Induction of tolerance to self MHC class I molecules expressed under the control of milk protein or beta-globin gene promoters.

We have studied tolerance induction in transgenic CBA mice expressing H-2Kb genes under the influence of guinea-pig alpha-lactalbumin (KAL) or human beta-globin gene promoter (K beta). KAL radio-resistant cells, but not bone marrow derived cells, induce tolerance to H-2Kb in chimeric mice. In contrast, bone marrow derived and radio-resistant cells of K beta mice induce tolerance. Although appropriate, tissue-specific, expression of H-2Kb molecules occurs in KAL and K beta mice, H-2Kb is expressed at low levels in thymus of transgenic mice. In addition, dendritic cells and macrophages express H-2Kb molecules when K beta, but not when KAL bone marrow is cultured in vitro. The mode of tolerance induction was examined in double transgenic mice by mating KAL or K beta mice to mice expressing TCR transgenes (Tg-TCR) derived from a H-2Kb specific, CD8-independent cytotoxic T cell clone. In both cases, a large number of Tg-TCR+ CD8+CD4+ thymocytes develop but mature CD8+CD4- thymocytes fail to appear suggesting that thymocytes are eliminated late in development. Some CD8-CD4- and CD8-CD4+ Tg-TCR+ T cells develop in double transgenic mice and respond to activation through their TCR-CD3 complex in vitro, although no responses to stimulation with H-2Kb expressing cells were detected. Thus, tolerance induction in KAL and K beta mice proceeds via a deletional mechanism that is inefficient due either to low numbers of H-2Kb expressing thymic cells or to the low levels of H-2Kb expressed by thymic cells, or to a combination of these factors.