Stimulation of naive CD8+ T cells by a variant viral epitope induces activation and enhanced apoptosis.

Classically, naive T cells recognize a specific peptide-MHC complex resulting in their activation and differentiation. However, it is known that T cells also have the ability to interact productively with variant ligands, indicating a flexibility in TCR Ag recognition. These altered peptide ligands have been shown to trigger responses ranging from complete activation to full inhibition of T cell responses, and thus may play an important role in initiating or sustaining T cell-mediated immunity.

Transient loss of MHC class I tetramer binding after CD8+ T cell activation reflects altered T cell effector function.

Engagement of the Ag receptor on naive CD8+ T cells by specific peptide-MHC complex triggers their activation/expansion/differentiation into effector CTL. The frequency of Ag-specific CD8+ T cells can normally be determined by the binding of specific peptide-MHC tetramer complexes to TCR. In this study we demonstrate that, shortly after Ag activation, CD8+ T cells transiently lose the capacity to efficiently bind peptide-MHC tetramer complexes.

Frequency, specificity, and sites of expansion of CD8+ T cells during primary pulmonary influenza virus infection.

We have used intracellular cytokine staining and MHC class I tetramer binding in conjunction with granzyme B protease expression and in vivo BrdU uptake to characterize the primary murine CD8(+) T cell response to pulmonary influenza virus infection. We have observed that the majority (>90%) of the CD8(+) T cell response to the A/Japan/305/57 virus in the lung at the peak of the response (days 9-11) is directed to four epitopes (three dominant and one subdominant). Using induction of granzyme B as a surrogate to identify specific activated CD8(+) T cells, we found that an unexpectedly large fraction ( approximately 70%) of lung-infiltrating CD8(+) T cells expressed granzyme B on day 6 of infection when estimates by MHC tetramer/intracellular cytokine staining yielded substantially lower frequencies ( approximately 30%).

Route of immunization with peptide-pulsed dendritic cells controls the distribution of memory and effector T cells in lymphoid tissues and determines the pattern of regional tumor control.

We have established that the route of immunization with peptide-pulsed, activated DC leads to memory CD8+ T cells with distinct distributions in lymphoid tissues, which determines the ability to control tumors growing in different body sites. Both intravenous (i.v.