1,721,000 research outputs found
Different effects of tert-butylhydroperoxide-induced peroxynitrite-dependent and -independent DNA single-strand breakage on PC12 cell poly(ADP-ribose) polymerase activity
No full textThe short-chain lipid hydroperoxide analogue tert-butyl-hydroperoxide induces peroxynitrite-dependent and -independent DNA single strand breakage in PC12 cells. U937 cells that do not express constitutive nitric oxide synthase respond to tert-butylhydroperoxide treatment with peroxynitrite-independent DNA cleavage. Under experimental conditions leading to equivalent strand break frequencies, the analysis of poly(ADP-ribose) polymerase activity showed an increase in PC12 cells but not in U937 cells. The enhanced poly(ADP-ribose) polymerase activity observed in PC12 cells was paralleled by a significant decline in NAD(+) content and both events were prevented by treatments suppressing formation of peroxynitrite. Although DNA breaks were rejoined at similar rates in the two cell lines, an inhibitor Of poly(ADP-ribose) polymerase delayed DNA repair in PC12 cells but had hardly any effect in U937 cells. The results obtained using the latter cell type were confirmed with an additional cell line (Chinese hamster ovary cells) that does not express nitric oxide synthase. Collectively, our data suggest that tert-butyl-hydroperoxide-induced peroxynitrite-independent DNA strand scission is far less effective than the DNA cleavage generated by endogenous peroxynitrite in stimulating the activity of poly(ADP-ribose) polymerase
Proliferating cell nuclear antigen bound to DNA synthesis sites: phosphorylation and association with cyclin D1 and cyclin A.
No full textEvidence is presented that association of proliferating cell nuclear antigen (PCNA) with nuclear chromatin in human fibroblasts is related to the phosphorylation status of the protein. Using a hypotonic lysis procedure to extract the soluble form of PCNA, it has been shown that the remaining nuclear-bound form, predominantly in S-phase cells, is highly phosphorylated. Cells in early G1, or in G2 + M phases, contain basal levels of the bound form of the protein that is only weakly phosphorylated. Using fractionated immunoprecipitation techniques, PCNA was found to be associated with cyclin A in both soluble and insoluble fractions. In contrast, association of PCNA with cyclin D1 was found in the soluble fraction, while no detectable levels were present in the insoluble fraction. Immunofluorescence labeling and flow cytometric analysis of the cell cycle distribution of cyclin D1 and cyclin A showed that, like PCNA, maximal levels of both proteins were bound to nuclear structures at the G1/S phase boundary. These results suggest that binding of PCNA to DNA synthesis sites occurs after phosphorylation. Association with cyclin D1 and cyclin A might occur in a macromolecular complex assembled at the G1/S phase boundary to drive activation of DNA replication factors
Nuclear binding of cell cycle-related proteins: Cyclin A versus proliferating cell nuclear antigen (PCNA).
Full text linkWe have investigated the cell cycle-dependent nuclear binding of cyclin A and of the proliferating cell nuclear antigen (PCNA) in asynchronously growing human fibroblasts. To this purpose, we have applied flow cytometry immunofluorescence, a powerful technique for elucidating the cell cycle phase during which the nuclear binding occurs. We have observed that, in striking contrast with the distribution of nuclear-bound PCNA which is restricted to S phase, the immunofluorescence signal of the nuclear-bound form of cyclin A is high in the G1 and G2 phases of the cell cycle. These results suggest the involvement of nuclear-bound cyclin A in the G1/S and G2/M phase transitions
Rearrangement of nuclear ribonucleoprotein (RNP)-containing structures during apoptosis and transcriptional arrest
No full text
Analysis of checkpoints/DNA repair protein interaction at the chromatin level: biochemical and immunofluorescence approaches.
No full textIn vitro induction of H1-H1 cross-linking by ADP-ribose polymers.
No full textIt is well-known that H1-H1 interactions are very important for the induction of 30 nm chromatin fiber and that, among all posttranslational modifications, poly(ADP-ribosyl)ation is one of those capable of modifying chromatin structure, mainly through H1 histone. As this protein can undergo both covalent and noncovalent modifications by poly(ADP-ribosyl)ation, our aim was to investigate whether and how ADP-ribose polymers, by themselves, are able to affect the formation of H1-H1 oligomers, which are normally present in a condensed chromatin structure. The results obtained in our in vitro experimental system indicate that ADP-ribose polymers are involved in chromatin decondensation. This conclusion was reached as the result of two different observations: (a) H1 histone molecules can be hosted in clusters on ADP-ribose polymers, as shown by their ability to be chemically cross-linked, and (b) H1 histone has a higher affinity for ADP-ribose polymers than for DNA; ADP-ribose polymers compete, in fact, with DNA for H1 histone binding
Induction of Apoptosis in Human Tumor Cells by a New Pyrazolcarboxamide
No full textComunicazione Poster P3
- …
