Cell adhesion and migration are essential for embryonic development, tissue regeneration, but also for tumor development. The physical link between the extracellular matrix (ECM) and the actin cytoskeleton is mainly mediated by receptors of the integrin family. Through signals transduced upon integrin ligation to ECM proteins, this family of proteins plays key roles in regulating tumor growth and metastasis as well as tumor angiogenesis. During melanoma development, changes in integrin expression, intracellular control of integrin functions and signals perceived from integrin ligand binding impact upon the ability of tumor cells to interact with their environment and enable melanoma cells to convert from a sessile, stationary to a migratory and invasive phenotype. Antagonists of several integrins are now under evaluation in clinical trials to determine their potential as therapeutics for malignant melanoma and other kinds of cancer.
SummaryAnoxygenic photosynthetic proteobacteria exhibit various light responses, including changing levels of expression of photosynthesis genes. However, the underlying mechanisms are largely unknown. We show that expression of the puf and puc operons encoding structural proteins of the photosynthetic complexes is strongly repressed by blue light under semi-aerobic growth in Rhodobacter sphaeroides but not in the related species Rhodobacter capsulatus. At very low oxygen tension, puf and puc expression is independent of blue light in both species. Photosynthetic electron transport does not mediate the blue light repression, implying the existence of specific photoreceptors. Here, we show that the flavoprotein AppA is likely to act as the photoreceptor for blue light-dependent repression during continuous illumination. The FAD cofactor of AppA is essential for the blue light-dependent sensory transduction of this response. AppA, which is present in R. sphaeroides but not in R. capsulatus, is known to participate in the redox-dependent control of photosynthesis gene expression. Thus, AppA is the first example of a protein with dual sensing capabilities that integrates both redox and light signals.
High malignancy and early metastasis are hallmarks of melanoma. Here, we report that the transcription factor Snail1 inhibits expression of the tumor suppressor CYLD in melanoma. As a direct consequence of CYLD repression, the protooncogene BCL-3 translocates into the nucleus and activates Cyclin D1 and N-cadherin promoters, resulting in proliferation and invasion of melanoma cells. Rescue of CYLD expression in melanoma cells reduced proliferation and invasion in vitro and tumor growth and metastasis in vivo. Analysis of a tissue microarray with primary melanomas from patients revealed an inverse correlation of Snail1 induction and loss of CYLD expression. Importantly, tumor thickness and progression-free and overall survival inversely correlated with CYLD expression. Our data suggest that Snail1-mediated suppression of CYLD plays a key role in melanoma malignancy.
The Dickkopf (DKK) genes were originally identified as factors inducing head formation in Xenopus. The genes code for inhibitors that are involved in Wnt signaling. We speculate that loss of DKK expression plays a role in development or progression of malignant melanoma. Thus, we evaluated melanoma cell lines and tissue samples of malignant melanoma for loss of DKK, especially DKK-3 transcription. We found that DKK-1, -2 and -3 were downregulated or lost in all cell lines and in most of the tumor samples analysed. Reduced DKK-3 expression occurred as early as in primary tumors detected by both immunohistochemical and reverse transcription-polymerase chain reaction RT-PCR analysis. Functional assays with stable DKK-3 transfected cell lines revealed that DKK-3 expression increased cell-cell adhesion and decreased cell migration. Further, downregulation of fibronectin, snail-1 and re-expression of E-cadherin was found in the DKK-3 expressing cell clones supporting a role of DKK-3 in tumor progression. Our studies thus indicate that loss of DKK-3 expression may contribute to melanoma progression.
Malignant transformation of melanocytes frequently coincides with loss of E-cadherin expression. Here, we show that loss of E-cadherin leads to induction of nuclear factor kappa B (NFjB) activity in melanoma cell lines. Melanoma cells show constitutively active NFjB, whereas no activity is found in primary melanocytes. After reexpression of E-cadherin in melanoma cells, strong downregulation of NFjB activity was found. Consistently, NFjB activity was induced in primary human melanocytes after inhibition of E-cadherin activity by functionally blocking anti-E-cadherin antibodies. Interestingly, reexpression of E-cadherin-blocked p38 MAPK activity and the p38 MAPK inhibitors SB203580 and SB202190 almost completely prevented NFjB activation in melanoma cells. Furthermore, cytoplasmatic b-catenin induced p38 and NFjB activation in malignant melanoma. To our knowledge, this is the first report suggesting a correlation between E-cadherin and NFjB activity in melanocytes and melanoma cells. In summary, we conclude that loss of E-cadherin and cytoplasmatic b-catenin induces p38-mediated NFjB activation, potentially revealing an important mechanism of tumorigenesis in malignant melanomas.
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