Malaria is a disease caused by protozoa of the genus Plasmodium and presents itself as a major public health problems in the world. To evaluate the malaria frame, murine models have been used for its similarities between species infective for mice and species infective to man. The increased production of reactive oxygen species and changes in the activity of enzymes such as glutathione peroxidase and superoxide dismutase have been characterized within the clinical picture of the disease, but little is known about the participation of antioxidant molecules such as glutathione in the evolution of the disease. Given the above, the main objective of this study is to evaluate the effect of glutathione in the evolution of murine malaria frame and front to damage caused by infection with Plasmodium berghei ANKA strain (PbA). To this were Balb-C mice, which were inoculated (~106 parasitized erythrocytes) intraperitoneally. The groups were divided into malaria group (PbA), PbA group + GSH 1 mg, PbA group + GSH 3 mg and PbA group + GSH 8 mg treated for 7 days consecutive. The development of the disease was monitored daily by determining the survival, body mass and parasitaemia was monitored every three days in blood strains, was also analyzed the histological sections of liver tissue was performed and the biochemical analysis of liver transaminases. Our data demonstrated that treatment with GSH (8mg/kg) accelerated mortality of infected animals once between days 13-14 after infection about 43% of the animals progressed to death. In the group infected with PbA that received no treatment with GSH, a similar reduction (40%) was observed only from 23-25 days post infection. In relation to PbA + GSH 1mg groups and GSH + PbA 3 mg, there was no difference when compared to the PbA group. Interestingly, although treatment with GSH 8mg has accelerated mortality in the infected group, no significant difference in parasitaemia level of the four groups analyzed. In relation to body mass was observed a difference between day 0 and 24 in all groups, but when analyzed between groups. In what concerns the histological and biochemical tests, we noted that listen both changes in histology and in transaminase, with the latter being expressed in PbA changes group was treated with glutathione 8mg / kg group than in PbA. Concluding that glutathione when administered intraperitoneally accelerates the mortality of mice infected with the ANKA strain, but this mortality is not associated with increased parasitemia, then indicating that mortality may result from liver changes.
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