The functionally distinct subpopulations of human CD4+ helper/inducer T lymphocytes defined by anti-CD45R antibodies derive sequentially from a differentiation pathway that is regulated by activation-dependent post-thymic differentiation.

The CD4+ helper/inducer T cell population is comprised of functionally distinct subsets identifiable by the HB11 (anti-CD45R) mAb. We have previously shown that the cells that provide help for antibody production express the CD4+CD45R- phenotype. In contrast, CD4+ CD45R+ cells have minimal, if any, helper cell functions; rather, these cells function as inducers of Ts cell activity. The lineal relationship of these phenotypically and functionally distinct CD4+ subsets is unknown. In the present studies, we have examined the hypothesis that the CD4+ subpopulations identifiable with anti-CD45R antibodies represent "virgin" or "memory" T cells sequentially derived from a common differentiation pathway but differing in their relative maturation. When freshly purified cells were tested, CD4+ CD45R+ cells had no Th cell function. However, after in vitro activation with PHA and propagation in IL-2, CD4+CD45R+ cells acquired the ability to provide help for antibody production. Moreover, this functional acquisition by these cells was accompanied by their conversion to the CD4+CD45R- phenotype. Analyses of the activation, growth kinetics, and functional dose-response characteristics of CD4+CD45R+ and CD4+CD45R- cells demonstrated that our findings did not result from the selective growth of CD4+ CD45R- cells contaminating the CD4+CD45R+ preparations. Thus, these data demonstrate that the "helper" and "suppressor-inducer" subsets of CD4+ cells identified by anti-CD45R antibodies are not comprised of fully mature, phenotypically and functionally stable T cells. Rather, these CD4+ subsets appear to represent cells at different maturational stages of an activation-dependent, post-thymic differentiation pathway.