Respiratory virus infection evokes a potent T-cell response that may result in a considerable insult to the structural and functional integrity of the gas exchange units of the lung. Alveolar antigen recognition by CD8+ T lymphocytes results in significant injury that is critically dependent upon tumor necrosis factor (TNF)-α expressed by the CD8+ T cells and is largely dependent upon TNF-receptor 1 expression on the alveolar epithelial target cells. TNF-receptor 2 (TNF-R2)-deficient mice were used to demonstrate that CD8+ T-cell–mediated lung injury associated with clearance of experimental influenza requires TNF-R2 for full expression of immunopathology. In vitro analysis indicates that alveolar cell expression of TNF-R2 is critical in the induction of epithelial monocyte chemoattractant protein (MCP)-1 expression specifically in response to soluble TNF-α, suggesting an important role for this receptor in bystander lung injury. However, TNF-R2 was dispensable for induction of alveolar MCP-1 expression in response to transmembrane TNF-α expressed by antigen-specific CD8+ T cells, and the effects of the two receptors seem to be additive. Because TNF-R2 may be rapidly shed as part of feedback inhibition of bystander inflammation, this suggests a mechanism by which immunopathology in respiratory virus infection may be regulated and by which T-cell receptor–dependent TNF-α activity might bypass such negative regulation for contact-dependent antiviral activities.