A predictive serum miRNA signature impacts diffuse large B‐cell lymphoma cell viability via inhibition of EGLN1 and TXNRD1 regulators of ferroptosis

• Published in: British journal of haematology
• Main Authors: Regazzo, Giulia, Vari, Giulia, Marchesi, Francesco, Díaz Méndez, Ana Belén, Di Giuliani, Marta, Sacconi, Andrea, Palombi, Francesca, Lulli, Valentina, Goeman, Frauke, Novello, Mariangela, Tomassi, Martina, Papa, Elena, Bertoni, Francesco, Hohaus, Stefan, Mengarelli, Andrea, Rizzo, Maria Giulia
• Format: Journal Article
• Language: English
• Published: England 20.07.2025
• Subjects: ferroptosis regulators; predictive biomarkers; circulating microRNAs; diffuse large B‐cell lymphoma
• ISSN: 0007-1048; 1365-2141; 1365-2141
• DOI: 10.1111/bjh.70017

Diffuse large B‐cell lymphoma (DLBCL) is a heterogeneous disorder. Prognostic factors include genomic alterations and cell‐of‐origin (COO) subtypes, even though they cannot fully predict treatment response. MicroRNAs (miRNAs) deregulated in patient tumours and blood are promising non‐invasive biomarkers. Several circulating miRNAs were found to be correlated with progression‐free survival (PFS), independently of other prognosticators. However, miRNA signatures, rather than individual miRNAs, represent more reliable biomarkers and a better mirror of the disease. In this study, we identified circulating miRNAs differentially expressed between R‐CHOP refractory and responding subjects by small‐RNA sequencing on serum from 33 DLBCL patients. Among the identified miRNAs, the combined expression of three of them improved the predictive performance and was correlated with PFS. Two out of three miRNAs, miR‐421 and miR‐324‐5p, were also differentially expressed in tumour tissues based on treatment response. Overexpressing these miRNAs reduced cell proliferation, viability and resistance to R‐CHOP in the germinal centre B‐like COO subtype. EGLN1 and TXNRD1 , regulators of oxygen metabolism and redox homeostasis, were identified as miRNA targets and the silencing or inhibition of these genes impaired cell viability and induced ferroptosis. These results support the application of a two‐miRNA signature and its targets for novel combined therapeutic interventions in DLBCL.