These authors contributed equally to this work. AbstractMayaro virus (MAYV) is an emergent Arbovirus belonging to the Alphavirus genus from the Togaviridae family which has been circulated in forest regions of American continent through small outbreaks. Recent studies warned for the risk of MAYV dispersion to new areas and for the potential establishment of an urban epidemic cycle.Similar to Chikungunya and other arthritogenic Alphavirus, MAYV-induced disease shows a high prevalence of arthralgia and myalgia that can persist for months. Despite this, knowledge regarding pathogenesis, characteristics of host immune response, and resolution of MAYV infections are still limited. Here we investigated the dependence of age, innate and adaptive immunity for the control of MAYV replication and induction of inflammation in mice. We observed that age and type I interferon response are related to restriction of MAYV infection and tissue inflammation in mice. Moreover, we showed that MAYV continues to replicate persistently in adult recombination activation gene-1 efficient mice (RAG1 -/-), indicating that adaptive immunity is essential to MAYV clearance. Despite chronic replication, infected adult RAG1 -/mice did not develop an apparent signal of muscle damage at late infection. On the other hand, MAYV infection induces muscular and paw inflammation in young WT and adult Type I Interferon receptor deficient mice (IFNAR -/-). In addition, MAYV infection triggers an increase in the expression of pro-inflammatory mediators, such as TNF, IL-6, KC, IL-1β, MCP-1, and RANTES, in muscle tissue, and decreases TGF-β expression.Taken together, our study contributes to the comprehension of MAYV pathogenesis, and describes a translational mouse model for further studies of MAYV infection, as well for testing vaccine and therapeutic strategies against this virus. Author SummaryMAYV-induced disease presents a high prevalence of arthralgia and myalgia that potentially persist for months, which is characteristic of the arthritogenic Alphavirus group. However, information regarding MAYV infection and the molecular mechanism of pathogenesis is still scarce. Here we investigated the dependence of age, innate and adaptive immunity for the control of MAYV replication and induction of inflammation in mice. We observed that tissue inflammation and the restriction of MAYV replication in mice are affected by aging and type I interferon response. Besides, we also showed that adaptive immunity was important for MAYV clearance in adult mice. Histological analyses demonstrated that MAYV replication triggered muscular and paw inflammation in young WT and adult type-I interferon receptor deficient mice. In addition, the level of expression of several pro-inflammatory cytokines was increased in the muscle MAYV-infected mice. Our data provide an advance for understanding the molecular mechanism involved in MAYV pathogenesis, as well as describes an in vivo model for further investigations on MAYV infection and for antiviral compounds and vaccine testing.
Mayaro virus (MAYV) is a tropical arbovirus first described in forest regions of the South America, and recently associated with urban circulation. Mayaro infections leads to a disease with high rate of persistent arthralgia and myalgia in humans. Despite this, pathogenesis and host immune response of MAYV infections are still limited. The aim of this work was to evaluate the immune response and cell profile during MAYV infections. We developed a disease model infecting SV129 wild-type (WT), SVA129 Type I Interferon receptor deficient (IFNAR−/−), C57BL/6 WT and C57BL/6 recombination activation gene-1 deficient (RAG−/−) mice, and accessing replication, tissue damage, and inflammation through time. While adult WT mice are resistant to infection, IFNAR−/− mice exhibited increasing viral load up to 6 days after infection, footpad swelling, lethargy and weight loss. Histological analysis showed extensive necrosis sites in infected IFNAR−/− mice and also presence of mononucleated cell infiltrate. We detected elevated expression of inflammatory cytokines like TNF, IL-6, KC, IL-1, MCP-1 and RANTES, and decreased TGF-beta in infected muscle. In RAG−/− mice, MAYV infection lead to a persistent replication being detected at blood and tissues up 40 days post infection. However, infected RAG−/− mice did not develop any signs of muscle damage or infiltrate during early and late infection and neither the expression inflammatory cytokines. So far, our data demonstrates that innate and adaptive immunity are critical to restrict MAYV replication. Adaptive immunity is also involved in MAYV-induced tissue damage. These results contribute in underlying MAYV pathogenesis and further experiments must to be made to elucidate the mechanisms involved.
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