2001
DOI: 10.1074/jbc.m104898200
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The Autoimmune Regulator (AIRE) Is a DNA-binding Protein

Abstract: The autoimmune regulator (AIRE) protein is a putative transcription regulator with two plant homeodomain-type zinc fingers, a putative DNA-binding domain (SAND), and four nuclear receptor binding LXXLL motifs. We have shown here that in vitro, recombinant AIRE can form homodimers and homotetramers that were also detected in thymic protein extracts. Recombinant AIRE also oligomerizes spontaneously upon phosphorylation by cAMP dependent protein kinase A or protein kinase C. Similarly, thymic AIRE protein is phos… Show more

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Cited by 149 publications
(131 citation statements)
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References 22 publications
(28 reference statements)
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“…S3A Lower). This effect of poly(dI-dC), and the absence of previously reported Aire-specific motifs (26,27) in the DNA used in our EMSAs (28), suggest a substantial non-sequencedependent component to DNA binding, and raise questions about the importance of sequence specificity to the overall binding. Although we describe here the direct interaction between Aire and nucleosomes, we turned to more sensitive assays to probe Aire-chromatin interactions in vivo, because EMSA analyses cannot resolve small micromolar differences potentially contributed by H3 tail binding.…”
Section: Apeced Airephd1mentioning
confidence: 47%
“…S3A Lower). This effect of poly(dI-dC), and the absence of previously reported Aire-specific motifs (26,27) in the DNA used in our EMSAs (28), suggest a substantial non-sequencedependent component to DNA binding, and raise questions about the importance of sequence specificity to the overall binding. Although we describe here the direct interaction between Aire and nucleosomes, we turned to more sensitive assays to probe Aire-chromatin interactions in vivo, because EMSA analyses cannot resolve small micromolar differences potentially contributed by H3 tail binding.…”
Section: Apeced Airephd1mentioning
confidence: 47%
“…Of note, activators found on enhancers, such as CIITA, NF-B, steroid hormone receptors, and c-Myc, all bind and recruit P-TEFb to their transcription units (reviewed in reference 35). An important difference is that unlike these type IIB activators, AIRE cannot initiate transcription and its interactions with DNA appear more promiscuous (24,39). Thus, it is able to interact with more targets but has a greater requirement for a preassembled PIC.…”
Section: Discussionmentioning
confidence: 99%
“…Monomers of AIRE neither bind DNA in vitro (24,39) nor activate transcription in cells (14). Of interest, most mutations in patients disrupt this oligomerization of AIRE (14,32).…”
Section: Discussionmentioning
confidence: 99%
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“…74 Briefly, AIRE was originally considered a transcription factor based on its nuclear localization, it ability to bind DNA and the presence of a SAND (Sp100, AIRE-1, NucP41/75, DEAF-1) functional domain. [75][76][77] However, AIRE also contains two PHD (Plant HomeoDomain)-type zinc fingers that confer its ability to associate with numerous protein partners and that are essential for regulation of gene expression. [78][79][80] These PHD domains associate with histone 3 at unmethylated lysine 4 residues (H3K4me0), which are typically within transcriptionally inactive chromatin regions, and in combination with DNA-dependent protein kinase, appear to promote subsequent transcription.…”
Section: Aire Regulates Promiscuous Gene Expression In Mtecmentioning
confidence: 99%