Bone marrow stromal cells protect myeloma cells from ferroptosis through GPX4 deSUMOylation.

Bone marrow stromal cells (BMSCs) are vital for preventing chemotherapy induced apoptosis of multiple myeloma (MM), but roles and machinery in other forms of cell death have not been well elucidated. Here, using an in vitro BMSC-MM interacting model, we observed BMSCs protected MM cells from labile iron pool (LIP) and reactive oxygen species (ROS) triggered ferroptosis by elevating glutathione peroxidase 4 (GPX4). Mechanistically, direct interaction with BMSCs upregulated the expression of SUMO-specific protease 3 (SENP3) in MM cells through CD40/CD40L signaling pathway, and SENP3 de-conjugated SUMO2 at lysine 75 residue to stabilize GPX4 protein, thereby consuming ROS to obviate ferroptosis in MM cells from the Vk∗MYC mouse model, as well as in CD138B220 cells separated from the Cd40l;Prx1 mice (CD40-CKO) and Sumo2 knock out (SUMO2-KO) mice. Using the NOD-scid IL2Rgamma (NSG) mouse based xenograft model and intra-bone MM growth model, we validated that target SENP3 enhanced the killing effect of GPX4 inhibitor RSL3, thereby reduced tumor burden, prolonged survival of mice, and alleviated bone disruption of mice bearing MM tumors. Our study deciphers the mechanism of BMSCs preventing MM cells from spontaneous ferroptosis, and clarifies the therapeutic potential of non-apoptosis strategies in managing refractory or relapsed MM patients.