Suppression of cell cycle progression by poly(ADP-ribose) polymerase inhibitor PJ34 in neural stem/progenitor cells.

Neural stem/progenitor cells (NSPCs) express higher levels of poly(ADP-ribose) polymerase 1 (PARP1) than mouse embryonic fibroblasts (MEFs). Inhibition of PARP induces the expression of several genes in the p53 signaling pathway, including p21, which is critical for cell cycle control at the G1/S phase, triggers apoptosis, and suppresses cell cycle progression in NSPCs. However, upon the up-regulation of p21, the cell cycle does not arrest at any specific phase. In the present study, the expression of genes specific to the G1/S and G2/M phases of the cell cycle were analyzed following treatment with PJ34 (N-[6-oxo-5,6-dihydro-phenanthridin-2-yl]-N,N-dimethylacetamide), an inhibitor of PARP. PJ34 treatment dramatically down-regulated cyclin B1 expression in NSPCs, but not in MEFs, which was confirmed by a promoter assay. Down-regulation of FoxM1 and B-MYB revealed that the down-regulation of cyclin B occurs at the transcriptional level. GADD45 was also specifically up-regulated in NSPCs. Taken together, the activation of p53 by PJ34 treatment in NSPCs induced changes in the expression of genes involved in the cell cycle. Fluorescence-activated cell sorting analysis revealed that PJ34 treatment suppressed G2/M to G1 progression in NSPCs, but not in MEFs. These data indicate that PJ34 treatment inhibits cyclin expression at the mRNA level and suppresses cell cycle progression in NSPCs.

Synthesis of the KLMN fragment of gymnocin-A using oxiranyl anion convergent methodology.

Synthesis of the KLMN fragment of gymnocin-A has been achieved by a [X + 2 + Y]-type convergent strategy involving the coupling of a K-ring triflate and an N-ring epoxy sulfone. Fusions of the L ring and the M ring were carried out by intramolecular SN2 substitution of a tertiary alcohol and reductive etherification to furnish the target molecule.

Alterations and diversity in the cytoplasmic tail of the fusion protein of subacute sclerosing panencephalitis virus strains isolated in Osaka, Japan.

We determined the nucleotide sequence of the fusion (F) gene of three strains (Osaka-1, -2, and -3) of nonproductive variants of measles virus (MV). These viral strains were isolated in Osaka, Japan, from brain tissues of patients with subacute sclerosing panencephalitis (SSPE). Phylogenetic analysis revealed a close relationship among the three strains of SSPE virus. The cytoplasmic tail of the F protein, predicted from sequence analysis of the gene, is altered in all three SSPE strains when compared to the MV field strains. However, the extent and mode of alteration are different in each strain. The F protein of the Osaka-1 strain has six nonconservative amino acid substitutions and a 29-residue elongation of its cytoplasmic tail. The F protein of the Osaka-3 strain has two nonconservative substitutions and a 5-residue truncation of its C-terminus. Although the termination codon is not altered in the F protein of the Osaka-2 strain, five or six amino acids are changed in the cytoplasmic tail of the F protein of the two sibling viruses of this strain. The significance of the altered cytoplasmic domain of the SSPE viruses in the SSPE pathogenesis is discussed.

Comparison of the neuropathogenicity of two SSPE sibling viruses of the Osaka-2 strain isolated with Vero and B95a cells.

Two sibling viruses, Fr/V and Fr/B, of the subacute sclerosing panencephalitis (SSPE) virus Osaka-2 strain were isolated from a small biopsy specimen of the brain of an SSPE patient by cocultivation with two different cell lines, Vero and B95a cells, respectively. These two sibling viruses differ from each other in their molecular mechanisms of defective M protein expression. In this study, we found that the Fr/B virus could scarcely form syncytium foci on Vero cells, although the Fr/V virus could do so on both Vero and B95a cells, showing a similar relation of cell tropism between recent field isolates and laboratory strains of the measles virus. Severe neurovirulence of both Fr/V and Fr/B viruses was observed in hamsters inoculated intracerebrally with less than 100 PFU, in contrast to the negative neurological and pathological findings in hamsters inoculated even with more than 10(5) PFU of their possible progenitor measles virus. Comparative sequence analysis of inoculated viruses and reisolated viruses from diseased hamster brains showed few variations at a region containing the P-M gene junction, indicating that the inoculated viruses propagated in the brains and induced neurovirulence. All these results suggest that SSPE virus isolated with a lymphoid cell line is similar in neuropathogenicity to that isolated with a nonlymphoid cell lines, irrespective of differences in the molecular mechanism of M protein defectiveness.