AI Article Synopsis
- The circadian clock influences important biological processes, including how cells respond to DNA damage, and timing treatments based on this clock could enhance drug effectiveness in cancer therapy.
- Researchers have studied circadian rhythms in various breast cancer cell lines, identifying four distinct clock phenotypes: functional, weak, unstable, and dysfunctional.
- Their findings indicate that the circadian clock significantly impacts how breast cancer cells respond to anti-cancer drugs, providing a framework for developing more effective, timing-based treatment strategies.
Article Abstract
The circadian clock regulates key physiological processes, including cellular responses to DNA damage. Circadian-based therapeutic strategies optimize treatment timing to enhance drug efficacy and minimize side effects, offering potential for precision cancer treatment. However, applying these strategies in cancer remains limited due to a lack of understanding of the clock's function across cancer types and incomplete insights into how the circadian clock affects drug responses. To address this, we conducted deep circadian phenotyping across a panel of breast cancer cell lines. Observing diverse circadian dynamics, we characterized metrics to assess circadian rhythm strength and stability in vitro. This led to the identification of four distinct circadian-based phenotypes among 14 breast cancer cell models: functional, weak, unstable, and dysfunctional clocks. Furthermore, we demonstrate that the circadian clock plays a critical role in shaping pharmacological responses to various anti-cancer drugs and we identify circadian features descriptive of drug sensitivity. Collectively, our findings establish a foundation for implementing circadian-based treatment strategies in breast cancer, leveraging clock phenotypes and drug sensitivity patterns to optimize therapeutic outcomes.
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| http://dx.doi.org/10.1038/s44320-025-00092-7 | DOI Listing |
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