Allogeneic T-cytotoxic reactivity of senescent mice: affinity for target cells and determination of cell number

Experiments were performed to determine the cause(s) of the reduced T-cytotoxic-cell response observed in senescent mice. The cytotoxic cells studied developed in mixed lymphocyte cultures (MLC) of 6 × 10⁶ C57B1/6J (H-2^b) spleen cells from mice of various ages which were stimulated by doses of irradiated Balb/c (H-2^d) cells giving responder to stimulator ratios of 10:10 and 10:1. The cytotoxic response, as determined in a ⁵¹Cr-release assay against P815 (H-2^d) mastocytoma cells in culture, declines with age. This age-related decline is more pronounced with the lower dose of stimulator cells (10:1). The cytotoxic response developing in 10:10 and 10:1 MLC of spleen cells from young mice is comparable in magnitude, whereas the lower dose (10:1) is much less stimulatory in cultures of spleen cells from mice above 12 months of age. In order to better understand this age-dependent decline in cytotoxic response, the affinity of effector cells to their target and the percentage of cytotoxic cells which develop in the cultures of spleen cells from mice of various ages were determined. The affinity of cytotoxic cells developing in 10:10 MLC does not change with age. The affinity of cytotoxic cells developing in 10:1 MLC from young mice is significantly higher than the affinity of those developing in 10:10 MLC. This dose-dependent increase in affinity is not apparent in 20-month-old mice, which show equal affinity of cytotoxic cells in 10:10 and 10:1 MLC. The percentage of cytotoxic cells in the cultures was found to decrease with age. This decrease was more pronounced after 10:1 stimulation. Thus the decline with age in cytotoxic response can be attributed to a decrease in number of functional cytotoxic cells developing in MLC cultures, regardless of stimulator cell dose and a decrease in affinity for target cells at low stimulator cell doses.