Tissue Damage Caused by Impaired Phagocytosis of Dead Cells: A Previously Unrecognized Adverse Effect Contributing to the Pathogenesis of γδ T Cells in Pneumonia.

IL-17 plays a critical role in the immunological control of various infectious diseases; its function has been investigated in the removal of both extracellular and intracellular bacteria. Our group previously revealed the importance of IL-17 in neutrophil migration following infection by using IL-17AF knockout mice; however, aside from neutrophil infiltration, alternative causes for the reduced survival of these mice have not been characterized. In this study, we found that γδ T cells in IL-17AF knockout mice were markedly increased and produced the cytotoxic substances granzyme B and perforin. Moreover, the elimination of γδ T cells from these mice, via an anti-TCRδ Ab, caused a substantial reduction in the level of lactate dehydrogenase in bronchoalveolar lavage fluid, indicating that γδ T cells contribute to lung tissue damage. Moreover, although cells lysed by cytotoxic substances are typically eliminated by phagocytic cells, in IL-17AF knockout mice, lung homeostasis was not maintained because of a decrease in phagocytic cells that impaired the clearance of dead cells. Our results indicate that increased γδ T cells in IL-17AF knockout mice help eliminate by releasing cytotoxic substances and lysing infected cells; however, this results in tissue damage due to insufficient removal of dead cells by phagocytic cells. This study enhances our understanding of the protective response against and provides insights into γδ T cell-mediated protective immunity against various infectious diseases.