Effector T cells control lung inflammation during acute influenza virus infection by producing IL-10

Activated antigen-specific T cells produce a variety of effector molecules for clearing infection, but also contribute significantly to inflammation and tissue injury. Here we report an anti-inflammatory property of anti-viral CD8(+) and CD4(+) effector T cells (Te) in the infected periphery during acute virus infection. We find that, during acute influenza infection, IL-10 is produced in the infected lungs at high levels -- exclusively by infiltrating virus-specific Te, with CD8(+) Te contributing a larger fraction of the IL-10 produced. These Te in the periphery simultaneously produce IL-10 and proinflammatory cytokines, and express lineage markers characteristic of conventional Th/c1 cells. Importantly, blocking the action of the Te-derived IL-10 results in enhanced pulmonary inflammation and lethal injury. Our results demonstrate that anti-viral Te exert regulatory functions -- that is, fine-tune the extent of lung inflammation and injury associated with influenza infection by the production of an anti-inflammatory cytokine. The potential implications of these findings for infection with highly pathogenic influenza viruses are discussed.