Topoisomerase I/II/III (TOP1/2/3) plays an important roles in solving topological problems during cellular DNA replication and transcription. There are three main reactions catalyzed by topoisomerase: binding to DNA, formation of reversible single strand DNA breakage (TOP1/3) or double strand DNA breakage (TOP2) and religation of the DNA breakage to complete the catalytic cycle. Topoisomerases help cells to operate their normal functions through changing the numbers of positive or negative supercoilings in DNA. Moreover, TOP1 and TOP2 are important targets for many anticancer drugs, these compounds are called “topoisomerase catalytic“ inhibitors. Some of these inhibitors can cause the formation of topoisomerase cleavable complex (TOPcc) and subsequently DNA damage, which are termed ”topoisomerase poisons”. Naphthoquinones (NQs) are chemical compounds that widely existed in plants, preservatives and air pollutant. Many researches indicated that NQs can affect cellular proteins and corresponding functions by two proposed mechanisms: by forming covalent linkage to proteins or by going through redox cycling to generate ROS then leading to protein damages. In my study, we found that 1,2-NQ and 1,4-NQ can cause DNA damage in cells, and the damage is possibly mediated through both ROS and the TOP2β isozyme. Importantly, we have also found that 1,2-NQ and 1,4-NQ inhibit the segregation process of chromosome DNA through inhibiting the decatenation activity of TOP2 both in vitro and in cells. The immuno blotting analyzes also showed that NQs can directly modify TOP2. Combining the above results, we suggested that 1,2-NQ and 1,4-NQ participate in the TOP2-mediated DNA damage and cause inhibition of TOP2 activity, thus contributing to the NQ-mediated cellular and biological responses.