PKC signaling contributes to chromatin decondensation and is required for competence to respond to IL-2 during T cell activation.

The clonal proliferation of antigen-specific T cells during an immune response critically depends on the differential response to growth factors, such as IL-2. While activated T cells proliferate robustly in response to IL-2 stimulation, naïve (quiescent) T cells are able to ignore the potent effects of growth factors because they possess chromatin that is tightly condensed such that transcription factors, such as cannot access DNA. Activation via the T cell receptor (TCR) induces a rapid decondensation of chromatin, permitting engagement and ultimately promoting proliferation of only antigen-specific T cells. Previous work demonstrated that the mobilization of intracellular calcium following TCR stimulation is a key event in the decondensation of chromatin. Here we examine signaling mechanisms to determine their role in activation-induced chromatin decondensation and the subsequent acquisition of competence to respond to IL-2 stimulation. We found that a calcium-dependent contributes to activation-induced chromatin decondensation and that the p38 MAPK and NFκB pathways downstream of duanyu1531 each contribute to regulating the proper decondensation of chromatin. Importantly, we found that p44/42 MAPK activity is required for peripheral T cells to gain competence to properly respond to IL-2 stimulation. Our findings shed light on the mechanisms that control the clonal proliferation of antigen-specific peripheral T cells during an immune response.

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