Does the age-related change in CD44-defined T-cell subsets have functional significance for cytotoxic T lymphocyte generation?

CD44 or Pgp-1 is a transmembrane leukocyte adhesion-related glycoprotein which is often expressed in greater density on the membranes of memory T lymphocytes (CD44 hi) compared to naive T cells (CD44 lo). The proportion of Pgp hi or CD44 hi cells among T cells is increased with advancing age. We examined the relevance of this alteration for the age-related decrease in the generation of allospecific CTL activity. The findings confirm the age-related increase in the frequency of CD44 hi cells in spleens of aged mice of several strains, but also show inter-strain variability in the magnitude of the increase (bm1 > C57BL/6 > BALB/c). In contrast, we found that after allo-stimulation, the proportion of cells bearing the memory phenotype is decreased in cells from aged mice, particularly within the CD8 + T cell subset. To determine if these observations reflected an alteration in the frequency or responsiveness of naive T cells, enriched populations of spleen cells depleted of CD44 hi cells were prepared from spleen cells of young and aged mice, and stimulated in mixed lymphocyte culture. Enrichment for cells expressing the naive phenotype did not restore the ability of T cells from aged mice to generate allospecific CTL. Together, these findings suggest that (1) the age-related increase in frequency of splenic T cells expressing memory phenotype and concordant decrease in phenotypically naive cells, does not explain the age-related decrease in the ability to generate primary allo-CTL, and (2) naive cells from aged mice exhibit intrinsically compromised ability to generate CTL in response to primary alloantigenic stimulation.