18 Chromatin immunoprecipitation experiments have shown binding of NFAT1 to promoter of IL-4 in Th2 cells but not in Th1 cells, suggesting chromatin remodelling as one of the mechanism that determines NFAT binding to its target genes.19 NFAT is also the major player in the ionomycin-induced anergy Talazoparib order model.20 Anergy is defined as a state of
T cells where they are unresponsive to stimulation and fail to make IL-2 or proliferate.21 An anergic state is achieved when T cells are stimulated through the TCR in the absence of co-stimulation in vitro.22 Developed by Rao and colleagues, the ionomycin-induced anergic state is achieved by treating cells with the calcium ionophore for a period of about 12Â hr subsequent
to which cells become unresponsive to TCR stimulation and fail to make IL-2 or proliferate. This form of anergy is largely NFAT dependent because sustained high calcium levels cause cells to primarily activate selleck kinase inhibitor NFAT. A constitutively active form of NFAT when expressed in T cells also leads to a similar state.20 The NFAT rapidly translocates to the nucleus on a rise in intracellular calcium. Several studies indicate that NFAT translocation into the nucleus is more efficient if the calcium signal is oscillatory.23,24 Within minutes of reducing the cytoplasmic calcium level, NFAT is rapidly exported out of the nucleus. In another cell type these kinetics were much slower.25 Hence, the re-phosphorylation kinetics may differ from cell type to cell type. Because the formation of the immune synapse is preceded by calcium fluxes,5,26 the transport of NFAT into the nucleus in T cells is presumably rapid. Recently a novel regulation for NFAT-like proteins was described. Crz1 is a calcineurin-dependent transcription factor in yeast
wherein it plays an important role in stress-induced apoptosis. Elowitz and colleagues monitored the real-time trafficking Axenfeld syndrome of Crz1 fused to green fluorescent protein in response to increasing extra-cellular calcium. They found that the amount of Crz1 translocated to the nucleus was not simply proportional to the concentration of extra-cellular calcium. Instead, Crz1 translocated into and out of the nucleus in oscillatory bursts. Neither the amplitude nor the duration of these bursts changed as extra-cellular calcium was increased; rather, the frequency of bursts increased. The authors further showed by mathematical modelling and experimental validation that the frequency-modulated trafficking of Crz1 was important for maintaining the same amount of relative gene expression across different Crz1 targets as the extra-cellular stimulus changed.27 As NFAT is calcineurin dependent, it would be interesting to see if this form of regulation is valid for NFAT in mammalian cells.