CISD2 downregulation participates in the ferroptosis process of human ovarian SKOV-3 cells through modulating the wild type p53-mediated GLS2/SAT1/SLC7A11 and Gpx4/TRF signaling pathway.

CISD2 and ferroptosis participate in cancer development, but are rarely reported in ovarian cancer. This study aimed to clarify interaction between CISD2 and ferroptosis and evaluate related mechanisms. si-CISD2, wt-p53 and mut-p53 lentiviruses were transfected into SKOV-3 cells. CISD2 and p53 (wild/mutant p53) gene transcriptions were evaluated by RT-PCR. Cell viability, invasion ability, and migration capacity were determined. Expressions of ferroptosis-associated CISD2, p53, elastin, β-catenin and levels of Gpx4 and TRF were examined. CISD2 downregulation (si-CISD2) has a significant inhibitory effect on cell activity and exerts a synergistic effect with p53. si-CISD2 and Wt-p53 markedly inhibited SKOV-3 invasion and migration capacity, compared to the downregulation control (si-NC) and overexpression control (ov-NC) group (p < 0.001). p53 expression was increased significantly in si-CISD2 treated SKOV-3, compared to si-NC treated cells (p < 0.05). si-CISD2 markedly decreased elastin and β-catenin expression compared to the si-NC and ov-NC group (p < 0.001). si-CISD2 modulated ferroptosis-associated molecules (CDKN1A, GLS2, SAT1, SLC7A11), decreased Gpx4 and increased TRF levels in SKOV-3. si-CISD2 and Wt-p53 played an obvious synergistic role in regulating ferroptosis-associated molecules and Gpx4/TRF pathway molecules. In conclusion, CISD2 downregulation was involved in ferroptosis process of SKOV-3 cells. This effect of CISD2 was mediated by wild-type p53-associated GLS2/SAT1/SLC7A11 and Gpx4/TRF pathway.