Previous investigations have revealed that dietary nucleotide restriction delays the onset of primary murine cardiac allograft rejection and acute graft-versus-host disease followed H-2-incompatible bone marrow transplantation, suppresses sensitization to intradermally injected antigens and suppresses in vivo and in vitro lymphocyte proliferation to alloantigen or lectin stimulation. To determine the mechanisms responsible for these phenomena, BALB/c mice were placed on chow (F), nucleotide free (NF) diet, or NF diet supplemented with 0.25% RNA (NFR), with 0.6% adenine (NFA), or with 0.06% uracil (NFU). Following four weeks of dietary equilibrium, splenic lymphocytes harvested from naive or immunostimulated mice in the various dietary groups were stained with monoclonal antibodies directed Lyt 1, Lyt 2, 3, or surface mouse immunoglobulin (IgG) surface markers. While naive animals demonstrated no differences in lymphocyte subpopulations between groups, following complete Freund's adjuvant (CFA) stimulation, splenic lymphocytes for NF mice demonstrated 27.3 +/- 1.7% Lyt 1+ cells compared with F (32.6 +/- .04%) and NFR mice (33.2 +/- 1.2%) (P less than 0.02). Restriction of dietary nucleotides affected not only phenotypes of T lymphocytes, but also T cell function. Following conconavalin A stimulation of irradiated splenic lymphocytes, IL-2 production was decreased in NF mice compared with the F control group (P less than 0.01). The RNA-repleted diet maintained normal IL-2 production, while addition of adenine or uracil alone did not. Finally, NF diets adversely affected host resistance to the opportunistic pathogen Candida albicans. Following inoculation with 0.25 X 10(6) organisms NF or NFA-fed hosts succumbed more rapidly than F, NFR, or NFU fed hosts (P less than 0.001). These data suggest that helper/inducer T lymphocytes require exogenous nucleotides to respond normally following immune stimulation. Uracil may be the critical substrate, based upon the studies of Candida resistance. By understanding the metabolic basis of NFD-induced immunosuppression, the role of dietary nucleotides in combatting infection and alloantigen rejection can be more clearly defined.