Identification of a new micropeptide altKLF4 derived from KLF4 that influences myeloma chemotherapeutic sensitivity

Multiple myeloma (MM) is a common yet incurable hematological malignancy characterized by bone marrow infiltration. A major clinical challenge is the resistance to chemotherapy, highlighting the urgent need to better understand the molecular mechanisms underlying chemotherapeutic resistance to available drugs. Recent studies have emphasized the role of micropeptides in solid tumors and leukemia, but their functions in MM remain unclear. In this study, we identified a novel micropeptide, altKLF4, derived from the transcription factor KLF4, which is highly expressed in newly diagnosed myeloma patient samples. We found that ectopic expression of altKLF4 interfered with chemotherapy sensitivity induced by Proteasome inhibitors in myeloma cells. Additionally, confocal microscopy and transcriptome Sequencing revealed that altKLF4 co-localizes with the mitochondrial inner marker TOMM20 and participates in mitochondria-related biological processes, suggesting that altKLF4 partially localizes to the mitochondria. Mitochondria may also play a role in regulating Ferroptosis. Our results further demonstrated that altKLF4 inhibited drug sensitivity and Ferroptosis induced by the GPX4 inhibitor RSL3 in multiple myeloma cells through a direct interaction with GPX4. In vivo experiments showed that RSL3 significantly suppressed primary myeloma growth, which could be rescued by the micropeptide altKLF4. Taken together, our study identifies altKLF4 as a novel micropeptide that serves as a potential biomarker for chemotherapeutic resistance in multiple myeloma, offering insights for diagnosis and management of drug-resistant MM.

Chemotherapeutic sensitivity; Ferroptosis; KLF4; Micropeptide; Myeloma.