Transcriptional regulation by calcium, calcineurin, and NFAT

生物 NFAT公司 钙调神经磷酸酶 细胞生物学 转录因子 遗传学 计算生物学 基因 内科学 移植 医学
作者
Patrick G. Hogan,Lin Chen,Julie Nardone,Anjana Rao
出处
期刊:Genes & Development [Cold Spring Harbor Laboratory Press]
卷期号:17 (18): 2205-2232 被引量:1974
标识
DOI:10.1101/gad.1102703
摘要

The NFAT family of transcription factors encompasses five proteins evolutionarily related to the Rel/NF B family (Chytil and Verdine 1996; Graef et al. 2001b). The primordial family member is NFAT5, the only NFATrelated protein represented in the Drosophila genome. NFAT5 is identical to TonEBP (tonicity element binding protein), a transcription factor crucial for cellular responses to hypertonic stress (Lopez-Rodriguez et al. 1999; Miyakawa et al. 1999). We focus here on the remaining four NFAT proteins (NFAT1–NFAT4, also known as NFATc1–c4; see Table 1), referring to them collectively as NFAT. The distinguishing feature of NFAT is its regulation by Ca and the Ca/calmodulin-dependent serine phosphatase calcineurin. NFAT proteins are phosphorylated and reside in the cytoplasm in resting cells; upon stimulation, they are dephosphorylated by calcineurin, translocate to the nucleus, and become transcriptionally active, thus providing a direct link between intracellular Ca signaling and gene expression. NFAT activity is further modulated by additional inputs from diverse signaling pathways, which affect NFAT kinases and nuclear partner proteins. In the first part of this review, we describe the influence of these multiple inputs on the nuclear–cytoplasmic distribution and transcriptional function of NFAT. Recent structural data emphasize the remarkable versatility of NFAT binding to DNA. At composite NFAT:AP-1 elements found in the regulatory regions of many target genes, NFAT proteins bind cooperatively with an unrelated transcription factor, AP-1 (Fos–Jun; Chen et al. 1998). At DNA elements that resemble NF B sites, NFAT proteins bind DNA as dimers (Giffin et al. 2003; Jin et al. 2003). In the second section of this review, we describe these two modes of DNA binding by NFAT. NFAT also acts synergistically with transcription factors other than Fos and Jun, but the structural basis for synergy remains unknown. Drawing on published structures, we discuss the potential cooperation of NFAT with other classes of DNA-binding proteins. It is clear that NFAT activates transcription of a large number of genes during an effective immune response (Rao et al. 1997; Kiani et al. 2000; Serfling et al. 2000; Macian et al. 2001). In the third part of this review, we present information obtained from these studies, highlighting experimental and bioinformatics approaches to identifying NFAT target genes. We discuss the finding that NFAT and NFAT–Fos–Jun complexes activate distinct subsets of target genes in lymphocytes (Macian et al. 2002). We also describe a novel aspect of gene regulation by NFAT, in which this transcription factor participates in an early phase of chromatin remodeling that occurs at specific genetic loci in differentiating T cells (Avni et al. 2002). There is evidence that NFAT regulates cell differentiation programs in cell types other than immune cells (Crabtree and Olson 2002; Horsley and Pavlath 2002; Graef et al. 2003; Hill-Eubanks et al. 2003). In the last section of this review, we select three differentiation programs—fiber-type specification in differentiated skeletal muscle, cardiac valve development, and osteoclast differentiation—for detailed consideration. We evaluate the evidence for NFAT involvement, point out novel cellular and molecular mechanisms that might regulate this familiar transcription factor, and discuss how NFAT exerts its biological effects. Because the phenotypes of NFAT knockout mice have been reviewed elsewhere (Crabtree and Olson 2002; Horsley and Pavlath 2002), we refer to them only as necessary to illustrate specific points.
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