Acute lymphoblastic leukemia (ALL), a haematopoietic malignant disorder of lymphoid cells, is the most prevalent childhood cancer. Although the rate of success in the treatment of childhood ALL has been improved with a 5-year event-free survival of 76-88%, patients succumbing very-high- risk (VHR) ALLs (those harboring t(9;22) or MLL rearrangements chromosomal abnormalities) display poor clinical outcomes even with intensive chemotherapies. Thus, more effective treatment protocols or new drugs are beneficial for these patients. HQ17(3)(10’(Z),13’(E),15’(E)-heptadecatrienyl- hydroquinone), isolated from the sap of Rhus succedanea, had been reported to have anti-cancer activity, and low concentration of HQ17(3) showed cytotoxicity to the HL-60 myeloid leukemia cells. Our pilot screening confirmed HQ17(3) exhibited effective cytotoxic effect on four tested ALL cell lines. Thus, the RS4;11 cell line harboring MLL-AF4 gene translocation was chosen for the detailed investigation of the effects of HQ17(3) on VHR ALL cells. HQ17(3) induced reactive oxygen species (ROS) production in RS4;11 cells, and disrupted the mitochondrial membrane potential, activated caspase-3, and cleaved poly (ADP-ribose) polymerase (PARP). RS4;11 cells treated with HQ17(3) showed features of apoptotic cell death. Pan-caspase inhibitor could effectively inhibit HQ17(3)-induced caspase-3 activation, but could neither reduce HQ17(3)-induced PARP cleavage nor rescue cells from death. Antioxidants or ROS scavengers (GSH, vitamin C) attenuated HQ17(3)-induced ROS production, mitochondrial membrane potential lost, and cell death. These results indicated that oxidative stress associated with ROS production is one of the major mechanisms to cause HQ17(3)-induced RS4;11 cell death. In conclusion, HQ17(3) displayed significant anti-leukemic activity by inducing ROS and cell apoptotic death. These results further indicated that ROS-inducing agents might potentially augment the treatment for VHR ALL with t(4;11) translocation.