Riboflavin metabolism shapes FSP1-driven ferroptosis resistance.

Skafar, Vera; Tschuck, Juliane; Proneth, Bettina; Porto Freitas, Florencio; Elling, Ulrich; Bargou, Ralf; Palma, Mario; Augustin, Hellmut G; Nepachalovich, Palina; Meierjohann, Svenja; Friedmann Angeli, José Pedro; Chen, Zhiyi; Buhr, Jannik; Bothe, Sebastian; Nunes-Alves, Ariane; Mathur, Apoorva; Seufert, Lars; Hadian, Kamyar; Alborzinia, Hamed; de Souza, Izadora; Fedorova, Maria; Mack, Matthias; Eilers, Martin; Kaur, Mayher; Donate Castillo, Merce; Sun, Shibo; Chaufan, Milena; Ubellacker, Jessalyn M; Ferreira Dos Santos, Ancely; Schmitz, Werner; Conrad, Marcus; Ghosh, Biplab; Aponte-Santamaría, Camilo

doi:10.1038/s41556-025-01856-x

Journal Article

DKFZ-2026-00595

Riboflavin metabolism shapes FSP1-driven ferroptosis resistance.

Skafar, V. ; de Souza, I. ; Ghosh, B.DKFZ* ; Ferreira Dos Santos, A. ; Porto Freitas, F. ; Chen, Z. ; Sun, S. ; Donate Castillo, M. ; Nepachalovich, P. ; Seufert, L. ; Bothe, S. ; Tschuck, J. ; Mathur, A. ; Nunes-Alves, A. ; Buhr, J. ; Aponte-Santamaría, C. ; Schmitz, W. ; Mack, M. ; Eilers, M. ; Bargou, R. ; Chaufan, M. ; Kaur, M. ; Palma, M. ; Ubellacker, J. M. ; Elling, U. ; Augustin, H. G.DKFZ* ; Hadian, K. ; Meierjohann, S. ; Proneth, B. ; Conrad, M. ; Fedorova, M. ; Alborzinia, H.DKFZ* ; Friedmann Angeli, J. P.

2026
Nature America New York, NY

Nature cell biology nn, nn (2026) [10.1038/s41556-025-01856-x]

Abstract: Membrane protection against oxidative insults is achieved by the concerted action of glutathione peroxidase 4 (GPX4) and endogenous lipophilic antioxidants such as ubiquinone and vitamin E. More recently, ferroptosis suppressor protein 1 (FSP1) was identified as a critical ferroptosis inhibitor, acting via the regeneration of membrane-embedded antioxidants. Yet, regulators of FSP1 are largely uncharacterized, and their identification is essential for understanding the mechanisms buffering phospholipid peroxidation and ferroptosis. Here we report a focused CRISPR-Cas9 screen to uncover factors influencing FSP1 function, identifying riboflavin (vitamin B2) as a modulator of ferroptosis sensitivity. We demonstrate that riboflavin supports FSP1 stability and the recycling of lipid-soluble antioxidants, thereby mitigating phospholipid peroxidation. Furthermore, we show that the riboflavin antimetabolite roseoflavin markedly impairs FSP1 function and sensitizes cancer cells to ferroptosis. Our findings provide a rational strategy to modulate the FSP1-antioxidant recycling pathway and underscore the therapeutic potential of targeting riboflavin metabolism, with implications for understanding the interaction of nutrients, as well as their contributions to a cell's antioxidant capacity.

Classification:

ddc:570

Note: DKFZ-ZMBH Alliance / epub

Contributing Institute(s):

Research Program(s):

311 - Zellbiologie und Tumorbiologie (POF4-311) (POF4-311)

Appears in the scientific report 2026

Database coverage:
Medline

; BIOSIS Previews ; Biological Abstracts ; Clarivate Analytics Master Journal List ; Current Contents - Life Sciences ; DEAL Nature ; Ebsco Academic Search ; Essential Science Indicators ; IF >= 20 ; JCR ; National-Konsortium ; SCOPUS ; Science Citation Index Expanded ; Web of Science Core Collection

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Record created 2026-03-16, last modified 2026-03-16

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