Publications

TNF-alpha induces the expression of IL-2R and promotes the proliferation and differentiation of T and B cells. In this report, we have studied the biochemical basis for TNF-alpha activation of the IL-2R alpha (Tac, p55) gene. Transfection of human T cell lines with selectively mutated forms of the IL-2R alpha promoter revealed that a kappa B element (nucleotides -267 to -256), as well as 5' flanking sequences (nucleotides -281 to -271) are required for TNF-alpha induction of this transcriptional unit. DNA binding studies demonstrated that this IL-2R alpha kappa B control element is specifically bound by a set of TNF-alpha inducible T cell nuclear proteins of relative Mr 80 to 90, 50 to 55, and 38 to 42 kDa. This protein recognition site from the IL-2R alpha promoter, as well as related kappa B motifs from the long terminal repeat of the type I human immunodeficiency virus, proved sufficient to impart TNF-alpha inducibility to an unresponsive heterologous promoter. These findings suggest that TNF-alpha-stimulated expression of the IL-2R alpha gene involves the induction of specific DNA binding proteins that in turn interact with a kappa B-like promoter element and facilitate activation of this transcription unit.

Transcriptional activation of the human interleukin-2 (IL-2) gene, like induction of the IL-2 receptor alpha (IL-2R alpha) gene and the type 1 human immunodeficiency virus (HIV-1), is shown to be modulated by a kappa B-like enhancer element. Mutation of a kappa B core sequence identified in the IL-2 promoter (-206 to -195) partially inhibits both mitogen- and HTLV-I Tax-mediated activation of this transcription unit and blocks the specific binding of two inducible cellular factors. These kappa B-specific proteins (80 to 90 and 50 to 55 kilodaltons) similarly interact with the functional kappa B enhancer present in the IL-2R alpha promoter. These data suggest that these kappa B-specific proteins have a role in the coordinate regulation of this growth factor-growth factor receptor gene system that controls T cell proliferation.