Transcription factor IRF-3 is post-translationally activated by Toll-like receptor (TLR) signaling and has critical roles in the regulation of innate immunity. Here we present the X-ray crystal structure of the C-terminal regulatory domain of IRF-3(175-427) (IRF-3 175C) at a resolution of 2.3 A. IRF-3 175C is structurally similar to the Mad homology domain 2 of the Smad family. Structural and functional analyses reveal phosphorylation-induced IRF-3 dimerization, which generates an extensive acidic pocket responsible for binding with p300/CBP. Although TLR and Smad signaling are evolutionarily independent, our results suggest that IRF-3 originates from Smad and acquires its function downstream of TLR.
Interferon regulatory factor (IRF)-1 and IRF-2 have been implicated for the virus-induced expression of the interferon-alpha and beta (type I IFN) genes. However, recent gene disruption studies in mice suggested the presence of other factor(s) interacting with overlapping promoter elements. In the present paper, we describe the characterization of a DNA binding factor which is strongly induced after virus infection and recognizes these promoter elements. After extensive purification, the factor was revealed to be identical to IFN-stimulated gene factor 3 (ISGF3), a transcription factor complex activated by IFN treatment. ISGF3 binds to the promoter element of IFN-beta, positive regulatory domain I (PRDI), with significantly higher affinity than IRF-1, 2, and mutational analysis of PRDI showed that the gene expression and binding of ISGF3, but not of IRF-1, 2, are highly correlated. Furthermore, our functional analysis involving a dominant negative inhibitor for ISGF3 activation and an anti-IFN neutralizing antibody clearly demonstrated the presence of a positive feedback path way for type I IFN genes mediated by ISGF3.
Infections of bacteria and viruses induce host defense reactions known as innate responses that include the production of cytokines and chemokines. The production of type I interferon (IFN) is known to be induced by viral double-stranded (ds) RNA or bacterial lipopolysaccharide (LPS). Although important functions for the transcription factors NF-U UB and interferon regulatory factor-3 (IRF-3) are indicated, the molecular signals leading to the activation of IFN genes have yet to be elucidated. We provide several lines of evidence that LPS and dsRNA trigger distinct intracellular signals upstream. Notably, our investigation revealed a critical function for TIRAP/MAL, a signaling adapter for Toll-like receptor (TLR) 4, in LPS-induced but not dsRNA-induced activation of IRF-3. These results highlight cross-talk between TLR-mediated and virus/dsRNA-induced signals resulting in activation of the IFN system. ß
cDNA and genomic sequences coding for human protective protein/ carboxypeptidase were isolated and characterized. The cDNA sequence was identical with that reported by Galjart et al. (Cell 54: 755, 1988). Two clones hybridizing cDNA were isolated from the human chromosome 20 specific bacteriophage library, comprising the first 5 exons and the next 3 exons, respectively. The exon-intron organization was determined for these clones. Molecular analysis of Japanese adultform galactosialidosis patients revealed a common gene rearrangement: an A-to-G base substitution at the position 3 by downstream of exon 7, resulting in skipping of this exon in mRNA. All five cases in this study were found to be homozygous for this mutation. We conclude that this is a common gene mutation among the Japanese galactosialidosis patients of late onset (Japanese type).
A new variant form of Fabry disease with hypertrophic cardiomyopathy of late onset is reported. Two unrelated male hemizygotes of this disease first presented with signs and symptoms of cardiomyopathy after 50 years of age. Cultured lymphoblastoid cells showed significantly higher residual αgalactosidase A activities than in the patients with classical phenotypic expressions.
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