According to a recent study conducted by researchers at ETH Zurich, the University Hospital Basel, and the University of Basel, circulating tumour cells that later become metastases arise largely during the sleep period of afflicted patients.
The study’s findings were published in the journal ‘Nature.’ According to the World Health Organization, breast cancer is one of the most frequent types of cancer (WHO). Around 2.3 million people globally acquire the illness each year. Patients typically react favourably to therapy if doctors find breast cancer early enough.
However, if the cancer has already spread, things become much more difficult. When circulating cancer cells separate from the initial tumour, they move across the body via blood arteries and establish new tumours in other organs.
To recently, cancer research has given little attention to when tumours discharge metastatic cells. Previously, researchers considered that tumours continually released such cells.
“When the patient is sleeping, the tumour wakes,” says research leader Nicola Aceto, Professor of Molecular Oncology at ETH Zurich. The researchers discovered that the tumour develops more circulating cells when the body is asleep during their investigation, which involved 30 female cancer patients and mice models.
Also Read: Walking may boost cognitive task performance: Study
Cells that leave the tumour at night divide faster and so have a greater potential to produce metastases than circulating cells that leave the tumour during the day.
“Our findings suggest that hormones like melatonin, which regulate our circadian cycles, affect the escape of circulating cancer cells from the primary tumour,” explains Zoi Diamantopoulou, the study’s lead author and a postdoctoral researcher at ETH Zurich.
Adapting treatments to the tumour
Furthermore, the study suggests that the timing of tumour or blood sample collection for diagnosis may alter oncologists’ conclusions.
An unintentional discovery along these lines set the researchers on the correct route in the first place. “Some of my coworkers work early in the morning or late in the evening; they’ll also analyse blood at odd hours,” Aceto explains with a smile. The researchers were caught aback when they discovered that samples collected at different times of the day showed extremely variable quantities of circulating cancer cells.
Another hint was the very large quantity of cancer cells detected in mice per unit of blood when compared to humans. Because mice are nocturnal creatures, they sleep throughout the day, which is when scientists gather the majority of their samples.
“In our opinion, these data suggest that healthcare providers should systematically record the time at which they do biopsies,” Aceto added. “It could aid in making the data genuinely comparable.”
The researchers’ next step will be to figure out how to incorporate these discoveries into existing cancer treatments in order to optimise remedies. Professor Nicola Aceto of ETH wants to examine if various forms of cancer behave similarly to breast cancer and whether existing medicines might be made more effective if individuals are treated at different periods.
