Specific regulated endonuclease activity of small RNP, containing prosomes from the A431 cell line: possible mechanisms of regulating the stability of RNA by epidermal growth factor

A comparative study was made of reactive oxygen species (ROS) in rat embryo fibroblasts and their transformants. Primary rat embryo fibroblasts (REF), REF transformed by the complementing oncogenes E1A plus cHa-ras (cell line E1A + Ras), and REF transformed by E1A plus E1B-19 kDa (cell line E1A + E1B) were studied. ROS generation was measured with microfluorometric assay using fluorescent probe 2',7'-dichlorofluorescin diacetate. It has been shown that the block of REF and E1A + 1B cells in the G1/S under serum-starved conditions (0.5% serum) for 24-48 h was paralleled by a decrease in ROS generation. Activation of serum-starved REF and E1A + 1B cells with 10% serum resulted in reactivation of cell cycle and gradual increase in ROS generation. The maximum intracellular level of ROS correlated in time with the phase of DNA synthesis. Serum-starved E1A + Ras cells were not stopped in the G1/S and ROS production of these cells was not dependent on serum growth factors. The prolonged cultivation of E1A + Ras cells in the medium with low serum content (0.5%) caused a sharp increase in ROS generation, which was accompanied by apoptotic death.     

Analysis of transient G1/S arrest in E1A+E1B-19kDa transformed cells after ionizing radiation

Expression of human adenovirus type 5 E1A oncogene in normal rodent cells leads to disruption of the G1/S cell cycle arrest realization in response to DNA damage. It has been shown here that rat embryo fibroblasts transformed by E1Aad5 oncogene in complementation with E1B-19 kDa gene realize the irradiation-induced transient G1/S arrest, which depends on selective suppression of CyclinE-Cdk2 activity despite functional inactivation of p21Waf1 inhibitor. Inhibitor p21Waf1 is not revealed in complexes with cyclins E and A in E1A + E1B-19 kDa transformants, however, it is not due to p21Waf1 interaction with E1A oncoproteins, because the E1A-p21Waf1 complex formation in E1A + cHa-ras transformants does not prevent the high level of CycIE, A-p21Waf1 association. In the case of p21Waf1 inactivation, the main way of cyclin-kinase activity regulation in E1A + E1B-19 kDa cells may be Cdk2 phosphorylation. However, irradiation of E1A + E1B-19 kDa transformed cells induces no changes in CAK (Cdk7-associated) kinase activity and in the protein level of Cdc25A phosphatase, which are responsible for activating Thr160 phosphoralation and Tyr15 dephosphorylation on Cdk2. Using phospho-Tyr15-Cdk2 specific antibodies, no increase of phosphorylation at Tyr15 position on immunoprecipitated Cdk2 was detected after irradiation. It seems likely that in the case of inactivated inhibitor p21Waf1 the transient G1/S block after irradiation in E1A + E1B-19 kDa transformants depends on suppression of Cycl-E-Cdk2 activity caused by inhibition of Thr160 Cdk2 phosphorylation, but his occurs with the involvement of other kinases rather than CAK.     

Function of an inhibitor of cyclin-dependent kinase p27/Kip in cells transformed by E1A + E1B19 kDa + E1A + cHa-Ras, differing in their ability to realize a G1-block during serum starvation

We studied the capability of E1A + cHa-ras and E1A + E1B19kDa transformants to undergo the G1/S arrest of the cell cycle following depletion of serum growth factors. It has been shown that serum starvation induced the G1/S arrest both in normal rat embryo fibroblasts (REF) and in E1A + E1B19kDa transformants, whereas E1A + cHa-ras transformed cells lost this feature. To analyse the mechanisms underlying these differences, we studied the expression of p27/KIP, its intracellular distribution and association with E1A oncoproducts. The content of the p27/KIP inhibitor of cyclin-dependent kinases was found to change a little upon transformation by two complementary oncogene pairs. However, serum starvation for 24 h led to a significant increase in the content of p27/KIP in E1A + E1B19kDa transformants, while E1A + cHa-ras cells accumulated p27/KIP less markedly. According to the immunofluorescence study, the p27/KIP inhibitor is located in the nucleus of both normal and transformed cells. Moreover, serum starvation did not lead to its inhibition due to redistribution to the cytoplasm in both cell lines. Also, we were unable to detect association of p27/KIP with E1A oncoproducts in immunoprecipitated complexes. The obtained data indicate that, in contrast to E1A + cHa-ras transformants, in E1A + E1B19kDa cells the p27/KIP inhibitor is functional and it is capable of inducing the G1/S block after serum starvation.     

Rat embryo fibroblasts transformed by complementation with oncogenes E1A+E1B-19 and E1A+cHa-ras differ in the ability to realize the G1/S block in serum free media

The capability of REF cells transformed by EA + E1B-19 kDa and EA + cHa-ras oncogenes to realize the G1/S cell cycle arrest upon serum starvation was studied. The amount of cyclin-kinase inhibitor protein p27/Kip was shown to increase in both normal and transformed cells. However, the p27/Kip-bound cyclin-kinase complexes of transformed cells were found to be active, implying the functional inactivation of p27/Kip inhibitor. Nevertheless, in contrast to E1A + cHa-ras transformants, E1A + E1B-19 kDa transformants undergo the G1 cell cycle arrest. The G1 cell cycle block correlates with the decrease in cyclinE-Cdk2 activity. Since cyclinE-Cdk2 complexes need Thr-160 phosphorylation of Cdk2 by CAK-kinase for full activity, we have analysed the Cdk-7 associated activity upon serum starvation using gst-Cdk2 as a substrate. Serum starvation did not affect CAK activity either in E1A + cHa-ras or in E1A + E1B-19 kDa transformants. Thus, selective suppression of cyclineE-Cdk2 activity in E1A + E1B-19 kDa transformants upon serum starvation does not arise from the action of cyclin-kinase inhibitors, or from change in CAK activity.     

Transfection with the E1A and E1B-19kDa oncogenes does not prevent rat embryo fibroblasts from cell cycle arrest after gamma-radiation

Introduction of the E1A early region of the human adenovirus type 5 impairs the ability of mammalian cells to arrest the cell cycle at G1/S after damage. Two-parameter fluorescent-activated cell sorting (FACS) with iododeoxyuridine revealed the radiation-induced G1/S arrest in rat embryo fibroblasts transformed with the complementing E1A + E1B-19 kDa oncogenes. This was due to selective inhibition of CycIE/Cdk2-associated kinase activity, while activities of type 2 kinase and of CyclA/Cdk2 complexes remained unchanged. The inhibitor of G1-phase cyclin kinases, p21/Waf1, was accumulated and interacted with target kinases both in normal and in transformed cells after irradiation. As shown by immunoprecipitation, p21/Waf1 formed complexes with the E1A on coproducts in the transformants, which possibly accounted for its functional inactivation. Kinase modification in cyclin-kinase complexes was assumed to play a key role in regulation of cyclin-dependent kinases in the transformants with inactivated p21/Waf1.     

Restoration of G1/S Arrest in E1A+c-Ha-ras-Transformed Cells by Bcl-2 Overexpression

Here we show that introduction of human bcl-2 gene into E1A+c-Ha-ras-transformed rat embryo fibroblasts, which are highly susceptible to proapoptotic stimuli and fail to be arrested at the G1/S boundary following genotoxic stresses, results not only in inhibition of apoptosis, but also in restoration of the G1/S arrest. Overexpression of Bcl-2 did not affect proliferation rate and saturation density of E1A+c-Ha-ras transformants. Genotoxic stresses caused prolong G1/S arrest in Bcl-2-overexpressing transformants. Remarkably, levels and activities of Cdk2, cyclins E/A, cyclin E-Cdk2 and cyclin A-Cdk2 were unchanged during G1/S arrest. Introduction of Bcl-2 into E1A+c-Ha-ras-transformants resulted in accumulation of p21/Waf-1 without inhibiting cyclin-Cdk complexes. In both parental and Bcl-2-overexpressing cells, p21/Waf-1 was co-immunoprecipitated with ERK 1,2 and JNK 1,2, whereas p38 was found in complexes with p21/Waf-1 only in Bcl-2-overexpressing transformants. JNK 1,2 and p38 but not ERK 1,2 were detected in complexes with the exogenous Bcl-2. However, Bcl-2 did not affect phosphorylation of ERK 1,2, JNK 1,2 and p38. G1/S arrest induced by adriamycin and serum withdrawal (but not by IR) was accompanied by release of active forms of p38 from complexes with Bcl-2. We suggest that Bcl-2 restores stress-induced G1/S arrest without inhibiting cyclin-Cdk2 complexes and MAPK pathways.     

Transfection with the E1A and E1B-19kDa Oncogenes Does Not Prevent Rat Embryo Fibroblasts from Cell-Cycle Arrest after γ-Irradiation

Introduction of the E1A early region of the human adenovirus type 5 impairs the ability of mammalian cells to stop in the cell cycle at G1/S after damage. Two-parameter fluorescence cell sorting with iododeoxyuridine revealed the radiation-induced G1/S arrest in rat embryo fibroblasts transformed with the complementing E1A and E1B-19kDa oncogenes. This was due to selective inhibition of CyclE/Cdk2-associated kinase activity, while activities of type 2 kinase and of CyclA/Cdk2 complexes remained unchanged. The inhibitor of G1-phase cyclin kinases, p21/Waf1, was accumulated and interacted with target kinases both in normal and in transformed cells after irradiation. As shown by immunoprecipitation, p21/Waf1 formed complexes with the E1A oncoproducts in the transformants, which possibly accounted for its functional inactivation. Kinase modification in cyclin–kinase complexes was assumed to play a key role in regulation of cyclin-dependent kinases in the transformants with inactivated p21/Waf1.     

Simian virus 40 small t antigen cooperates with mitogen-activated kinases to stimulate AP-1 activity.

The simian virus 40 small tumor antigen (small t) specifically interacts with protein phosphatase type 2A (PP2A) in vivo and alters its catalytic activity in vitro. Among the substrates for PP2A in vitro are the activated forms of MEK and ERK kinases. Dephosphorylation of the activating phosphorylation sites on MEK and ERKs by PP2A in vitro results in a decrease in their respective kinase activities. Recently, it has been shown that overexpression of small t in CV-1 cells results in an inhibition of PP2A activity toward MEK and ERK2 and a constitutive upregulation of MEK and ERK2 activity. Previously, we have observed that overexpression of either ERK1, MEK1, or a constitutively active truncated form of c-Raf-1 (BXB) is insufficient to activate AP-1 in REF52 fibroblasts. We therefore examined whether overexpression of small t either alone or in conjunction with ERK1, MEK1, or BXB could activate AP-1. We found that coexpression of small t and either ERK1, MEK1, or BXB resulted in an increase in AP-1 activity, whereas expression of either small t or any of the kinases alone did not have any effect. Similarly, coexpression of small t and ERK1 activated serum response element-regulated promoters. Coexpression of kinase-deficient mutants of ERK1 and ERK2 inhibited the activation of AP-1 caused by expression of small t and either MEK1 or BXB. Coexpression of an interfering MEK, which inhibited AP-1 activation by small t and BXB, did not inhibit the activation of AP-1 caused by small t and ERK1. In contrast to REF52 cells, we observed that overexpression of either small or ERK1 alone in CV-1 cells was sufficient to stimulate AP-1 activity and that this stimulation was not enhanced by expression of small t and ERK1 together. These results show that the effects of small t on immediate-early gene expression depend on the cell type examined and suggest that the mitogen-activated protein kinase activation pathway is distinctly regulated in different cell types.     

The c-fos proto-oncogene promotor is not regulated by serum, epidermal growth factor, and phorbol ester in embryonal fibroblasts transformed by E1Aad5+cHa-ras-oncogenes]

Regulation of c-fos protooncogene activity in rat embryonal fibroblasts (REF), E1Aad5-immortalized REF cells, and E1Aad5 + cHa-ras transformed REF cells has been investigated. The analysis of regulation of fos-promoter activity was done by means of transient and stable transfection of fos-CAT plasmid into immortalized and transformed cells. In parallel, the regulation of cellular c-fos as well as c-jun and c-myc genes expression has been studied. It has been found that in E1Aad5 + cHa-ras-transformed cells the expression of c-fos promoter has a constitutive, non-inducible character while in REF cells and cells immortalized by E1Aad5 the fos-promoter can be regulated by serum growth factors, EGF, and TPA.     

Sodium butyrate induces cell senescence in transformed rodent cells resistant to apoptosis

The capacity of HDAC inhibitor sodium butyrate to induce senescence in cells derived from rat embryonic fibroblasts and transformed by E1A + E1B19 kDa oncogene has been studied. These transformants are resistant to apoptosis in response to γ-irradiation and the deprivation of growth factors. The process of cell senescence was investigated by analyzing cell growth curves, G1/S and G2/M cell cycle arrest and senescent associated β-galactosidase expression. The irreversibility of the antiproliferative activity of sodium butyrate was analyzed by clonogenic assay.     

Mnk2 and Mnk1 are essential for constitutive and inducible phosphorylation of eukaryotic initiation factor 4E but not for cell growth or development

Mnk1 and Mnk2 are protein kinases that are directly phosphorylated and activated by extracellular signal-regulated kinase (ERK) or p38 mitogen-activated protein (MAP) kinases and implicated in the regulation of protein synthesis through their phosphorylation of eukaryotic translation initiation factor 4E (eIF4E) at Ser209. To investigate their physiological functions, we generated mice lacking the Mnk1 or Mnk2 gene or both; the resulting KO mice were viable, fertile, and developed normally. In embryonic fibroblasts prepared from Mnk1-Mnk2 DKO mice, eIF4E was not detectably phosphorylated at Ser209, even when the ERK and/or p38 MAP kinases were activated. Analysis of embryonic fibroblasts from single KO mice revealed that Mnk1 is responsible for the inducible phosphorylation of eIF4E in response to MAP kinase activation, whereas Mnk2 mainly contributes to eIF4E's basal, constitutive phosphorylation. Lipopolysaccharide (LPS)- or insulin-induced upregulation of eIF4E phosphorylation in the spleen, liver, or skeletal muscle was abolished in Mnk1(-/-) mice, whereas the basal eIF4E phosphorylation levels were decreased in Mnk2(-/-) mice. In Mnk1-Mnk2 DKO mice, no phosphorylated eIF4E was detected in any tissue studied, even after LPS or insulin injection. However, neither general protein synthesis nor cap-dependent translation, as assayed by a bicistronic reporter assay system, was affected in Mnk-deficient embryonic fibroblasts, despite the absence of phosphorylated eIF4E. Thus, Mnk1 and Mnk2 are exclusive eIF4E kinases both in cultured fibroblasts and adult tissues, and they regulate inducible and constitutive eIF4E phosphorylation, respectively. These results strongly suggest that eIF4E phosphorylation at Ser209 is not essential for cell growth during development.