Maturation of CD4+ Lymphocytes in the Aged Microenvironment Results in a Memory-Enriched Population

Abstract

AbstractWith advancing age the CD4+ T lymphocyte compartment becomes enriched for memory cells in both humans and experimental animals. Although it has been assumed that the shift from a naive to a memory-dominant population is due to a lifetime of antigenic exposure and selection as well as a loss of naive cell input due to reduced thymopoiesis, the present data suggest that the aged microenvironment influences the maturation of newly produced CD4+ T cells. In two models, aged and young mice were compared for the ability to reconstitute their peripheral CD4+ T cell pools following depletion, and both age groups were found to be competent to renew this population. However, the phenotype and lymphokine profile of populations arising in aged animals were distinctly different from those in the young mice. In contrast to the expectation that depletion and reconstitution might give rise to a naive-dominant T cell pool, aged mice reconstituted a population nearly indistinguishable from that found in control age-matched individuals. The majority of the CD4+ pool were CD44high CD45RBlow Mel-14low and upon activation with anti-CD3 these CD4+ T cells produced mRNA for IL-2, IL-4, IL-5, and IFN-γ. In aged bone marrow-transplanted mice, the same phenotypic profile and cytokine mRNA pattern were found in CD4+ T cells of host and donor origin. In contrast, the majority of CD4+ T cells in young reconstituted mice were CD44low CD45RBhigh Mel-14high. These lymphocytes, when activated, produced high levels of mRNA for IL-2, with little or no IL-4, IL-5, or IFN-γ mRNA.