# Targeting FOXM1 regulates metabolic signatures through ROS-dependent JNK/Bmi1/Skp2 axis in human cutaneous T-cell lymphoma

**Authors:** Abdul Q. Khan, Maha Agha, Fareed Ahmad, Rasheeda Anver, Majid Alam, Joerg Buddenkotte, Shahab Uddin, Martin Steinhoff

PMC · DOI: 10.1038/s41419-025-08389-z · Cell Death & Disease · 2026-01-07

## TL;DR

This study shows that targeting FOXM1 disrupts cancer cell metabolism and stemness in skin T-cell lymphoma, offering new treatment possibilities.

## Contribution

The study reveals a novel therapeutic strategy for CTCL by targeting FOXM1 through its effects on ROS, JNK, and metabolic pathways.

## Key findings

- FOXM1 inhibition suppresses CTCL cell growth via ROS-induced apoptosis and autophagy.
- Thiostrepton treatment alters amino acid and lipid metabolism through ROS- and JNK-dependent mechanisms.
- FOXM1 targeting reduces stemness genes and enhances sensitivity to bortezomib in CTCL cells.

## Abstract

Cutaneous T-cell lymphoma (CTCL) is a progressive and heterogeneous malignancy characterized by deregulated metabolic reprogramming and cancer stemness, with limited therapeutic options. Therefore, elucidating the mechanisms driving metabolic reprogramming and poor clinical outcomes in CTCL is imperative. Forkhead box protein M1 (FOXM1), an oncogenic transcription factor, plays a pivotal role in cancer pathogenesis by orchestrating metabolic reprogramming and stemness signaling, thereby contributing to therapeutic resistance. In this study, we investigated the therapeutic potential of FOXM1 inhibition in human CTCL cells. Both genetic and pharmacological targeting of FOXM1 markedly suppressed CTCL cell growth and proliferation by inducing programmed cell death (apoptosis and autophagy) via reactive oxygen species (ROS) generation. Mechanistic analyses revealed that the activation of the MAPK, particularly JNK activation, is crucial for thiostrepton-induced programmed cell death. Metabolomics profiling further demonstrated that thiostrepton treatment triggers ROS- and JNK-dependent alteration in metabolic pathways central to cancer hallmarks, including amino acid and lipid metabolism. Notably, FOXM1 inhibition abrogated stemness-associated metabolic reprogramming genes (KLF-4, Bmi1) and Skp2, while upregulating the tumor suppressor p21 in a JNK-dependent manner. Moreover, thiostrepton treatment sensitized the CTCL cells to proteasome inhibitor bortezomib, promoting apoptosis and autophagy. Collectively, these findings demonstrate that FOXM1 targeting disrupts the metabolic status and stemness features of CTCL cells via JNK activation, thereby offering novel insights into potential therapeutic strategies for overcoming therapeutic challenges in CTCL.

## Linked entities

- **Genes:** FOXM1 (forkhead box M1) [NCBI Gene 2305], KLF4 (KLF transcription factor 4) [NCBI Gene 9314], BMI1 (BMI1 proto-oncogene, polycomb ring finger) [NCBI Gene 648], SKP2 (S-phase kinase associated protein 2) [NCBI Gene 6502], CDKN1A (cyclin dependent kinase inhibitor 1A) [NCBI Gene 1026]
- **Chemicals:** thiostrepton (PubChem CID 16129666), bortezomib (PubChem CID 387447)
- **Diseases:** cutaneous T-cell lymphoma (MONDO:0000607), CTCL (MONDO:0000607)

## Full-text entities

- **Genes:** H3P16 (H3 histone pseudogene 16) [NCBI Gene 644914] {aka H3.6, H3F3AP6, p21}, SKP2 (S-phase kinase associated protein 2) [NCBI Gene 6502] {aka FBL1, FBXL1, FLB1, p45}, BMI1 (BMI1 proto-oncogene, polycomb ring finger) [NCBI Gene 648] {aka FLVI2/BMI1, PCGF4, RNF51, flvi-2/bmi-1}, MAPK8 (mitogen-activated protein kinase 8) [NCBI Gene 5599] {aka JNK, JNK-46, JNK1, JNK1A2, JNK21B1/2, PRKM8}, KLF4 (KLF transcription factor 4) [NCBI Gene 9314] {aka EZF, GKLF}, FOXM1 (forkhead box M1) [NCBI Gene 2305] {aka FKHL16, FOXM1A, FOXM1B, FOXM1C, HFH-11, HFH11}
- **Diseases:** CTCL (MESH:D016410), cancer (MESH:D009369)
- **Chemicals:** thiostrepton (MESH:D013883), ROS (MESH:D017382), amino acid (MESH:D000596), lipid (MESH:D008055), bortezomib (MESH:D000069286)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12876963/full.md

## References

10 references — full list in the complete paper: https://tomesphere.com/paper/PMC12876963/full.md

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Source: https://tomesphere.com/paper/PMC12876963