Received: 25 June 2025 Revised: 8 August 2025 Accepted: 13 August 2025 Published: 14 August 2025 Citation: Jin, Z.; Zhang, Q.; Pan, Y.; Chen, H.; Zhou, K.; Cai, H.; Huang, P. Roles and Prospective App Show more
Received: 25 June 2025 Revised: 8 August 2025 Accepted: 13 August 2025 Published: 14 August 2025 Citation: Jin, Z.; Zhang, Q.; Pan, Y.; Chen, H.; Zhou, K.; Cai, H.; Huang, P. Roles and Prospective Applications of Ferroptosis Suppressor Protein 1 (FSP1) in Malignant Tumor Treatment. Curr. Oncol. 2025, 32, 456. https:// doi.org/10.3390/curroncol32080456 Show less
Developing novel therapeutics often follows three steps: target identification, design of
strategies to suppress target activity and drug development to implement the strategies. In this
review, we re Show more
Developing novel therapeutics often follows three steps: target identification, design of
strategies to suppress target activity and drug development to implement the strategies. In this
review, we recount the evidence identifying the basic leucine zipper transcription factors ATF5,
CEBPB, and CEBPD as targets for brain and other malignancies. We describe strategies that exploit
the structures of the three factors to create inhibitory dominant-negative (DN) mutant forms that
selectively suppress growth and survival of cancer cells. We then discuss and compare four peptides
(CP-DN-ATF5, Dpep, Bpep and ST101) in which DN sequences are joined with cell-penetrating
domains to create drugs that pass through tissue barriers and into cells. The peptide drugs show
both efficacy and safety in suppressing growth and in the survival of brain and other cancers in vivo,
and ST101 is currently in clinical trials for solid tumors, including GBM. We further consider known
mechanisms by which the peptides act and how these have been exploited in rationally designed
combination therapies. We additionally discuss lacunae in our knowledge about the peptides that
merit further research. Finally, we suggest both short- and long-term directions for creating new
generations of drugs targeting ATF5, CEBPB, CEBPD, and other transcription factors for treating
brain and other malignancies.
Citation: Greene, L.A.; Zhou, Q.;
Siegelin, M.D.; Angelastro, J.M.
Targeting Transcription Factors ATF5, Show less
2023 · Frontiers in Cell and Developmental Biology · Frontiers · added 2026-04-21
Oxidative stress nearly always accompanies all stages of cancer development. At the early stages, antioxidants may help to reduce reactive oxygen species (ROS) production and exhibit anticarcinogenic Show more
Oxidative stress nearly always accompanies all stages of cancer development. At the early stages, antioxidants may help to reduce reactive oxygen species (ROS) production and exhibit anticarcinogenic effects. In the later stages, ROS involvement becomes more complex. On the one hand, ROS are necessary for cancer progression and epithelial-mesenchymal transition. On the other hand, antioxidants may promote cancer cell survival and may increase metastatic frequency. The role of mitochondrial ROS in cancer development remains largely unknown. This paper reviews experimental data on the effects of both endogenous and exogenous antioxidants on cancerogenesis focusing on the development and application of mitochondria-targeted antioxidants. We also discuss the prospects for antioxidant cancer therapy, focusing on the use of mitochondria-targeted antioxidants. Show less
The deregulation of gene expression is a characteristic of cancer cells, and malignant cells require very high levels of transcription to maintain their cancerous phenotype and survive. Therefore, com Show more
The deregulation of gene expression is a characteristic of cancer cells, and malignant cells require very high levels of transcription to maintain their cancerous phenotype and survive. Therefore, components of the basal transcription machinery may be considered as targets to preferentially kill cancerous cells. TFIIH is a multisubunit basal transcription factor that also functions in nucleotide excision repair. The recent discoveries of some small molecules that interfere with TFIIH and that preferentially kill cancer cells have increased researchers' interest to elucidate the complex mechanisms by which TFIIH operates. In this review, we summarize the knowledge generated during the 25 years of TFIIH research, highlighting the recent advances in TFIIH structural and mechanistic analyses that suggest the potential of TFIIH as a target for cancer treatment. Show less