Salt consumption controls autoimmune disease
In a surprising finding, high salt consumption is found to regulate the blood-brain barrier permeability to suppress autoimmune disease development in mice
Photo by Emmy Smith on Unsplash
Sodium chloride, table salt, is an essential mineral that we must consume for a healthy life. However, excessive salt consumption is one of the known health risks, as it has been linked to cardiovascular and kidney diseases. Researchers are also interested in understanding the effect of excessive salt consumption in autoimmune and inflammatory diseases such as MS. Therefore, an animal model of multiple sclerosis called Experimental Autoimmune Encephalomyelitis (EAE) has been used in the past to study the effect of excessive salt consumption. It has been reported that it leads to exacerbation of the disease.
Different disease model, different result
Gurumoorthy Krishnamoorthy, head of the research group "Neuroinflammation and Mucosal Immunology" at the Max Planck Institute of Biochemistry, and his team now show an opposite finding. The research group leader explains "For our studies, we used a different mouse model that spontaneously develops MS-like symptoms. We have no evidence that increased salt consumption in the animals promoted or exacerbated the disease." Surprisingly, the scientists were even able to show that increased salt consumption suppressed the development of the autoimmune disease.
The blood-brain barrier
"For the analysis, we focused on the blood-brain barrier," reports Shin-Young Na, first author of the study. The blood-brain barrier is an important barrier between the bloodstream and central nervous system. It prevents the uncontrolled flow of substances as well as immune cells from the blood into the central nervous system. So-called tight junctions help with this diffusion barrier. These are membrane molecules that, as the name suggests, create tight junctions between cells. "We could see that in the animals consuming an increased amount of salt, serum levels of the glucocorticoid hormone corticosterone were elevated. This increased level of corticosterone led to increased expression of tight junction molecules in the endothelial cells. As a result, the blood-brain barrier is strengthened and the entry of inflammatory T cells into the nervous system was blocked," Na further reports.
Gurumoorthy Krishnamoorthy says, "Our results show that moderately increased salt consumption has multiple and potentially beneficial effects on central nervous system autoimmunity in mice. I assume that the opposite effect compared to the previous studies is related to the use of different animal models where the blood-brain barrier is artificially opened through injection of pertussis toxin. This is not the case in our disease model and this model is closer to the early stage of MS disease in humans."