The anticancer effects of 6-dehydrogingerdione (6-DG), a compound isolated from the rhizomes of Zingiber officinale , and its mechanisms of sensitization to TRAIL-induced apoptosis were studied using human hepatoblastoma Hep G2 cells. This study demonstrates for the first time that 6-DG-induced apoptosis might be executed via mitochondrial- and Fas receptor-mediated pathways. Further studies also demonstrated that 6-DG could sensitize Hep G2 cells to TRAIL-induced apoptosis. 6-DG also up-regulated Ser-15 phosphorylation and evoked p53 nuclear translocation. Abrogation of p53 expression by p53 small interfering RNA significantly attenuated 6-DG-induced DR5 expression, thus rendering these cells resistant to TRAIL-induced apoptosis. DR5 expression after 6-DG treatment was accompanied by provoking intracellular reactive oxygen species (ROS) generation. Pretreatment with N-acetyl-l-cysteine (NAC) attenuated 6-DG-induced DR5 expression and inhibited TRAIL-induced apoptosis. In contrast to Hep G2 cells, DR5 up-regulation and sensitization to TRAIL-induced apoptosis instigated by 6-DG were not observed in normal MDCK cells. Taken together, these data suggested that in addition to the mitochondrial- and Fas receptor-mediated apoptotic pathways involved, ROS-dependent and p53-regulated DR5 expression was also demonstrated to play a pivotal role in the synergistic enhancement of TRAIL-induced apoptosis instigated by 6-DG in Hep G2 cells.
Riemerella anatipestifer is the causative agent of duck septicaemia. Determination of R. anatipestifer virulence mechanisms will help us to effectively control this contagious agent. The differentially expressed gene profile of R. anatipestifer in infected duck livers was therefore identified and compared with in vitro cultures by selective capture of transcribed sequences analysis. A total of 48 genes were identified, of which 43 were genes that encode enzymes for amino acid biosynthesis and metabolism, intermediary metabolism, and energy metabolism, or proteins for regulatory adaptive responses, general microbial stress response, transport proteins and secreted proteinases. Five were unknown, novel genes. Eight genes representing the categories were randomly chosen and verified by real-time reverse transcriptase-polymerase chain reaction analysis. All were upregulated by R. anatipestifer in infected duck livers, with changes ranging from 1.44-fold to 4.62-fold compared with in vitro cultures. The results from the present study revealed a gene expression profile of R. anatipestifer in infected duck livers. The unknown but novel genes may be potential novel virulence factors for R. anatipestifer. In conclusion, the data from this study will provide a molecular basis for further study of R. anatipestifer pathogenesis.
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