Genistein modulates the expression of Toll-like receptors in experimental autoimmune encephalomyelitis.

OBJECTIVE AND DESIGN: The present work investigates the modulation of experimental autoimmune encephalomyelitis (EAE) using genistein before the EAE induction. MATERIAL: Female C57BL/6 mice (n = 96 mice/experiment), 4-6 weeks old, were used to induce the EAE. The mice were divided into three experimental groups: non-immunized group, immunized group (EAE), and immunized and treated with genistein group (Genistein). TREATMENT: Genistein was used at a dose of 200 mg/kg s.c. and were initiated 2 days before the immunization and continued daily until day 6 postimmunization. METHODS: Animals were monitored daily for clinical signs of EAE up to day 21. Inflammatory infiltration, demyelination, Toll-like receptor (TLR) expression, cytokines and transcription factors were analyzed in spinal cords. RESULTS: The present study demonstrates, for the first time, the genistein ability to modulate the factors involved in the innate immune response in the early stages of EAE. The genistein therapy delayed the onset of the disease, with reduced inflammatory infiltration and demyelination. In addition, the expression of TLR3, TLR9 and IFN-ß were increased in genistein group, with reduction in the factors of TH1 and Th17 cells. CONCLUSION: These findings shed light on the potential of genistein as a prophylactic strategy for multiple sclerosis (MS) prevention.

Different MOG(35-55) concentrations induce distinguishable inflammation through early regulatory response by IL-10 and TGF-ß in mice CNS despite unchanged clinical course.

Multiple sclerosis (MS) shows distinct clinical courses. Experimental autoimmune encephalomyelitis (EAE), a model to study multiple sclerosis, can be induced by different protocols, which show distinct cytokine and antibody production. The factors involved in this heterogeneity remain unclear. The relevance of MOG concentration in triggering a regulatory response in the chronic model of EAE is imprecise. The aim of this study was investigate if 100 or 300 µg of MOG(35-55) could induce different EAE profiles. Modifications in the concentration of MOG were able to change the patterns of chemokines, cytokines, percentage of cells, inflammatory infiltrate and the development of a regulatory response. However, these changes were unable to modify the intensity of response, which explains the chronic progression of the disease in both concentrations. The results presented in this study contribute to understanding the intricate mechanisms that trigger EAE and provide insights into the pathogenesis of various forms of MS.

Lower production of IL-17A and increased susceptibility to Mycobacterium bovis in mice coinfected with Strongyloides venezuelensis.

The presence of intestinal helminths can down-regulate the immune response required to control mycobacterial infection. BALB/c mice infected with Mycobacterium bovis following an infection with the intestinal helminth Strongyloides venezuelensis showed reduced interleukin-17A production by lung cells and increased bacterial burden. Also, small granulomas and a high accumulation of cells expressing the inhibitory molecule CTLA-4 were observed in the lung. These data suggest that intestinal helminth infection could have a detrimental effect on the control of tuberculosis (TB) and render coinfected individuals more susceptible to the development of TB.

Intestinal microbiota as modulators of the immune system and neuroimmune system: impact on the host health and homeostasis.

Many immune-based intestinal disorders, such as ulcerative colitis and Crohn's disease, as well as other illnesses, may have the intestines as an initial cause or aggravator in the development of diseases, even apparently not correlating directly to the intestine. Diabetes, obesity, multiple sclerosis, depression, and anxiety are examples of other illnesses discussed in the literature. In parallel, importance of the gut microbiota in intestinal homeostasis and immunologic conflict between tolerance towards commensal microorganisms and combat of pathogens is well known. Recent researches show that the immune system, when altered by the gut microbiota, influences the state in which these diseases are presented in the patient directly and indirectly. At the present moment, a considerable number of investigations about this subject have been performed and published. However, due to difficulties on correlating information, several speculations and hypotheses are generated. Thus, the present review aims at bringing together how these interactions work-gut microbiota, immune system, and their influence in the neuroimmune system.

Optical neuritis induced by different concentrations of myelin oligodendrocyte glycoprotein presents different profiles of the inflammatory process.

Optical neuritis (ON) is characterized by inflammation of the optic nerve, and is one of the first clinical signs of multiple sclerosis (MS). Experimental autoimmune encephalomyelitis (EAE) is the animal model used to study MS and ON. The present study evaluated the induction, development and progression of ON using an EAE model induced by 100 µg or 300 µg of MOG35-55. An EAE model was induced in C57BL/6 mice by tail base injection of 100 µg or 300 µg of MOG35-55 in complete Freund's adjuvant, supplemented with Mycobacterium tuberculosis. On the day of injection and 48 h later, animals received intraperitoneally 300 ng of pertussis toxin. On days 7, 10, 14, 21 and 58 the optic nerve was dissected for histological analysis, production of CCL5 and immunohistochemical detection of CD4 and CD8. The histological changes observed in the optic nerves consisted of inflammatory cell infiltrates showing varying degrees of ON in the two groups. The onset of ON in the 300 µg of MOG35-55 group was coincident with higher production of CCL5, on day 10 after induction. However, the 100 µg MOG35-55 group showed more intense inflammatory infiltrate on day 14 after induction, with higher amounts of CD4 and CD8, reaching an excessive demyelination process on days 21 and 58 after induction. The results suggest that two different concentrations of MOG35-55 lead to different forms of evolution of optic neuritis.