Abstract
Ebola virus has been responsible for two major epidemics over the last several years and there has been a strong effort to find potential treatments that can improve the disease outcome. Antiviral favipiravir was thus tested on non-human primates infected with Ebola virus. Half of the treated animals survived the Ebola virus challenge, whereas the infection was fully lethal for the untreated ones. Moreover, the treated animals that did not survive died later than the controls. We evaluated the hematological, virological, biochemical, and immunological parameters of the animals and performed proteomic analysis at various timepoints of the disease. The viral load strongly correlated with dysregulation of the biological functions involved in pathogenesis, notably the inflammatory response, hemostatic functions, and response to stress. Thus, the management of viral replication in Ebola virus disease is of crucial importance in preventing the immunopathogenic disorders and septic-like shock syndrome generally observed in Ebola virus-infected patients.
Highlights
West Africa suffered from the biggest Ebola virus (EBOV) epidemic to date between 2014 and 2016, resulting in 28,652 cases and 11,325 deaths
Ebola virus was responsible for several epidemics in the recent years and is considered as a major public health concern in Central and West African countries
We and others demonstrated that pathogenic events observed during Ebola virus disease are linked to a deleterious immune response
Summary
West Africa suffered from the biggest Ebola virus (EBOV) epidemic to date between 2014 and 2016, resulting in 28,652 cases and 11,325 deaths. This led the WHO to launch a fast-track process to identify potential drug treatments against EBOV. In this context, favipiravir was tested for its benefit against EBOV infection. The measured plasma concentrations of favipiravir were lower than expected, which could have affected treatment efficacy [1,2]. The efficacy of favipiravir against EBOV infection has been evaluated in non-human primates (NHPs), the gold standard model for in vivo pathogenesis studies [3]. The reason why the reduction of virus replication did not allow a better improvement of survival was not fully elucidated
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