Membrane Localization Contributes to the In Vivo ADP-Ribosylation of Ras by
            <i>Pseudomonas aeruginosa</i>
            ExoS

Interactions between cytokine and receptor lead to the activation of multiple signalling molecules, including the family of signal transducer and activator of transcription (STAT) proteins. STAT4 is one member of this family, and is activated only in response to the cytokine interleukin (IL)-12 (refs 5, 6). By gene targeting, we have generated mice deficient in STAT4 to determine whether the function of this transcription factor is redundant with other signalling molecules activated by IL-12. IL-12-induced increases in the production of interferon (IFN)-gamma cellular proliferation and natural killer (NK) cell cytotoxicity are abrogated in lymphocytes from STAT4-deficient mice. The development of Th1 cells in response to either IL-12 of Listeria monocytogenes is also impaired in the absence of Stat4. Furthermore, Stat4-deficient lymphocytes demonstrate a propensity towards the development of Th2 cells. These results demonstrate that Stat4 is essential for mediating responses to IL-12 in lymphocytes, and regulating the differentiation of both Th1 and Th2 cells.

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Isolation of two new members of the NF-AT gene family and functional characterization of the NF-AT proteins

Hoey¹,

Sun²,

Williamson³

et al. 1995

Immunity

366

376

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The activation of cytokine genes in response to antigenic stimulation of T cells is mediated by NF-AT proteins. Previous studies have identified two NF-AT proteins, NF-ATp and NF-ATc, that are homologous within a 290 aa domain distantly related to the Rel domain. We have isolated two additional members of this gene family, NF-AT3 and NF-AT4, which encode proteins 65% identical to the other NF-AT proteins within the Rel domain. The four NF-AT genes are transcribed in different sets of tissues that included many sites of expression outside the immune system. The Rel homology domain is sufficient for DNA recognition and cooperative binding interactions with AP-1. Although other members of the Rel family bind DNA as dimers, NF-AT proteins are monomers in solution or bound to DNA. Transfection assays indicate that each of the four NF-AT proteins can activate the IL-2 promoter in T cells.

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Cooperative DNA Binding and Sequence-Selective Recognition Conferred by the STAT Amino-Terminal Domain

Xu¹,

Sun²,

Hoey³

1996

Science

433

286

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STAT proteins (signal transducers and activators of transcription) activate distinct target genes despite having similar DNA binding preferences. The transcriptional specificity of STAT proteins was investigated on natural STAT binding sites near the interferon-gamma gene. These sites are arranged in multiple copies and required cooperative interactions for STAT binding. The conserved amino-terminal domain of STAT proteins was required for cooperative DNA binding, although this domain was not essential for dimerization or binding to a single site. Cooperative binding interactions enabled the STAT proteins to recognize variations of the consensus site. These sites can be specific for the different STAT proteins and may function to direct selective transcriptional activation.

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A vital stain for studying membrane dynamics in bacteria: a novel mechanism controlling septation during Bacillus subtilis sporulation

Pogliano

Osborne

Sharp

et al. 1999

Molecular Microbiology

223

249

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SummaryAt the onset of sporulation in Bacillus subtilis, two potential division sites are assembled at each pole, one of which will be used to synthesize the asymmetrically positioned sporulation septum. Using the vital stain FM 4-64 to label the plasma membrane of living cells, we examined the fate of these potential division sites in wild-type cells and found that, immediately after the formation of the sporulation septum, a partial septum was frequently synthesized within the mother cell at the second potential division site. Using time-lapse deconvolution microscopy, we were able to watch these partial septa first appear and then disappear during sporulation. Septal dissolution was dependent on E activity and was partially inhibited in mutants lacking the E -controlled proteins SpoIID, SpoIIM and SpoIIP, which may play a role in mediating the degradation of septal peptidoglycan. Our results support a model in which E inhibits division at the second potential division site by two distinct mechanisms: inhibition of septal biogenesis and the degradation of partial septa formed before E activation.

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Novel NFAT Sites That Mediate Activation of the Interleukin-2 Promoter in Response to T-Cell Receptor Stimulation

Rooney

Sun²,

Glimcher

et al. 1995

Molecular and Cellular Biology

234

179

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The transcription factors NFAT and AP-1 have been shown to be essential for inducible interleukin-2 (IL-2) expression in activated T cells. NFAT has been previously reported to bind to two sites in the IL-2 promoter: in association with AP-1 at the distal antigen response element at -280 and at -135. On the basis of DNase I footprinting with recombinant NFAT and AP-1 proteins, gel shift assays, and transfection experiments, we have identified three additional NFAT sites in the IL-2 promoter. Strikingly, all five NFAT sites are essential for the full induction of promoter activity in response to T-cell receptor stimulation. Four of the five NFAT sites are part of composite elements able to bind AP-1 in association with NFAT. These sites display a diverse range of cooperativity and interdependency on NFAT and AP-1 proteins for binding. One of the NFAT sites directly overlaps the CD28-responsive element. We present evidence that CD28 inducibility is conferred by the AP-1 component in NFAT-AP-1 composite elements. These findings provide further insight into the mechanisms involved in the regulation of the IL-2 promoter.

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A cytoskeleton-like role for the bacterial cell wall during engulfment of the Bacillus subtilis forespore

Mello

Sun²,

Aung³

et al. 2002

Genes Dev.

107

122

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A hallmark of bacterial endospore formation is engulfment, during which the membrane of one cell (the mother cell) migrates around the future spore, enclosing it in the mother cell cytoplasm. Bacteria lack proteins required for eukaryotic phagocytosis, and previously proteins required for membrane migration remained unidentified. Here we provide cell biological and genetic evidence that three membrane proteins synthesized in the mother cell are required for membrane migration as well as for earlier steps in engulfment. Biochemical studies demonstrate that one of these proteins, SpoIID, is a cell wall hydrolase, suggesting that membrane migration in bacteria can be driven by membrane-anchored cell wall hydrolases. We propose that the bacterial cell wall plays a role analogous to that of the actin and tubulin network of eukaryotic cells, providing a scaffold along which proteins can move.[Keywords: Bacillus subtilis; sporulation; membrane movement; peptidoglycan hydrolysis; protein localization] Supplemental material is available at http://www.genesdev.org.

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The Roles of Nuclear Factor of Activated T Cells and Ying-Yang 1 in Activation-induced Expression of the Interferon-γ Promoter in T Cells

Sweetser¹,

Hoey²,

Sun³

et al. 1998

Journal of Biological Chemistry

115

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A Dispensable Role for Forespore-Specific Gene Expression in Engulfment of the Forespore during Sporulation of Bacillus subtilis

2000

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During the stage of engulfment in the Bacillus subtilis spore formation pathway, the larger mother cell engulfs the smaller forespore. We have tested the role of forespore-specific gene expression in engulfment using two separate approaches. First, using an assay that unambiguously detects sporangia that have completed engulfment, we found that a mutant lacking the only forespore-expressed engulfment protein identified thus far, SpoIIQ, is able to efficiently complete engulfment under certain sporulation conditions. However, we have found that the mutant is defective, under all conditions, in the expression of the late-forespore-specific transcription factor G ; thus, SpoIIQ is essential for spore production. Second, to determine if engulfment could proceed in the absence of forespore-specific gene expression, we made use of a strain in which activation of the mother cellspecific sigma factor E was uncoupled from forespore-specific gene expression. Remarkably, engulfment occurred in the complete absence of F -directed gene expression under the same conditions permissive for engulfment in the absence of SpoIIQ. Our results demonstrate that forespore-specific gene expression is not essential for engulfment, suggesting that the machinery used to move the membranes around the forespore is within the mother cell.

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Ya-Lin Sun

Impaired IL-12 responses and enhanced development of Th2 cells in Stat4-deficient mice

Isolation of two new members of the NF-AT gene family and functional characterization of the NF-AT proteins

Cooperative DNA Binding and Sequence-Selective Recognition Conferred by the STAT Amino-Terminal Domain

A vital stain for studying membrane dynamics in bacteria: a novel mechanism controlling septation during Bacillus subtilis sporulation

Novel NFAT Sites That Mediate Activation of the Interleukin-2 Promoter in Response to T-Cell Receptor Stimulation

A cytoskeleton-like role for the bacterial cell wall during engulfment of the Bacillus subtilis forespore

The Roles of Nuclear Factor of Activated T Cells and Ying-Yang 1 in Activation-induced Expression of the Interferon-γ Promoter in T Cells

A Dispensable Role for Forespore-Specific Gene Expression in Engulfment of the Forespore during Sporulation of Bacillus subtilis

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