MDB-34. “INDUCING IRON IMBALANCE BY TARGETING THE ABCB7/GPX4 AXIS ACCELERATES FERROPTOSIS IN MEDULLOBLASTOMA”

Abstract

Abstract Medulloblastomas (MB), the most common malignant pediatric brain tumor and a leading cause of childhood mortality, are stratified into four primary subgroups. Deletions within chromosomal locus 17p13.3, which houses multiple tumor suppressor genes including miR-1253, characterize high-risk group 3 tumors. These aggressive tumors also enrich iron transport genes to satisfy their high proliferative need. MiR-1253 targets iron transport by inhibiting the mitochondrial Fe-S transporter, ABCB7. This study elucidated the impact of repressing ABCB7 on cisplatin cytotoxicity in group 3 MB and whether these effects were mediated by ferroptosis. In silico and in vitro analyses revealed specific enrichment of ABCB7 and GPX4, a critical regulator of ferroptosis, in group 3 MB cell lines and tumors. MiR-1253 overexpression (miR-1253OE) resulted in downregulation of both ABCB7 and GPX4, concurrently increasing mitochondrial iron overload, mitochondrial oxidative stress, and lipid peroxidation, leading to cell death and abrogation of medullosphere formation; ABCB7 knockdown (ABCB7KD) recapitulated these effects and abrogated GPX4 expression. Fractionation studies confirmed the inhibitory impact of miR-1253OE and ABCB7KD on GPX4 expression in the cytosol and mitochondria. Seahorse studies revealed that the bulk of ATP generation was occurring in the cytoplasm through glycolysis and not via oxidative phosphorylation, suggesting mitochondrial dysfunction was triggered when ABCB7 was repressed. Cisplatin, a chemotherapeutic agent used in group 3 MB treatment, induces cell death by DNA crosslinking; it also inhibits GPX4 expression. In miR-1253OE and ABCB7KD group 3 cancer cells, cisplatin IC50 was reduced 2-fold. Resultantly, cisplatin treatment augmented oxidative stress and lipid peroxidation, depleted glutathione stores, and culminated in a higher index of ferroptosis. In a mouse model of group 3 tumors, ABCB7KD potentiated cisplatin effects and dramatically prolonged survival. The current study illustrates how targeting iron transport can augment ferroptosis to potentiate cisplatin cytotoxicity in group 3 MB tumors.