Lien vers Pubmed [PMID] – 1331237
J. Immunol. 1992 Dec;149(11):3463-7
Accessory cells present Ag together with costimulatory signals as immunogens and without costimulatory signals as tolerogens. Responsiveness and unresponsiveness are thus alternatives of T cell immune reactions to Ag. Superantigens appear to make an exception; being presented by accessory cells capable of providing costimulatory signals, these Ag induce a strong T cell response but leave T cells unresponsive to a secondary challenge (anergy). We show here that T cell anergy is not a mandatory consequence of superantigen-induced activation. Mls-1- BALB/c recipients of DBA/2 spleen cells mount vigorous Mls-1 responses in vivo but their T cells retain the ability to respond to a subsequent Mls-1 challenge in vitro. We tested the possibility that the inability of DBA/2 spleen cells to inactivate Mls-1-reactive BALB/c T cells was the result of excessive costimulatory activity provided by Mls-1+ DBA/2 B cells. Costimulatory accessory cell activity has been reported to be destroyed by UV light. We exposed superantigen-presenting cells to UV radiation and found that they had lost the ability to stimulate an Mls-1 response without, however, gaining the capacity to render Mls-1-specific T cells anergic. Despite their inability to noticeably stimulate Mls-1-reactive T cells, UV-treated Mls-1+ lymphocytes induced an absolute unresponsiveness in Mls-1- recipients to a second challenge with the superantigen. Our data are in agreement with previous evidence, confirmed here, that BALB/c mice establish immunity against Mls-1+ cells, which causes the accelerated rejection of superantigen-bearing lymphocytes. Thus, our data imply that, whereas it takes stimulatory superantigenic Mtv-7 gene products to induce the activation of superantigen-reactive T cells, nonsuperantigenic Mtv-7 gene products may induce an immune response leading to the elimination of Mtv-7+ lymphoid cells.