The development and resolution phases of influenza-specific CD8(+) T cell cytokine responses to epitopes derived from the viral nucleoprotein (D(b)NP(366)) and acid polymerase (D(b)PA(224)) were characterized in C57BL/6J mice for a range of anatomical compartments in the virus-infected lung and lymphoid tissue. Lymphocyte numbers were measured by IFN-gamma expression following stimulation with peptide, while the quality of the response was determined by the intensity of staining and the distribution of CD8(+) T cells producing TNF-alpha and IL-2. Both the levels of expression and the prevalence of TNF-alpha(+) and IL-2(+) cells reflected the likely Ag load, with clear differences being identified for populations from the alveolar space vs the lung parenchyma. Irrespective of the site or time of T cell recovery, IL-2(+) cells were consistently found to be a subset of the TNF-alpha(+) population which was, in turn, contained within the IFN-gamma(+) set. The capacity to produce IL-2 may thus be considered to reflect maximum functional differentiation. The hierarchy in cytokine expression throughout the acute phase of the primary and secondary response tended to be D(b)PA(224) > D(b)NP(366). Both elution studies with the cognate tetramers and experiments measuring CD8 beta coreceptor dependence for peptide stimulation demonstrated the same D(b)PA(224) > D(b)NP(366) profile for TCR avidity. Overall, the quality of any virus-specific CD8(+) T cell response appears variously determined by the avidity of the TCR-pMHC interaction, the duration and intensity of Ag stimulation characteristic of the particular tissue environment, and the availability of CD4(+) T help.