T Cell–Dendritic Cell Interaction Dynamics during the Induction of Respiratory Tolerance and Immunity

Abstract

Dendritic cells (DCs) residing in the lung are known to acquire inhaled Ag and, after migration to the draining bronchial lymph node (brLN), to present it to naive T cells in an either tolerogenic or immunogenic context. To visualize endogenous lung-derived DCs, we applied fluorescent latex beads (LXs) intratracheally, thereby in vivo labeling the majority of phagocytic cells within the lung. Of note, LX-bearing cells subsequently arriving in the draining brLN were found to represent lung-derived migratory DCs. Imaging explanted brLN by two-photon laser-scanning microscopy, we quantitatively analyzed the migration and interaction behavior of naive CD4+ T cells and endogenous, lung-derived DC presenting airway-delivered Ag under inflammatory or noninflammatory conditions. Ag-specific naive CD4+ T cells engaged in stable as well as transient contacts with LX-bearing DCs in both situations and displayed similar overall motility kinetics, including a pronounced decrease in motility at 16–20 h after antigenic challenge. In contrast, the comparative analysis of T cell–DC cluster sizes as well as contact durations strongly suggests that lung-derived migratory DCs and naive CD4+ T cells form more stable, long-lasting contacts under inflammatory conditions favoring the induction of respiratory immunity.