lation. Immunoblot analysis of phosphorylated p65 in serine-536 showed that AAP not only induced p65 translocation from the cytosol to the nucleus, but also induced p65 activation. Our 1702259-66-2 results showed that p65 phosphorylation at Ser-536 began in the cytosol 3 hours after treatment, and that p-p65-Ser-536 was identified in the nucleus 18 h after. To determine whether AAP-induced ROS production was involved in p65 translocation to the nucleus, the neuroblastoma cells were treated with AAP in the presence of MnTBAP, a cellular-permeable superoxide dismutase mimetic compound that prevents intracellular ROS generation. Various MnTBAP concentrations were tested to inhibit AAP-induced ROS production and the concentration of 10 mM, which blocked 100% of ROS production, was selected. In addition, the neuroblastoma cells were also treated with AAP in the presence of SN-50. SN-50 is a cell permeable inhibitor peptide that blocks translocation of the NFkB active complex into the nucleus, as a control to inhibit the NFkB activation pathway. The results demonstrated that SN-50, as expected, completely prevented p65 translocation to the nucleus. Even more interestingly, MnTBAP also blocked p65 translocation to the nucleus to the same extent as SN-50, suggesting the involvement of AAP-induced ROS production in p65 activation. To a similar extent, co-treatment of neuroblastoma cells with AAP and SN-50 or MnTBAP significantly reduced AAP-induced neuroblastoma cell death supporting the hypothesis of the involvement of the NFkB pathway in AAP-induced cytotoxicity. Moreover, this decrease in cell death was accompanied by an inhibition of Bax accumulation into the mitochondria,. Both treatments decreased, to a similar extent, AAP-mediated cytochrome c release from the mitochondria to the cytosol. after AAP treatment, preceding caspase3 activation, which reached a plateau from 24 h to 48 h. Moreover, cells treated with AAP or staurosporine as a positive control for 48 h showed the classical laddering pattern induced by both AAP and staurosporine, while no DNA laddering was visualized in vehicle-treated cells. Taken together these data suggest that AAP, perhaps by promoting the translocation of the proapoptotic protein Bax to the mitochondria, induces apoptotic death in SH-SY5Y cells through activation of a caspase-dependent apoptotic pathway. AAP metabolism contributes to its cytotoxicity We have previously shown that AAP potentiates staurosporineinduced neuroblastoma death. The mechanism is related to the production of the highly reactive metabolite NAPQI produced by P450 2E1 isoform -mediated AAP metabolism. To confirm whether this was the case here, the neuroblastoma cells were treated with AAP in the presence of the CYP2E1 inhibitor tetraethylthiuram. TTD inhibits CYP activity in total lysates of neuroblastoma cells, as has been previously Acetaminophen Activates NFKB in Neuroblastoma 5 Acetaminophen Activates NFKB in Neuroblastoma AAP-mediated NFkB activation increases IL-1b production Since we previously detected that AAP induced an increase in caspase 1 activity in neuroblastoma cells and that the IL-1b gene contains the NFkB response element in its promoter region, we decided to analyze IL-1b levels in AAP-treated SHSY5Y cells. IL-1b quantification showed that AAP significantly increased IL-1b production after 18 h of treatment and this production was raised and maintained from 24 h until 48 h. To study whether IL-1b production was related to AAPmediat
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