Toxoplasma gondii attenuates the ethidium bromide induced demyelination lesions in multiple sclerosis model rats.

Multiple sclerosis (MS) is an autoimmune neurodegenerative disease. Since the modulation of the immune system by parasites has been proven, and there have been reports of a reduction in the clinical symptoms of MS in people with toxoplasmosis, this study aimed to investigate the effect of toxoplasmosis on MS in an animal model. MS model was induced by the ethidium bromide injection in the areas specified in the Rat's brain in the stereotaxic device and Toxoplasma gondii RH strain injection of the rat's peritoneal for creation of toxoplasmosis. The effect of acute and chronic toxoplasmosis on the MS model was evaluated by examining the development of clinical symptoms of MS, body weight, changes in the levels of inflammatory cytokines, inflammatory cell infiltration, cell density, and spongy tissue in the brain. The body weight in the acute toxoplasmosis with MS was the same as the MS group, and a significant decrease was observed, but no weight loss was observed in the chronic toxoplasmosis with MS. In the chronic toxoplasmosis, the progress of clinical signs such as Immobility of limbs, including tail, hands, and feet, was observed less compared to other groups. The histology results in the group of chronic toxoplasmosis showed high cell density and inhibition of spongy tissue formation, and the infiltration of inflammatory cells in this group was less. TNF-α and INF-γ decreased in MS with chronic toxoplasmosis compared to the MS group. Our findings showed that chronic toxoplasmosis with inhibition of spongy tissue formation and prevention of cell infiltration and. As a result, the reduction of inflammatory cytokines could reduce clinical symptoms in MS in the animal model.