NK Cells Accumulate in Infected Tissues and Contribute to Pathogenicity of Ebola Virus in Mice.

Understanding the immune parameters responsible for survival following Ebola virus (EBOV) infection is paramount for developing countermeasures. In lethal EBOV infections, levels of both NK and T cells decline drastically in the circulation and lymphoid tissues before death. However, the fate of these lymphocytes in viral replication sites remains unknown. In this study, reverse transcription-PCR (RT-PCR) and fluorescence-activated cell sorting (FACS) analysis were used to investigate lymphocyte frequencies in various infected mouse tissues after challenge with mouse-adapted EBOV (MA-EBOV). A decrease in NK cell numbers from systemic circulation was observed concomitant to an increase of these cells in tissues that are supporting active replication of EBOV. Unexpectedly, NK accumulation in virus replication sites correlated with enhanced EBOV disease progression in specific conditions; at a high challenge dose, NK-depleted mice displayed lower viremia and liver damage and higher hepatic T cell levels. Upregulation of UL16 binding protein 1 (ULBP-1) was detected in hepatic T cells, suggesting that NK cells participate in their elimination. Overall, this study supports the concept that NK cells accumulate in EBOV-infected tissues and can contribute to viral pathogenicity.IMPORTANCE Ebola virus (EBOV) outbreaks can claim numerous lives and also devastate the local health infrastructure, as well as the economy, of affected countries. Lethal EBOV infection has been documented to decrease the levels of several immune cells in the blood that are necessary to defend the host. This decrease in immune cells is, however, not observed in individuals who survive EBOV infection. Having a better grasp of how these immune cells are lost is therefore of high importance to develop and improve new and existing therapeutics. The significance of our research is in identifying the mechanism responsible for the apparent loss of immune cells in lethal EBOV infection. This will allow therapeutic options aimed at preventing the loss of these immune cells, therefore allowing infected individuals to better fight the infection.

Ebola virus infection induces autoimmunity against dsDNA and HSP60.

Ebola virus (EBOV) survivors are affected by a variety of serious illnesses of unknown origin for years after viral clearance from the circulation. Identifying the causes of these persistent illnesses is paramount to develop appropriate therapeutic protocols. In this study, using mouse and non-human primates which survived EBOV challenge, ELISA, western blot, mass spectrometry and flow cytometry were used to screen for autoantibodies, identify their main targets, investigate the mechanism behind their induction and monitor autoantibodies accumulation in various tissues. In infected mice and NHP, polyclonal B cell activation and autoantigens secretion induced autoantibodies against dsDNA and heat shock protein 60 as well as antibody accumulation in tissues associated with long-term clinical manifestations in humans. Finally, the presence of these autoantibodies was confirmed in human EBOV survivors. Overall, this study supports the concept that autoimmunity is a causative parameter that contributes to the various illnesses observed in EBOV survivors.