proliferate. Many oncogenes and tumour suppressors are involved in regulating this process, among which is Abl tyrosine kinases. Previous work showed that v-Abl, an oncogenic variant of c-Abl kinase, induces anchorage-independent growth in the context of p53 deficiency, and a recent study by our group showed that loss of c-Abl kinase also facilitates anchorage-independent growth. The cellular context, such as a deficiency in both p53 and RB, is critical to induce anchorage independence by loss of c-Abl kinase. In this review, we discuss the mechanisms of cellular transformation by oncogenic and normal Abl kinases.