Abstract Active immune suppression can mediate the balance between protective cellular immunity and harmful immunopathology. This suppression can occur locally, at an infection site, or in regional draining lymph nodes (dLN). Immune regulation is of particular importance in sites such as the lung where aberrant immunopathology can result in loss of tissue function. We have recently identified a novel population of CD11b+CD103+CCR2+monocyte-derived dendritic cells (moDCs) which directly suppress CD8+ T cell proliferation in vitro. Respiratory infection with RNA viruses recruits these moDCs either exclusively to the dLN (after vesicular stomatitis virus infection) or both the dLN and site of viral replication (after influenza infection). Exclusive depletion of moDCs from the dLN using CCR2-DTR bone marrow chimeras results in enhanced respiratory CD8+ lung tissue resident memory cell formation. By contrast, depletion of moDCs from both the dLN and respiratory tract following influenza infection results in enhanced respiratory CD8+ T cell responses coupled with fatal immunopathology. Together, these data suggest that suppressive moDCs govern key aspects of respiratory immunity by regulating the function and development of long-lived CD8+ T cells, thereby balancing immunity and adverse pathology in the context of viral infection. Ongoing experiments seek to uncouple moDC interactions with CD8+ T cells in specific sites in order to better understand, and potentially beneficially modulate, CD8+ T cell immunity within the lung.