Abstract
Upon a viral infection, the host immune system attempts to eradicate the virus. However, once the infection threat seems overwhelming, the infected host actively shuts down effector responses to reduce immunopathology. The price to pay for this is the establishment of a chronic infection that is only partially controlled by a lower level immune response. The genetic networks underlying this infection fate decision and the immune adaptation to the lower level response are not well understood. Here we used an integrated approach of gene coexpression network analysis of time-resolved splenic transcriptomes and immunological analysis to characterize the host response to acute and chronic lymphocytic choriomeningitis virus (LCMV) infections. We found first, an early attenuation of inflammatory monocyte/macrophage prior to the onset of T cell exhaustion and second, a critical role of the XCL1-XCR1 communication axis during the functional adaptation of the T cell response to the chronic infection state. These findings not only reveal an important feedback mechanism that couples T cell exhaustion with the maintenance of a lower level of effector T cell response but also suggest therapy options to better control virus levels during the chronic infection phase.
Author Summary The outcomes of viral infections are the result of dynamic interplays between infecting viruses and induced host responses. They can be categorized as either acute or chronic depending on temporal virus-host relationships. Chronic infections are associated with immune exhaustion, a partial shut-down of effector responses. The processes underlying infection fate decisions are incompletely understood. Here we analyzed, on a systems level, infection-fate–specific gene signatures and the resulting adaptive processes of the host. We used the well-established lymphocytic choriomeningitis virus infection mouse model which has been instrumental to detect many fundamental processes in the virus-immune system crosstalk that are also relevant in human infections. We show an early attenuation of macrophage-mediated inflammation and an involvement of cross-presenting dendritic cells in the maintenance of an antiviral cytotoxic T cell response and virus control in the chronic infection phase. Together our data demonstrate a delicate adaptation process towards a chronic virus infection with both immunosuppressive and immunostimulatory processes. We fill a knowledge gap regarding the mechanisms of effector T cell maintenance and provide a new rational for targeted therapeutic vaccination.
