Dehydroepiandrosterone(DHEA), a predominant androgen secreted by the adrenal cortex, and dehydroepiandrosterone sulfate (DHEAS). Its predominant form in serum, were investigated for their role in the regulation of transforming growth factor-beta (TGF beta) production by murine macrophages. Using a bioassay based on the growing inhibition to Mv-1-Lu cells and RT-PCR analysis, the effect of DHEA and DHEAS on the TGF-beta production and gene expression was studied. Results suggested that DHEA at relatively high concentration (10 microM) significantly induced TGF-beta secretion by both peritoneal cells and P388D1 macrophage-like cells. For the cells treated with DHEAS, no significant increase in TGF-beta secretion was found statistically. Result of RT-PCR confirmed the observation that cDNA from the cells pretreated with DHEA generated a significant amount of amplicons but cDNA samples obtained from both control cells and DHEAS-treated cells showed relatively weak signals. In a quantitative RT-PCR analysis, both DHEAS-treated cells and control cells failed to compete with internal standards and failed to produce any detectable amplicons. Dexamethasone, one of the commonly used glucocorticoids, induced an increase in TGF-beta secretion and in mRNA level. Dexamethasone and DHEA failed to show a synergistic effect on the DHEA-induced increase in TGF-beta secretion and gene expression. The biological significance for DHEA to act as a positive stimulator for TGF-beta production and its role in glucocorticoid-mediated immunoregulation needs to be further delineated.