Conclusion
Altogether, these data underline that MCL patients my benefit from targeting iron homeostasis using ironomycin alone or in combination with conventional MCL treatments.
Methods
Analysis of the iron metabolism gene expression profile of a cohort of patients with MCL enables the identification of patients with a poor outcome who might benefit from an iron homeostasis-targeted therapy. We analyzed the therapeutic interest of ironomycin, known to sequester iron in the lysosome and to induce ferroptosis.
Results
In a panel of MCL cell lines, ironomycin inhibited MCL cell growth at nanomolar concentrations compared with conventional iron chelators. Ironomycin treatment resulted in ferroptosis induction and decreased cell proliferation rate, with a reduced percentage of cells in S-phase together with Ki67 and Cyclin D1 downregulation. Ironomycin treatment induced DNA damage response, accumulation of DNA double-strand breaks, and activated the Unfolded Protein Response (UPR). We validated the therapeutic interest of ironomycin in primary MCL cells of patients. Ironomycin demonstrated a significant higher toxicity in MCL cells compared to normal cells from the microenvironment. We tested the therapeutic interest of combining ironomycin with conventional treatments used in MCL. We identified a synergistic effect when ironomycin is combined with Ibrutinib, Bruton's tyrosine kinase (BTK) inhibitor, associated with a strong inhibition of B-Cell receptor (BCR) signaling.