(893) The Role of Pathogen-Restricted Paracrine Protection by T cells in Controlling Viral Infection

Introduction/Rationale: It is critical for the immune system to destroy cells harboring intracellular infection to remove pathogen burden. This function is widely attributed to cytotoxic T cells, which can physically engage with their targets through the T cell receptor complex, releasing cytotoxic granules, resulting in a specific death of infected targets. However, effector cytokines tumor necrosis factor-α (TNF) and interferon-γ (IFNγ), secreted by T cells, are themselves cytotoxic in combination to a degree. While TNF has appreciated cell death function through the TNF receptor 1 (TNFR1) signaling pathway, no clear cytotoxic function is attributed to IFNγ. Because of the diffusible nature of these cytokines, it is possible for T cells to elicit cytotoxicity without requiring direct contact with their targets, termed paracrine killing. Whether paracrine killing occurs during viral infection and how it is regulated is unclear. Paracrine killing poses issues of both sensitivity to these cytokines in that high concentrations of these cytokines are needed to affect target cells, as well as specificity in discriminating infected from uninfected host cells. Accounting for both issues, we hypothesize that paracrine killing is elicited through pathogen restriction whereby only infected cells are susceptible to death.

Methods: Analysis was performed in vitro using the Incucyte live cell imaging system and Western blots with fibroblast targets and a VSV infection model and OT1 T cells were leveraged ex vivo.

Results: TNF and IFNγ protect cells against the cytopathic effect of the virus. TNF specifically synergizes with VSV resulting in death of the infected cells and the two cytokines have distinct roles that work in concert. We demonstrate that TNF and IFNγ released by activated T cells suppress viral infection of nearby cells in a paracrine manner.

Conclusion: Here we provide insight and context into how distinct cytokines function in a cooperative manner for immune protection during an infection.