So-called “good fatty acids” are essential for human health. Among the Omega-3 fatty acids, DHA, or docosahexaenoic acid, is crucial to brain function, vision and the regulation of inflammatory phenomena.
In addition to these virtues, DHA is also associated with a reduction in the incidence of cancer. How it works is the subject of a major discovery by a multidisciplinary team of University of Louvain (UCLouvain) researchers, who have just elucidated the biochemical mechanism that allows DHA and other related fatty acids to slow the development of tumors. This is a major advance that has recently been published in the prestigious journal Cell Metabolism.
Key to the discovery: interdisciplinarity
In 2016, Olivier Feron’s UCLouvain team, which specializes in oncology, discovered that cells in an acidic microenvironment (acidosis) within tumors replace glucose with lipids as an energy source in order to multiply. In collaboration with UCLouvain’s Cyril Corbet, Prof. Feron demonstrated in 2020 that these same cells are the most aggressive and acquire the ability to leave the original tumor to generate metastases. Yvan Larondelle, a professor in the UCLouvain Faculty of Bioengineering, whose team is developing improved dietary lipid sources, proposed to Prof. Feron that they combine their skills in a research project, led by Ph.D. candidate Emeline Dierge, to evaluate the behavior of tumor cells in the presence of fatty acids.
The team quickly identified that these acidotic tumor cells responded in diametrically opposite ways depending on the fatty acid they were absorbing. Within a few weeks, the results were impressive and surprising. “We soon found that certain fatty acids stimulated the tumor cells while others killed them,” the researchers explained. DHA literally poisons them.
A fatal overload
The poison acts on tumor cells via a phenomenon called ferroptosis, a type of cell death linked to the peroxidation of certain fatty acids. The greater the amount of unsaturated fatty acids in the cell, the greater the risk of their oxidation. Normally, in the acidic compartment within tumors, cells store these fatty acids in lipid droplets, a kind of bundle in which fatty acids are protected from oxidation. But in the presence of a large amount of DHA, the tumor cell is overwhelmed and cannot store the DHA, which oxidizes and leads to cell death. By using a lipid metabolism inhibitor that prevents the formation of lipid droplets, researchers were able to observe that this phenomenon is further amplified, which confirms the identified mechanism and opens the door to combined treatment possibilities.
For their study, UCLouvain researchers used a 3D tumor cell culture system called spheroids. In the presence of DHA, spheroids first grow and then implode. The team also administered a DHA-enriched diet to mice with tumors. The result: tumor development was significantly slowed compared to that in mice on a conventional diet.
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