CD13/Aminopeptidase N overexpression by basic fibroblast growth factor mediates enhanced invasiveness of 1F6 human melanoma cells.

CD13/Aminopeptidase N (CD13) is known to play an important role in tumour cell invasion. We examined whether basic fibroblast growth factor (bFGF) is involved in the regulation of CD13 expression in human melanoma cells. 1F6 human melanoma cells were stably transfected with constructs encoding either the 18 kDa (18 kD) or all (ALL) bFGF isoform proteins. We observed highly increased CD13 mRNA and protein expression in the 1F6 clones regardless of the overexpression of either the 18 kD or all isoform proteins. Neutral aminopeptidase activity was increased five-fold and could be inhibited by bestatin and the CD13-neutralising antibody WM15. The enhanced invasion through Matrigel, but not migration in a wound assay, was efficiently abrogated by both bestatin and WM15. Upregulation of CD13 expression was the result of increased epithelial and myeloid promoter activity up to 4.5-fold in 1F6-18 kD and 1F6-ALL clones. Interestingly, in a panel of human melanoma cell lines, a significant correlation (r(2)=0.883, P<0.05) between bFGF and CD13 mRNA and protein expression was detected. High bFGF and CD13 expression were clearly related with an aggressive phenotype. Taken together, our data indicate that high bFGF expression upregulates CD13 expression in human melanoma cells by activating both the myeloid and the epithelial CD13 promoter. In addition, we show that high bFGF and CD13 expression results in enhanced invasive capacity and metastatic behaviour of human melanoma cells.

Induction of vascular endothelial growth factor expression and hypoxia-inducible factor 1alpha protein by the oxidative stressor arsenite.

Recent evidence suggests that vascular endothelial growth factor (VEGF) expression is up-regulated by oxidative stressors through activation of hypoxia-inducible Factor 1 (HIF-1). To investigate whether this is a general phenomenon, we studied the effects of the sulfhydryl reagent arsenite on VEGF expression in human ovarian cancer cells. Arsenite potently induces the production of reactive oxygen species (ROS) in several cell systems and directly interacts with sulfhydryl groups of cellular thiols. We report that arsenite induces VEGF mRNA and protein levels in normoxic H134 and OVCAR-3 cells. Arsenite also increases HIF-1alpha protein levels, suggesting a role for HIF-1 in the induction of VEGF expression. Pretreatment with the ROS inhibitors catalase and mannitol attenuated arsenite-induced ROS production, but did not affect induction of VEGF mRNA and HIF-1alpha protein. In contrast, pretreatment with the thiol antioxidants glutathione or N-acetylcysteine completely abrogated both effects, whereas a potentiation was observed by depletion of intracellular glutathione. These results demonstrate that arsenite-induced VEGF mRNA and HIF-1alpha protein expression is independent of increased ROS production but critically regulated by the cellular reduced glutathione content. In addition, these data suggest the involvement of a thiol-sensitive mechanism in the regulation of VEGF mRNA expression and HIF-1alpha protein in human ovarian cancer cells.

The N-terminal transactivation domain of ATF2 is a target for the co-operative activation of the c-jun promoter by p300 and 12S E1A.

The adenovirus E1A proteins activate the c-jun promoter through two Jun/ATF-binding sites, jun1 and jun2. P300, a transcriptional coactivator of several AP1 and ATF transcription factors has been postulated to play a role in this activation. Here, we present evidence that p300 can control c-jun transcription by acting as a cofactor for ATF2: (1) Over-expression of p300 was found to stimulate c-jun transcription both in the presence and absence of E1A. (2) Like E1A, p300 activates the c-jun promoter through the junl and jun2 elements and preferentially activates the N-terminal domain of ATF2. (3) Co-immunoprecipitation assays of crude cell extracts indicate that endogenous p300/CBP(-like) proteins and ATF2 proteins are present in a multiprotein complex that can bind specifically to the jun2 element. We further demonstrate that the Stress-Activated-Protein-Kinase (SAPK) target sites of ATF2, Thr69 and Thr71 are not required for the formation of the p300/CBP-ATF2 multiprotein complex. These data indicate that E1A does not inhibit all transcription activation functions of p300, and, in fact, cooperates with p300 in the activation of the ATF2 N-terminus.

The CR1 and CR3 domains of the adenovirus type 5 E1A proteins can independently mediate activation of ATF-2.

The adenovirus 12S E1A protein can stimulate the activity of the c-jun promoter through a conserved region 1 (CR1)-dependent mechanism. The effect is mediated by two AP-1/ATF-like elements, jun1 and jun2, that preferentially bind c-Jun-ATF-2 heterodimers. In this study, we show that the ATF-2 component of the c-Jun-ATF-2 heterodimer is the primary target for 12S E1A: 12S E1A can enhance the transactivating activity of the N terminus of ATF-2 when fused to a heterologous DNA-binding domain, whereas the transactivating activity of the c-Jun N terminus is not significantly affected. Activation of the ATF-2 N terminus by 12S E1A is dependent on CR1. In the context of the 13S E1A protein, CR1 and CR3 can both contribute to activation of ATF-2, and their relative contributions are dependent on the cell type. In contrast to activation of ATF-2 by stress-inducing agents, CR1-dependent activation of ATF-2 was found not to depend strictly on the presence of threonines 69 and 71 in the N terminus of ATF-2, which are targets for phosphorylation by stress-activated protein kinases (SAPKs). In agreement with this observation, we did not observe phosphorylation of threonines 69 and 71 or constitutively enhanced SAPK activity in E1A- plus E1B-transformed cell lines. These data suggest that CR1-dependent activation of ATF-2 by 12S E1A does not require phosphorylation of threonines 69 and 71 by SAPK.

Altered AP-1/ATF complexes in adenovirus-E1-transformed cells due to EIA-dependent induction of ATF3.

The adenovirus (Ad) E1A proteins alter the expression level and activity of AP-1/ATF transcription factors. Previously we have shown that in AdE1-transformed cells cJun is hyperphosphorylated in its N-terminal transactivation domain, which parallels enhanced transactivation function. To find out whether the interaction between cJun and other cellular proteins is altered, we have searched for proteins which would physically associate with cJun. In this report we show that in AdE1-transformed cells cJun specifically associates with two proteins of 21 and 23 kD. These proteins are not expressed at detectable levels in the parental cells or in cells transformed by oncogenes other than AdE1. The cJun-associated proteins represent different forms of the bZIP transcription factor ATF3, the human homolog of rat LRF1. The expression of ATF3 is induced in AdE1-transformed cells and is a direct effect of the expression of E1A. Through induction of ATF3 expression and the subsequent formation of cJun/ATF3 heterodimers, E1A alters the repertoire of AP-1/ATF factors and may thereby redirect the corresponding gene-expression program. Since the induction of ATF3 is a function of sequences within the transforming 12S-ElA protein, cJun/ATF3 complexes might be involved in establishing cellular transformation by AdE1A.