The p21CIP1-CDK4-DREAM axis is a master regulator of genotoxic stress-induced cellular senescence

Schmidt, Ariane; Allmann, Sebastian; Schwarzenbach, Christian; Snyder, Petra; Chen, Jia-Xuan; Nagel, Georg; Schöneis, Anna; Rasenberger, Birgit; Beli, Petra; Loewer, Alexander; Hofmann, Thomas G; Tomicic, Maja T; Christmann, Markus

doi:10.1093/nar/gkae426

Cited by 2 publications

References 71 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Overexpression ofβTrCP1elicits cell death in cisplatin-induced senescent cells

Belmonte-Fernández,

Herrero-Ruíz,

Limón-Mortés

et al. 2024

Preprint

View full text Add to dashboard Cite

Senescence is a non-proliferative cellular state derived from aging or in response to exogenous insults, such as those that cause DNA damage. As a result of cancer treatments like cisplatin, certain tumor cells may undergo senescence. However, rather than being beneficial for patients, this is detrimental because these cells might proliferate again under specific conditions and, more importantly, because they synthesize and secrete molecules that promote the proliferation of nearby cells. Therefore, to achieve complete tumor remission, it is necessary to develop senolytic compounds to eliminate senescent cells. Here, we studied the role of betaTrCP1 in cell proliferation and senescence and found that lentiviral overexpression of betaTrCP1 induces the death of senescent cells obtained after cisplatin treatment in both two-dimensional cell cultures and tumorspheres. Mechanistically, we demonstrated that overexpression of betaTrCP1 triggers proteasome-dependent degradation of p21 CIP1, allowing damaged cells to progress through the cell cycle and consequently die. Furthermore, we identified nucleophosmin 1 (NPM1) as the intermediary molecule involved in the effect of betaTrCP1 on p21 CIP1. We determined that increased amounts of betaTrCP1 partially retains NPM1 in the nucleoli, preventing it from associating with p21 CIP1, thus leaving it unprotected from degradation by the proteasome. These results have allowed us to discover a potential new target for senolytic drugs, as retaining NPM1 in the nucleoli under senescent conditions induces cell death.

show abstract

Overexpression ofβTrCP1elicits cell death in cisplatin-induced senescent cells

Belmonte-Fernández,

Herrero-Ruíz,

Limón-Mortés

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Emerging Role of the DREAM Complex in Cancer and Therapeutic Opportunities

Hwang,

Kim

2025

IJMS

View full text Add to dashboard Cite

The DREAM (dimerization partner, RB-like, E2F, and multi-vulval class B) complex is an evolutionarily conserved transcriptional repression complex that coordinates nearly one thousand target genes, primarily associated with the cell cycle processes. The formation of the DREAM complex consequently inhibits cell cycle progression and induces cellular quiescence. Given its unique role in cell cycle control, the DREAM complex has gained significant interest across various physiological and pathological contexts, particularly in conditions marked by dysregulated cell cycles, such as cancer. However, the specific cancer types most significantly affected by alterations in the DREAM complex are yet to be determined. Moreover, the possibility of restoring or pharmacologically targeting the DREAM complex as a therapeutic intervention against cancer remains a relatively unexplored area of research and is currently under active investigation. In this review, we provide an overview of the latest advances in understanding the DREAM complex, focusing on its role in cancer. We also explore strategies for targeting the DREAM complex as a potential approach for cancer therapeutics. Advances in understanding the precise role of the DREAM complex in cancer, combined with ongoing efforts to develop targeted therapies, may pave the way for new options in cancer therapy.

show abstract

The p21CIP1-CDK4-DREAM axis is a master regulator of genotoxic stress-induced cellular senescence

Cited by 2 publications

References 71 publications

Overexpression ofβTrCP1elicits cell death in cisplatin-induced senescent cells

Overexpression ofβTrCP1elicits cell death in cisplatin-induced senescent cells

Emerging Role of the DREAM Complex in Cancer and Therapeutic Opportunities

Contact Info

Product

Resources

About