Early precursor thymocytes can produce interleukin 2 upon stimulation with calcium ionophore and phorbol ester.

T-cell precursors were stimulated with a conventional T-cell mitogen or with the calcium ionophore A23187 in order to determine whether pre-T cells acquire the ability to produce interleukin 2 (IL-2) before they acquire the ability to respond to antigen or mitogenic lectins. Immature T cells were obtained by eliminating mouse thymocytes that expressed the Lyt2 and L3T4 cell surface proteins. The remaining Lyt2-, L3T4- cells were stimulated for IL-2 production by using concanavalin A (Con A) or A23187, together with phorbol 12-myristate 13-acetate (PMA). We found that these "double-negative" thymocytes were unresponsive to Con A plus PMA but produced substantial amounts of IL-2 when stimulated with A23187 plus PMA. In contrast, both stimulation regimens induced more mature T-lymphocyte populations to produce IL-2. This implies that developing T cells acquire the ability to make IL-2 upon induction before they acquire the ability to be triggered by Con A. Day-15 fetal and cortical thymocytes were also tested for their ability to make IL-2. Both populations failed to synthesize this growth factor, even when stimulated with A23187 and PMA. For cortical thymocytes, this result, together with the finding that A23187 plus PMA fails to activate these cells, suggests that this population is immunologically inert rather than immature. On the other hand, the inability of day-15 fetal thymocytes to produce IL-2 indicates that these T-cell precursors are developmentally distinct from adult Lyt2-, L3T4- thymocytes, which they phenotypically resemble.

Proliferation of thymic stem cells with and without receptors for interleukin 2. Implications for intrathymic antigen recognition.

We have tested the dividing cells in the mouse thymus for expression of interleukin 2 (IL-2) receptors (IL-2-R) using the rat monoclonal antibody 7D4. A discrete subpopulation of the lymphoblasts clearly expressed IL-2-R at levels comparable to those on mitogen-activated peripheral T cells. This subpopulation, however, represented a small minority of the proliferating cells. IL-2-R-bearing cells were depleted from the PNA+ (peanut agglutinin) lymphoblast population, which contains the direct precursors of most of the cells in the thymus. The majority of receptor-bearing cells were found in the PNA- lymphoblast population, where they constituted only approximately 12% of the cells. Thus, virtually all the PNA+ and most of the PNA- blast cells were in cycle without detectable IL-2-R expression. This indicates that they were not dividing in response to IL-2, and implies that they were not dividing in response to antigen, but rather to novel thymus-specific mitogenic stimuli. On the other hand, the proliferating cells that do express IL-2-R were enriched 4-5-fold in the rapidly growing neonatal thymus, suggesting that they may also play a key role in T cell development.

The influence of culture conditions on the induction of tyrosine aminotransferase by cyclic nucleotides in rat hepatoma cells.

The increase in tyrosine aminotransferase activity which occurs in rat hepatoma tissue culture (HTC) cells in response to cyclic AMP analogs has been shown to be an enzyme induction, similar to the larger response observed in certain other hepatoma cells and in liver. A specific antibody to tyrosine aminotransferase has been used to show that the number of enzyme molecules and the rate of enzyme synthesis are increased by N6,O2'-dibutyryl cyclic AMP in HTC cells. The effect on tyrosine aminotransferase is also produced by various 8-substituted derivatives of cyclic AMP and occurs whether or not the enzyme has been preinduced with a glucocorticoid. The response of the enzyme is greater when HTC cells are maintained in monolayer than in suspension cultures. Neither cell growth nor serum is required for the response.