Aspectos evolutivos dos fenômenos imunopatológicos com ênfase na COVID-19 / Evolutionary aspects of immunopathological phenomena with emphasis on COVID-19

A seleção natural é o principal mecanismo da evolução das espécies, e favorece fenótipos com defesas imunes efetivas contra patógenos. Entretanto, há uma grande variação das respostas imunes entre os indivíduos da espécie humana e a ocorrência de fenômenos imunopatológicos. A infecção com o vírus da família Coronaviridae, SARS-CoV-2, responsável pela doença conhecida como COVID-19, induz a respostas imunes inflamatórias exacerbadas e à tempestade de citocinas, nos casos graves. Nesta revisão discutiremos, à luz da Evolução, esse aparente paradoxo entre as respostas imunes, e os três principais fatores que contribuem para a manutenção dos fenótipos hiperativos: o custo-benefício das respostas imunes, a coevolução e a história de vida da espécie.

Natural selection is the main mechanism by which species evolve, and it favors phenotypes associated with an effective immune defense against pathogens. However, human immune responses and the occurrence of immunopathological phenomena vary considerably from individual to individual. Infection with SARSCoV- 2, a virus of the Coronaviridae family causing the disease known as COVID-19, induces exacerbated inflammatory immune responses and cytokine storm in severe cases. In this review, we discuss, in the light of Evolution, this apparent paradox between the immune responses and the 3 main factors contributing to the maintenance of hyperactive phenotypes: the cost-effectiveness of immune responses, coevolution, and the life history of the species.

A cell-culturing system for the study of interaction between macrophages infected with leishmania amazonensis

The cell culture insert system is a culturing system for the study of contact-independent cellular communication. Leishmaniasis is a neglect tropical disease with no vaccines and the available drugs present toxic side effects. Studies on Leishmania interaction with host macrophages aim to develop strategies for parasite control and drug development. The purpose of this study was to evaluate the effects of interaction between non-infected and L. amazonensis-infected human macrophages, by using the cell culture system. The results showed that the infection index was reduced by 56.2% as compared to controls only when infected macrophages were inserted on both sides of the Transwell membranes. An improvement in macrophage viability was also observed in this cell culture. The levels of interleukin-1ß, an inflammatory cytokine, and nitric oxide, a microbicidal molecule, did not increase in L. amazonensis-infected macrophage cultures in the Transwell system; thus other soluble factors were responsible for parasite control