Estudo comparativo da esquistossomose mansônica no reservatório silvestre Nectomys squamipes naturalmente infectado e no modelo experimental camundongo Swiss: análises histopatológicas, bioquímicas e ultraestruturais

Abstract

The rodent Nectomys squamipes, also known as water rat, is considered the most important wild reservoir of the parasite Schistosoma mansoni in Brazil, contributing to the epidemiology of human schistosomiasis. Furthermore, when infected, it shows no clinical signs of the disease with extremely soft tissue injuries resulting from infection. Parameters related to the infection in murine models of experimental infection have been well documented; however, in natural infection models, they are still largely unknown. The host-parasite relationship in this model of natural infection is highly relevant and motivated the development of this work. So, It was conducted a comparative study of schistosomiasis in N. squamipes naturally infected by the parasite Schistosoma mansoni and in Swiss experimentally infected mice, at the acute and chronic phases of the infection through histological, biochemical and ultrastructural analysis, aiming to gain a better understanding of how the water rat handles with parasitism by S. mansoni. Analysis of frequencies and types of granulomas were held, their average areas and tissue impairment of the target organs of infection (liver and intestines) in both experimental models. The involvement of eosinophils during granulomatous inflammatory response was also evaluated, as these cells are present in large numbers in the granulomas. Biochemical testing of liver transaminases contributed to the evaluation of hepatocellular damage. Furthermore, the influence of hepatic steatosis in the natural infection model was studied, since their effects are not known in wild animals. Thus, serum levels of glucose, total cholesterol and triglycerides were important to assess the glycemic and lipid profile of the animals studied. The liver tissues of animals were subjected to Raman spectroscopy, to assess the degree of unsaturation. Finally, ultrastructural analysis helped to deepen understanding of the roles of eosinophils and lipid bodies present in hepatocytes in these two models of schistosomiasis. The results revealed that N. squamipes showed excellent modulation of tissue lesions in the liver, with low tissue impairment and a more exacerbated granulomatous reaction in the small intestine, favoring the elimination of the parasite eggs in feces. Furthermore, serum transaminases levels did not change as a result of the infection in wild rodents, unlike what occurred in Swiss mice. N. squamipes infected and uninfected showed the highest degree of unsaturation present in liver tissue. Intriguing ultrastructural characteristics of N. squamipes eosinophils were observed by TEM. Through the data obtained, we concluded that the water rat has a wellestablished ecological relationship with the parasite Schistosoma mansoni, and this adaptation to parasitism may be related to lipid metabolism of this wild reservoir.