Culture and propagation ofHprt mutant T-lymphocytes isolated from mouse spleen

Abstract

The optimization of the mouse lymphocyte Hprt mutation assay has been impeded by the relatively poor growth potential of mouse T-cells in vitro, which leads to low cloning efficiencies (CEs) and limited expansion of Hprt mutant clones for molecular analysis of mutations occurring in control and treated mice. In this study, the addition and manipulation of concanavalin A (Con A), mouse interleukin-2 (IL-2), and a commercially available culture supplement, rat T-STIM with Con A, were used to identify growth conditions producing relatively high CEs for mouse T-cells. Supplementation of medium with 10% rat T-STIM, along with appropriate amounts of Con A for priming and exogenous IL-2 for cloning, resulted in average CEs of 15-16% in lymphocytes isolated from spleens of control mice (n = 32) or mice exposed to 1,3-butadiene (n = 27). In addition, several reagents were assessed for their potential to stimulate long-term growth of Hprt mutant clones; these T-cell stimulatory agents included Con A, phytohemagglutinin, and a calcium ionophore ionomycin combined with a tumor promoter phorbol 12-myristate 13-acetate. In a pilot study, stimulation with Con A proved to be the most effective means for propagating mouse T-cell clones under the various conditions tested. In follow-up experiments, transfer of mutant clones to 24-well plates and repeated stimulation with Con A in IL-2 and rat T-STIM supplemented medium was found to expand 76% of 536 mutant clones to about 400,000 to several million cells per clone. These data indicate that rat T-STIM-supplemented medium enhances the initial outgrowth of mouse T-cells, and that repeated mitogenic stimulation with Con A in the presence of IL-2 and rat T-STIM provides a means for propagating mouse T-cell clones for mutation analyses by a variety of methods.