Elevated temperature has profound effects on the immune system, particularly by increasing T-cell proliferation rates, interleukin 1 (IL-1)-driven secretion of IL-2, and primary antibody responses to T-dependent antigens. Therefore, this study shows, in detail, the effects of incubation temperature (29 degrees C to 41 degrees C) on proliferation, IL-2 secretion, and IL-2 mRNA expression in both a murine thymoma cell line (EL4-6.1) and in nontransformed murine splenocytes. Temperature was found to be a positive regulator of IL-2 secretion whether or not IL-1 was part of the activation signal. Parallel effects were observed at the level of IL-2 gene expression. Messenger RNA was quantitated with a novel system, using solution hybridization followed by detection of RNA-DNA complexes by enzyme immunoassay. The time to onset of IL-2 mRNA expression was inversely related to temperature, and mRNA levels increased 20- to 50-fold with increases in average incubation temperature from 29 degrees C to 39 degrees C. This effect was observed whether cells were incubated at constant temperature or exposed intermittently to elevated temperature. Over the same intervals of time and temperature, mRNA levels for tau-actin and beta-tubulin remained relatively constant. Taken together, these findings suggest that temperature-mediated augmentation of IL-2 secretion does not require the presence of IL-1, and that the effect occurs at a pretranslational level.