Abstract
Trypanosoma brucei, Leishmania spp., and T. cruzi are flagellate protozoans of the family Trypanosomatidae and the causative agents of human African trypanosomiasis, leishmaniasis, and Chagas disease, respectively. These diseases affect humans worldwide and exert a significant impact on public health. Over the course of evolution, the parasites associated with these pathologies have developed mechanisms to circumvent the immune response system throughout the infection cycle. In cases of human infection, this function is undertaken by a group of proteins and processes that allow the parasites to propagate and survive during host invasion. In T. brucei, antigenic variation is promoted by variant surface glycoproteins and other proteins involved in evasion from the humoral immune response, which helps the parasite sustain itself in the extracellular milieu during infection. Conversely, Leishmania spp. and T. cruzi possess a more complex infection cycle, with specific intracellular stages. In addition to mechanisms for evading humoral immunity, the pathogens have also developed mechanisms for facilitating their adhesion and incorporation into host cells. In this review, the different immune evasion strategies at cellular and molecular levels developed by these human-pathogenic trypanosomatids have been discussed, with a focus on the key molecules responsible for mediating the invasion and evasion mechanisms and the effects of these molecules on virulence.
Highlights
Trypanosomatids are flagellate protozoans that can infect several types of hosts, including insects and vertebrates from different orders, in their monoxenous and dixenous forms, respectively (Nussbaum et al, 2010; Kaufer et al, 2017)
While visceral or cutaneous leishmaniasis affects individuals worldwide (Africa, Asia, Europe, and America), Chagas disease has been primarily reported in the Americas (Central, South, and North America, and mostly in Mexico), whereas human African trypanosomiasis (HAT) has been mostly reported in African countries
A2 downregulation decreased visceralization in mouse liver cells (McCall et al, 2013), whereas amastin knockdown impaired parasite growth and attenuated the effects of the disease. These results indicate that certain virulence factors may be more important for parasite survival and maintenance of infection than others, it is difficult to find a factor as important as variant surface glycoprotein (VSG) is for T. brucei
Summary
Trypanosomatids are flagellate protozoans that can infect several types of hosts, including insects and vertebrates from different orders, in their monoxenous and dixenous forms, respectively (Nussbaum et al, 2010; Kaufer et al, 2017). Certain members of the genera Trypanosoma and Leishmania from the family Trypanosomatidae are causative agents of serious diseases in humans and have been associated with severe effects on public health globally. Trypanosoma brucei and T. cruzi cause human African trypanosomiasis (HAT) and Chagas disease, respectively. Leishmania parasites cause visceral and cutaneous leishmaniasis (Nussbaum et al, 2010; Kaufer et al, 2017; Mitra and Mawson, 2017). Frontiers in Cellular and Infection Microbiology | www.frontiersin.org de Castro Neto et al
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