Effects of short-term administration of sex hormones on normal and autoimmune mice.

Abstract

The effects of short-term administration (2 to 4 wk) of sex hormones on the immune system of normal (C57BL/6) and autoimmune (C57BL/6-lpr, C3H/lpr, B/W) strains of mice were investigated. Both estrogen (E2) and testosterone (Te) had significant effects on the numbers of T and B cells as well as on the density of cell surface antigens as demonstrated by flow cytometry. For example, Te depleted Thy-1.2+ thymocytes in normal mice and brought about a shift to lower density cells. Lyt-2+ cells appeared to be the main target cells of hormonal modulation in normal and autoimmune mice. Both sex hormones significantly depleted these cells in the thymus but had differential effects in the peripheral lymphoid organs, particularly in the spleen. In general, E2 depleted Lyt-2+ cells, whereas Te increased or maintained this subpopulation of cells in spleen and lymph nodes. Similarly, the suppressor cell activity and IL 2 production on a per cell basis in E2-treated animals was diminished, whereas Te-treated animals had normal or enhanced activity. The relevance of these findings to differential sex susceptibility in autoimmune diseases is discussed.