Dirk R. Gewert scite author profile

CD8+ T cell responses can be generated against antigens that are not expressed directly within antigen-presenting cells (APCs), through a process known as cross-priming. To initiate cross-priming, APCs must both capture extracellular antigen and receive specific activation signals. We have investigated the nature of APC activation signals associated with virus infection that stimulate cross-priming. We show that infection with lymphocytic choriomeningitis virus induces cross-priming by a mechanism dependent on type I interferon (IFN-alpha/beta). Activation of cross-priming by IFN-alpha/beta was independent of CD4+ T cell help or interaction of CD40 and CD40 ligand, and involved direct stimulation of dendritic cells. These data identify expression of IFN-alpha/beta as a mechanism for the induction of cross-priming during virus infections.

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A single DNA response element can confer inducibility by both alpha- and gamma-interferons.

Reid

Brasnett

Gilbert

et al. 1989

Proc. Natl. Acad. Sci. U.S.A.

246

138

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Genomic and cDNA clones corresponding to 9-27, a member of the human 1-8 gene family highly inducible by a-and y-interferons (IFNs), have been isolated and characterized. A 1.7-kilobase genomic clone contains a complete functional gene with two exons, encoding a 125-amino acid polypeptide of unknown function. The 5' flanking region of the gene contains a 13-base-pair IFN-stimulable response element (ISRE), homologous to the ISREs of the 6-16, ISG 15, and ISG 54 genes, which are predominantly inducible by IFN-a,4. Analysis of constructs containing native and mutated ISREs suggests that this motif is essential for the response of 9-27 to IFN-y as well as IFN-a. Furthermore, the 9-27 (GGAAATAGAAACT) and 6-16 (GGGAAAATGAAACT) ISREs can each confer a response to both types of IFN when placed on the 5' side of a marker gene. Since the 6-16 gene does not normally respond to IFN-y, the context of the ISRE must determine the specificity of the response.Highly homologous response elements for a-and ,B-interferons (IFNs) have been identified in the 5' flanking regions of several IFN-inducible genes (1-6). They have partial homology to other enhancer elements and bind at least three IFN-modulated factors and a constitutive factor(s). The former appear with different kinetics after IFN treatment and are probably involved not only in the induction of transcription but also in its down-regulation and subsequent refractory state (refs.

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Reconstitution of Virus-mediated Expression of Interferon α Genes in Human Fibroblast Cells by Ectopic Interferon Regulatory Factor-7

Yeow¹,

Au²,

Juang³

et al. 2000

Journal of Biological Chemistry

139

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Impaired Antiviral Response and Alpha/Beta Interferon Induction in Mice Lacking Beta Interferon

Deonarain

Alcamı́

Alexiou

et al. 2000

J Virol

160

121

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Differential Transcriptional Activation in Vitro by NF- κB/Rel Proteins

Lin

Gewert

Hiscott

1995

Journal of Biological Chemistry

105

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Distinct NF-kappa B subunit combinations contribute to the specificity of NF-kappa B-mediated transcriptional activation and to the induction of multiple cytokine genes including interferon-beta (IFN-beta). To evaluate the regulatory influence of different homo- and heterodimers, NF-kappa B subunits were analyzed for transcriptional activity in vitro using test templates containing two types of NF-kappa B recognition elements (the human immunodeficiency virus type 1 enhancer and the IFN-beta-positive regulatory domain-II (PRDII) as well as IFN-beta PRDIII-PRDI-PRDII linked to the -56 minimal promoter of rabbit beta-globin. Recombinant NF-kappa B subunits (p50, p65, c-Rel, p52, and I kappa B alpha) and interferon regulatory factor 1 were produced from either Escherichia coli or baculovirus expression systems. Transcriptional analysis in vitro demonstrated that 1) various dimeric complexes of NF-kappa B differentially stimulated transcription through the human immunodeficiency virus enhancer or PRDII up to 20-fold; 2) recombinant I kappa B alpha specifically inhibited NF-kappa B-dependent transcription in vitro; and 3) different NF-kappa B complexes and interferon regulatory factor 1 cooperated to stimulate transcription in vitro through the PRDIII-PRDI-PRDII virus-inducible regulatory domains of the IFN-beta promoter. These results demonstrate the role of NF-kappa B protein dimerization in differential transcriptional activation in vitro and emphasize the role of cooperativity between transcription factor families as an additional regulatory level to maintain transcriptional specificity.

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Dirk R. Gewert

Cross-priming of CD8+ T cells stimulated by virus-induced type I interferon

A single DNA response element can confer inducibility by both alpha- and gamma-interferons.

Reconstitution of Virus-mediated Expression of Interferon α Genes in Human Fibroblast Cells by Ectopic Interferon Regulatory Factor-7

Impaired Antiviral Response and Alpha/Beta Interferon Induction in Mice Lacking Beta Interferon

Differential Transcriptional Activation in Vitro by NF- κB/Rel Proteins

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