Duraj J

The Escherichia coli recA gene increases resistance of the yeast Saccharomyces cerevisiae to ionizing and ultraviolet radiation

SummaryThe Escherichia coli recA protein coding region was ligated into an extrachromosomally replicating yeast expression vector downstream of the yeast alcohol dehydrogenase promoter region to produce plasmid pADHrecA. Transformation of the wild-type yeast strains YNN-27 and 7799-4B, as well as the recombination-deficient rad52-t C5-6 mutant, with this shuttle plasmid resulted in the expression of the bacterial 38 kDa RecA protein in exponential phase cells. The wild-type YNN27 and 7799-4B transformants expressing the bacterial recA gene showed increased resistance to the toxic effects of both ionizing and ultraviolet radiation. RecA moderately stimulated the UV-induced mutagenic response of 7799-4B cells. Transformation of the rad52-t mutant with plasmid pADHrecA did not result in the complementation of sensitivity to ionizing radiation. Thus, the RecA protein endows the yeast cells with additional activities, which were shown to be error-prone and dependent on the RAD52 gene.

Realgar (As4S4) nanoparticles and arsenic trioxide (As2O3) induced autophagy and apoptosis in human melanoma cells in vitro.

The aim of the present study was to compare the effect of realgar nanoparticles and arsenic trioxide (ATO) on viability, DNA damage, proliferation, autophagy and apoptosis in the human melanoma cell lines BOWES and A375. The application of various flow cytometric methods for measurements cell viability, DNA cell cycle, mitochondrial potential, lysosomal activity, and intracellular content of glutathione was used. In addition, quantitative PCR, western blotting and multiplex bead array analyses were applied for evaluation of redox stress, autophagic flux, and cell signaling alterations.The results showed that realgar treatment of studied cells caused modulation of cell proliferation, induced a block in G2/M phase of the cell cycle and altered phosphorylation of IκB, Akt, ERK1/2, p38, and JNK kinases, as well as decreased mitochondrial membrane potential. Additionally, it appeared that induction of cell death by both realgar and ATO was dose-dependent, when lower (0.3 µM) dosage increased lysosomal activity and induced autophagy and higher (1.25 µM) concentration resulted in the appearance of apoptosis, while pan-caspase inhibitor attenuated more efficiently realgar- than ATO-induced cell death. Furthermore, low concentrations of ATO and realgar nanoparticles increased the content of intracellular glutathione and elevated γ-H2AX expression confirmed DNA damage preferentially at higher concentrations of both drugs used. Further analysis revealed slight differences in time-dependent phosphorylation pattern due to both realgar and ATO treatments, while significant differences were noticed between cell lines. In conclusion, realgar nanoparticles and ATO treatment induced dose-dependent activation of autophagy and apoptosis in both melanoma cell lines, when autophagy flux was determined at lower drug concentrations and the switch to apoptosis occurred at higher concentrations of both arsenic forms.

Effects of protein kinase C inhibitor, staurosporine derivative CGP 41 251, on cell cycle, DNA synthesis and drug uptake in neoplastic cell lines.

The protein kinase C inhibitor, staurosporine derivative CGP 41 251, was more efficient than staurosporine in the reversal of decreased anthracycline uptake in the anthracycline-resistant cell subline (A2780/ADR) of ovarian carcinoma. Staurosporine was more efficient than CGP 41 251 in the induction of cytometrically determined DNA fragmentation (cytofluorometric equivalent of apoptosis) in A2780 parental human ovarian carcino-ma cells compared with the drug-resistant A2780/ADR subline and in both human leukemia K-562 cells as well as mouse leukemia L1210 compared with the araC-resistant L1210 cells. Staurosporine was a more potent inhibitor than CGP 41 251 of DNA synthesis in both araC-sensitive and -resistant mouse leukemia L1210 cells. CGP 41 251 was a slightly more efficient inhibitor of thymidlne incorporation than staurosporine in human leukemia K-562 cells and its combination with araC had a higher inhibitory effect on the DNA synthesis in this cell line than staurosporine. CGP 41 251 exerted DNA synthesis inhibitory effects on both araC-sensitive and -resistant L1210 cells. Staurosporine-induced DNA synthesis inhibition in both araC-resistant and -sensitive L1210 mouse leukemia cells was decreased after combined administration with araC.

Tyrosine kinase inhibitor-induced differentiation of K-562 cells: alterations of cell cycle and cell surface phenotype

Protein tyrosine kinase (PTK) inhibitor herbimycin A inhibited proliferation, induced accumulation of cells in the G0/G1 phase of the cell cycle and a marked increae of hemoglobin-producing human leukemic K-562 cells in vitro. The isoflavonoid PTK- and topoisomerase II inhibitor genistein produced a similar effect with the accumulation of cells in the G2/M phase of cell cycle. Genistein potentiated the effect of herbimycin A on the cell cycle (i.e. decreased the proportion of S-phase cells) and induced an increased proportion of hemoglobin-producing cells. Genistein, but not herbimycin A induced a marked increase in cell surface expression of CD15 (LewisX) antigen. Both of these agents down-regulated CD45 (leukocyte common antigen) and monocyte-associated CD14 antigen on K-562 cells. Neither genistein nor herbimycin A induced increased cell surface expression of glycophorin.

Modulation of cisplatin sensitivity in human ovarian carcinoma A2780 and SKOV3 cell lines by sulforaphane

Cisplatin resistance is one of the major obstacles in the treatment of ovarian cancer. In an effort to look for new possibilities of how to overcome this difficulty, we studied the mechanisms of the interactions between sulforaphane (SFN) and cisplatin (cisPt) in combined treatment of human ovarian carcinoma A2780 and SKOV3 cell lines. Synergy (A2780) and antagonism (SKOV3) found in MTT assay was confirmed by apoptosis. While SFN significantly potentiated cisPt-induced DNA damage in A2780 cells, it protected SKOV3 cells against cisPt-crosslinking. We revealed a less efficient Nrf-2 pathway inducibility by SFN in A2780 compared to SKOV3 cells, when activation of the Nrf-2 pathway incites its protectivity against cisPt. Thus, different activation of the Nrf-2 pathway may explain the dual effects of SFN.

The protein kinase C inhibitor H7 blocks phosphorylation of stathmin during TPA-induced growth inhibition of human pre-B leukemia REH6 cells

The human pre-B acute lymphoblastic leukemia cell line REH6 was used to analyze the regulation of a ubiquitous intracellular phosphoprotein stathmin (Mr 19,000, pl = 5.6-6.2). We demonstrated by 32P-labeling that the short (1 h) treatment of the REH6 cells with the tumor promoting phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), resulted in a rapid phosphorylation of at least three (P1, P2 and P3) stathmin isoforms without an alteration of stathmin isoform expression. Furthermore, Western blot analysis with specific antiserum showed that the prolonged period (48 h) of TPA treatment partially reduced protein levels particularly of two (N2 and P2) stathmin isoforms. The potent and relatively specific protein kinase C (PKC) inhibitor, 1,(5-isoquinolinesulphonyl)2methylpiperasine dihydrochloride (H7), partially inhibited these TPA effects, whereas the specific calmodulin inhibitor R24571 (calmidazolium) had no effect upon these events. Our findings suggest that stathmin phosphorylation in REH6 cells could be in part mediated by PKC activation.

Isothiocyanate E-4IB induces MAPK activation, delayed cell cycle transition and apoptosis.

Abstract.  Introduction: Epidemiologic studies point towards a significant correlation between the dietary intake of isothiocyanate‐containing foods and the reduced risk for cancer. Methods and results: In the current investigation, we examined the consequence of activating of signalling pathways during the release the cells from the block at G1/S boundary by synthetic isothiocyanate E‐4IB. Using synchronized leukaemic HL60 cells, we show that activation of mitogen‐activated protein kinases ERK1/2, c‐Jun N‐terminal kinase and p38 signalling pathways by E‐4IB are coupled with delayed transition through the cell cycle and rapid cell cycle arrest resulted in diminished mitochondrial membrane potential culminating in apoptosis. These events were accompanied by histone deacetylase inhibition, increase of double strand DNA breaks detected by histone H2AX phosphorylation and up‐regulation of cell cycle regulatory protein p21 and phosphorylation of CDC25C phosphatase. Conclusion: These findings suggest that the activation of mitogen‐activated protein kinases signalling pathways, followed by the induction cell cycle arrest and apoptosis, might be responsible for anticancer activities of E‐4IB.

Proteasome inhibition leads to altered signaling in the proteome of cisplatin-resistant human ovarian carcinoma cell line.

To address a precise view into molecular mechanisms of apoptotic signaling pathways after single- or combinatory treatments with specific NF-κB- or proteasome inhibitors and/or cisplatin (CDDP), flow cytometry and western blotting of the cell proteome in human ovarian chemosensitive- and CDDP-resistant cell lines were used. We report here that proteasome inhibition (but not NF-κB inhibition) caused marked alterations in the cell proliferation and cell cycle, as well as in the levels of signaling anti- and pro-apoptotic proteins PARP, NF-κB, IκB-α, Bcl-2, Bax, and lysosome-associated LAMP-1 and ATP-7B molecules in particular proteome fractions. These findings refer to the possibility of regulation of CDDP resistance, inclusive the capacity of lysosomes to export CDDP in certain human ovarian cancer cells by proteasome inhibition.

Salidroside, a Chemopreventive Glycoside, Diminishes Cytotoxic Effect of Cisplatin in Vitro

Natural products represent the source or the inspiration for the majority of the active ingredients of medicines because of their structural diversity and a wide range of biological effects. Our aims in this study were (i) to synthesize enzymatically salidroside (SAL), the most effective phenylethanoid glycoside in Rhodiola species; (ii) to examine its antioxidant capacity using cell‐free assays (reducing power, DPPH radicals scavenging and Fe2+‐chelating assays); (iii) to assess its DNA‐protective potential on plasmid DNA (DNA topology assay) and in HepG2 cells (comet assay) damaged by Fe2+ ions and hydrogen peroxide, respectively; and (iv) to investigate the effects of SAL, cisplatin (CDDP) and combined treatments of SAL + CDDP on cell viability (MTT test), level of DNA damage (comet assay), proliferation, cell cycle (flow cytometry) and the expression of signalling molecules associated with cell growth and apoptotic pathways (Western immunoblotting). We found out that SAL manifested low antioxidant and DNA‐protective capacity in all assays used. In both parental A2780 and CDDP‐resistant A2780/CP human ovarian carcinoma cells, SAL itself exerted in fact no impact on the viability, while in combination with CDDP it showed antagonistic effect supporting the chemopreventive activity on the CDDP‐induced cell damage. These results were confirmed by the partial reversal of the cell cycle alterations and the DNA damage level, as well as with partial restoration of cell survival/signalling pathways, when the expression of these molecules partially returned to their proper levels.