Abstract
Activation of T lymphocytes requires the combined signaling of the T cell receptor and costimulatory molecules such as CD28. The ability of T cells to produce interleukin-2 (IL-2) is a critical control point in T lymphocyte activation. The IL-2 enhancer contains a functional motif named CD28 response element (CD28RE) that serves a role as a target for mitogenic T cell activation signals. The CD28RE sequence reveals similarity to the consensus kappaB binding motif. Here we demonstrate that CD28RE binds an inducible protein with a molecular mass of approximately 35 kDa called nuclear factor of mitogenic-activated T cells (NF-MATp35) that is clearly different from the known NF- kappaB/Rel family members. Induction of NF-MATp35 was shown to depend on de novo protein synthesis and was restricted to T cells that received a mitogenic combination of T cell stimuli, not necessarily including CD28 signaling. Nonmitogenic T cell stimulation did not result in appearance of NF-MATp35. These results indicate that mitogenic combinations of T cell activation signals are integrated at the level of NF-MATp35 induction. Similar to its effect on IL-2 production, cyclosporin A inhibited the induction of NF-MATp35. Taken together, these data demonstrate that the nuclear appearance of NF-MATp35 shows excellent correlation with IL-2 production, which is a unique characteristic among nuclear factors implicated in the control of IL-2 gene expression.
Highlights
Proliferation and maturation of resting T lymphocytes is an essential process in the T cell-mediated immune response
The CD28 response element (CD28RE) binding factor was found to be selectively induced by distinct mitogenic combinations of T cell stimuli, not necessarily including CD28 signaling [25, 28] (Fig. 2A)
In this study we describe an approximately 35-kDa inducible protein, named NF-MATp35, which interacts with the CD28RE within the IL-2 enhancer
Summary
Proliferation and maturation of resting T lymphocytes is an essential process in the T cell-mediated immune response. Considerable evidence has indicated that signals delivered through the T cell accessory molecule CD28 constitute a major costimulatory pathway [8]. This costimulatory signal is induced upon interaction of CD28 with its counterreceptors CD80 and CD86 that are expressed on the APC [9, 10]. Monoclonal anti-CD28 antibodies either cooperate with soluble anti-CD3, which simulates antigen-specific TCR triggering, or synergize with protein kinase C for the induction of IL-2 production and T cell proliferation. We and others have identified a sequence from Ϫ162 to Ϫ153 (5Ј-AGAAATTCCA-3Ј) within the IL-2 enhancer that serves a crucial role as a response element for mitogenic combinations T cell activation signals [18, 19, 25] (Fig. 1).
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