University of Bern: Magnesium is essential for the immune system, including in the fight against cancer
Magnesium deficiency is associated with a variety of diseases, such as infections and cancer. Previous studies have shown that cancerous growths spread faster in the bodies of mice when the animals received a low-magnesium diet – and that their defense against flu viruses was also impaired. However, there has so far been little research into how exactly this mineral affects the immune system.
Now, researchers led by Professor Christoph Hess, from the University of Basel and University Hospital Basel, and University of Cambridge, in collaboration with University and University Hospital Bern, have discovered that T cells can eliminate abnormal or infected cells efficiently only in a magnesium-rich environment. Specifically, magnesium is important for the function of a T cell surface protein called LFA-1.
LFA-1 acts as a docking site, which plays a key role in the activation of T cells. “However, in the inactive state this docking site is in a bent conformation and thus cannot efficiently bind to infected or abnormal cells,” Christoph Hess explains. “This is where magnesium comes into play. If magnesium is present in sufficient quantities in the vicinity of the T cells, it binds to LFA-1 and ensures that it remains in an extended – and therefore active – position.”
Professor Maria Luisa Balmer of the University and University Hospital Bern, and Diabetes Center Berne, adds: “Many people associate the trace element magnesium primarily with its effects on muscle function. What this new study shows is that magnesium also regulates fundamental processes in immune cells, and that this regulation has a significant effect on how they function. This research is a prime example of how findings from basic research can lead to further investigations that may directly benefit patients and the wider population.”
Potentially important findings for cancer patients
The fact that magnesium is essential for the functioning of T cells may be a highly significant finding for modern cancer immunotherapies. These therapies aim to mobilize the immune system – in particular cytotoxic T cells – to fight cancer cells. In experimental models, the researchers were able to show that the immune response of T cells against cancer cells was strengthened by an increase in the local magnesium concentration in tumors.
“In order to verify this observation clinically, we’re now looking for ways to increase the concentration of magnesium in tumors in a targeted manner,” Christoph Hess says. The promising nature of these strategies is demonstrated by further analyses performed by the research team working with Christoph Hess and his Postdoc, Dr. Jonas Lötscher, lead author of the study. Using data from previously completed studies of cancer patients, the researchers were able to show that immunotherapies were less effective in patients with insufficient levels of magnesium in their blood.
Whether a regular intake of magnesium impacts the risk for developing cancer is a question that cannot be answered based on the existing data, says Lötscher. “As a next step, we’re planning prospective studies to test the clinical effect of magnesium as a catalyst for the immune system.”