Abstract
While chromatin remodeling mediated by post-translational modification of histone is extensively studied in carcinogenesis and cancer cell’s response to chemotherapy and radiotherapy, little is known about the role of histone expression in chemoresistance. Here we report a novel chemoresistance mechanism involving histone H4 expression. Extended from our previous studies showing that concurrent blockage of the NF-κB and Akt signaling pathways sensitizes lung cancer cells to cisplatin-induced apoptosis, we for the first time found that knockdown of Akt1 and the NF-κB-activating kinase IKKβ cooperatively downregulated histone H4 expression, which increased cisplatin-induced apoptosis in lung cancer cells. The enhanced cisplatin cytotoxicity in histone H4 knockdown cells was associated with proteasomal degradation of RIP1, accumulation of cellular ROS and degradation of IAPs (cIAP1 and XIAP). The cisplatin-induced DNA-PK activation was suppressed in histone H4 knockdown cells, and inhibiting DNA-PK reduced expression of RIP1 and IAPs in cisplatin-treated cells. These results establish a novel mechanism by which NF-κB and Akt contribute to chemoresistance involving a signaling pathway consisting of histone H4, DNA-PK, RIP1 and IAPs that attenuates ROS-mediated apoptosis, and targeting this pathway may improve the anticancer efficacy of platinum-based chemotherapy.
Highlights
DNA-damaging chemotherapy agents such as cisplatin are components of the first-line treatment regimes for many solid tumors
The results establish a novel mechanism by which NF-κB and Akt contribute to chemoresistance: to maintain histone H4 expression for activating the DNA-PK/RIP1/inhibitors of apoptosis family proteins (IAPs) signaling cascade that attenuates reactive oxygen species (ROS)-mediated apoptosis
We found that histone H4 expression plays an important role in cisplatin-induced apoptotic cytotoxicity in cancer cells
Summary
DNA-damaging chemotherapy agents such as cisplatin are components of the first-line treatment regimes for many solid tumors. We found in our recent studies that concurrent blockage of the NF-κB and Akt signaling pathways effectively sensitizes lung cancer cells to apoptosis induced by chemotherapeutics including cisplatin in both cell culture and mouse xenograft tumor models[8,9,10,11]. The results establish a novel mechanism by which NF-κB and Akt contribute to chemoresistance: to maintain histone H4 expression for activating the DNA-PK/RIP1/IAPs signaling cascade that attenuates ROS-mediated apoptosis. Targeting this signaling cascade may improve the anticancer efficacy of platinum-based chemotherapy
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