Analysis of CD3 and antigen receptor expression on T cell subpopulations of aged athymic mice

Abstract

The expression of the T cell antigen receptor on subpopulations of extrathymically generated T cells from athymic mice was investigated and compared to antigen receptor expression in normal mice. To this end, spleen and lymph node cells from 18 individual athymic BALB/c nu/nu mice between 6 and 12 months of age and from normal controls were enriched for T cells by nylon wool filtration. Expression of the following cell surface markers was analyzed by two-color flow cytometry: Thy-1, CD4, CD8, V_β8 and CD3. The distribution of subpopulations as defined by these markers varied much more among athymic than among normal mice. Some recurrent patterns did, however, occur that may be characteristic of the extrathymic pathway of T cell differentiation in nu/nu mice. Among Thy-1.2⁺ cells, CD8⁺ cells predominated over CD4⁺ cells. No CD4⁺8⁺ “double positive” cells were found, but CD4^-8^- “double negative” cells constituted 16% on average. All nu/nu nylon wool-nonadherent cells expressing Thy-1 at a normal level also expressed CD3, whereas Thy-1^low and Thy-1^- cells were CD3^-. The fraction of V_β8 T cells among the CD4⁺ and CD8⁺ subsets was near to normal in the majority of these animals. Most interestingly, the density of V_β8 and CD3 expression was lower in athymic than in euthymic animals. This level of T cell antigen receptor expression was, however, higher than on immature CD4⁺8⁺ thymocytes. A fraction of the nude T cells presently characterized responded with proliferation to both anti-T cell receptor V_β8 monoclonal antibody and to concanavalin A. Despite their apparently normal phenotype (with the exception of reduced T cell receptor expression), this response was, however, 4 to 10 times smaller than that of normal control cells. The presently described Thy-1⁺ T cell receptor intermediate cells may either be a(n) aberrant lineage(s) only generated extrathymically, or represent the accumulation of an immature intermediate stage of normal (i.e. thymic) T cell differentiation.