Sodium chloride-induced changes in oxidative stress, inflammation, and dysbiosis in experimental multiple sclerosis

Objectives: The high-salt diet (HSD) has been associated with cognitive dysfunction by attacking the cerebral microvasculature, through an adaptive response, initiated in the intestine and mediated by Th17 cells. In the animal model of multiple sclerosis (MS), experimental autoimmune encephalomyelit...

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Published in:Nutritional neuroscience 2024-01, Vol.ahead-of-print (ahead-of-print), p.1-13
Main Authors: Martín-Hersog, Francisco A., Muñoz-Jurado, Ana, Escribano, Begoña M., Luque, Evelio, Galván, Alberto, LaTorre, Manuel, Giraldo, Ana I., Caballero-Villarraso, Javier, Agüera, Eduardo, Santamaría, Abel, Túnez, Isaac
Format: Article
Language:English
Subjects:
Animals
Autoimmunity
Dysbiosis
Encephalomyelitis, Autoimmune, Experimental
Experimental autoimmune encephalomyelitis
Glutathione redox cycle
Inflammation
Inflammation - complications
Mice
Mice, Inbred C57BL
Multiple sclerosis
Multiple Sclerosis - complications
NaCl
Oxidative Stress
Rats
Sodium Chloride - adverse effects
Sodium Chloride, Dietary - adverse effects
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Summary:Objectives: The high-salt diet (HSD) has been associated with cognitive dysfunction by attacking the cerebral microvasculature, through an adaptive response, initiated in the intestine and mediated by Th17 cells. In the animal model of multiple sclerosis (MS), experimental autoimmune encephalomyelitis (EAE), it has been described that NaCl causes an increase in T cell infiltration in the central nervous system. NaCl also promotes macrophage response and Th17 cell differentiation, worsening the course of the disease. HSD may trigger an activation of the immune system and enhance inflammation. However, certain studies not only do not support this possibility, but support the opposite, as the effect of salt on immune cells may not necessarily be pathogenic. Therefore, this study aimed to evaluate the effect of an over intake of salt in rats with EAE, based on the clinical course, oxidative stress, markers of inflammation and the gut dysbiosis. Methods: 15 Dark Agouti rats were used, which were divided into control group, EAE group and EAE + NaCl group. Daily 0.027 g of NaCl dissolved in 300 μl of H 2 O was administered through a nasogastric tube for 51 days. Results: NaCl administration produced an improvement in clinical status and a decrease in biomarkers of oxidative stress, inflammation, and dysbiosis. Conclusion: The underlying mechanism by which NaCl causes these effects could involve the renin-angiotensin-aldosterone system (RAAS), which is blocked by high doses of salt.
ISSN:1028-415X
1476-8305
DOI:10.1080/1028415X.2022.2161132