In vivo administration of IL-1 induces thymic hypoplasia and increased levels of serum corticosterone.

Abstract

Administration of IL-1 alpha or IL-1 beta to normal mice induces a decrease in thymic cellularity, the magnitude of which depends on the number of injections and dose of IL-1. Twice daily injections of 200 ng of IL-1 alpha or -beta for 4 days results in a 90% decrease in thymic cellularity, which regenerated after cessation of treatment. Study of thymocyte subpopulations revealed that the number of CD4+/CD8+ thymocytes was dramatically decreased in IL-1-treated mice. Functional assessment of the CD4-/CD8- population from treated animals showed that these cells had adequate mitogenic responses in vitro and that the proportion of these cells in cycle was not different from control CD4-/CD8- cells. IL-1 treatment also prevented the regeneration of thymic cellularity after irradiation. The use of strains of mice differing genetically at the Ly 1 locus to construct radiation bone marrow chimeras demonstrated that bone marrow-derived thymocyte precursors were able to seed the thymus in the IL-1-treated animals. Again, however, the CD4+/CD8+ thymocyte population was significantly decreased. Thymic repopulation occurred upon cessation of IL-1 therapy. Finally, we determined that a single i.p. injection of IL-1 caused a three-fold increase in serum corticosterone levels, which peaked approximately 3 h after IL-1 administration. Thus, an IL-1-dependent increase in serum corticosterone levels may be responsible for the observed thymic hypoplasia.