Genomic instability is an enabling characteristic that allows cancer cells to acquire additional hallmarks of cancer through the accumulation of alterations in driver genes. Furthermore, it creates opportunities to enhance the sensitivity of cancer cells to chemotherapeutic agents targeting DNA, owing to the presence of incomplete DNA damage repair pathways. This study identifies LIN28B as a crucial regulator of colon cancer cells' sensitivity to DNA damage- or repair-related compounds by promoting genomic instability. LIN28B mechanistically reduces glutathione (GSH) synthesis and activity by inhibiting the expression of four GSH metabolic enzymes (GCLC, G6PD, GSTM4, and GSTT2B), thereby reducing the capacity of cells to eliminate reactive oxygen species (ROS). LIN28B enhances the proinflammatory signaling pathway in cancer cells through the upregulation of ARID3A, a transcription factor that transactivates PTGES and PTGES2, resulting in increased production of PGE2, a key inflammatory mediator that can elevate ROS generation. In conclusion, LIN28B altered the equilibrium of ROS production and elimination in colon cancer, resulting in elevated ROS levels and subsequent genomic instability.