Regulation of gene expression by cytokines and virus in human cells lacking the type‐I interferon locus

Regulation of gene expression by cytokines and virus in human cells lacking the type‐I interferon locus

A number of genes that are induced by type‐I interferons are also activated by one or more other inducers, including double‐stranded RNA, viruses, interferon‐γ, interleukin‐1 and tumor necrosis factor. However, these inducers can also activate the expression of type‐I interferons. Thus, the activati...

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Published in:European journal of biochemistry Vol. 206; no. 3; pp. 901 - 910
Main Authors: WATHELET, Marc G., BERR, Pascale M., HUEZ, Georges A.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 15-06-1992
Blackwell
Subjects:
Animals
Biological and medical sciences
Blotting, Northern
Cytokines - pharmacology
Fundamental and applied biological sciences. Psychology
Gene expression
Gene Expression Regulation - drug effects
HeLa Cells
Humans
Interferon Type I - genetics
Interferon Type I - pharmacology
Interferon-gamma - pharmacology
Molecular and cellular biology
Molecular genetics
Newcastle disease virus - physiology
Poly I-C - pharmacology
Recombinant Proteins
Tumor Cells, Cultured
Tumor Necrosis Factor-alpha - pharmacology
Vero Cells
Vesicular stomatitis Indiana virus - physiology
Virus Physiological Phenomena
Human
Regulation(control)
Interferon
Cell line
Gene expression
Cytokine
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Abstract A number of genes that are induced by type‐I interferons are also activated by one or more other inducers, including double‐stranded RNA, viruses, interferon‐γ, interleukin‐1 and tumor necrosis factor. However, these inducers can also activate the expression of type‐I interferons. Thus, the activation of type‐I interferon‐inducible genes by these other inducers could be direct, or a secondary consequence of the induction of interferon. To distinguish between these possibilities, we have used cell lines lacking all type‐I interferon genes to study the direct effect of potential inducers on the expression of 14 interferon‐inducible human genes. We show that double‐stranded RNA, virus, interferon‐γ or tumor necrosis factor‐α can act directly to induce specific subsets of type‐I interferoninducible genes in the absence of any possible type‐I interferon involvement. The cis‐acting element which confers inducibility by type‐I interferon has been shown in some cases to confer inducibility by interferon‐γ, double‐stranded RNA or virus as well. However, not all promoters containing such an element respond to both interferon and other inducers. Thus, the ability of a given gene to respond to different inducers most likely depends on the exact nature and specific combination of cis‐acting elements present in its promoter.
AbstractList A number of genes that are induced by type-I interferons are also activated by one or more other inducers, including double-stranded RNA, viruses, interferon-gamma, interleukin-1 and tumor necrosis factor. However, these inducers can also activate the expression of type-I interferons. Thus, the activation of type-I interferon-inducible genes by these other inducers could be direct, or a secondary consequence of the induction of interferon. To distinguish between these possibilities, we have used cell lines lacking all type-I interferon genes to study the direct effect of potential inducers on the expression of 14 interferon-inducible human genes. We show that double-stranded RNA, virus, interferon-gamma or tumor necrosis factor-alpha can act directly to induce specific subsets of type-I interferon-inducible genes in the absence of any possible type-I interferon involvement. The cis-acting element which confers inducibility by type-I interferon has been shown in some cases to confer inducibility by interferon-gamma, double-stranded RNA or virus as well. However, not all promoters containing such an element respond to both interferon and other inducers. Thus, the ability of a given gene to respond to different inducers most likely depends on the exact nature and specific combination of cis-acting elements present in its promoter.
A number of genes that are induced by type-I interferons are also activated by one or more other inducers, including double-stranded RNA, viruses, interferon- gamma , interleukin-1 and tumor necrosis factor. However, these inducers can also activate the expression of type-I interferons. Thus, the activation of type-I interferon-inducible genes by these other inducers could be direct, or a secondary consequence of the induction of interferon. To distinguish between these possibilities, we have used cell lines lacking all type-I interferon genes to study the direct effect of potential inducers on the expression of 14 interferon-inducible human genes. We show that double-stranded RNA, virus, interferon- gamma or tumor necrosis factor- alpha can act directly to induce specific subsets of type-I interferon-inducible genes in the absence of any possible type-I interferon involvement. The cis-acting element which confers inducibility by type-I interferon has been shown in some cases to confer inducibility by interferon- gamma , double-stranded RNA or virus as well.
A number of genes that are induced by type‐I interferons are also activated by one or more other inducers, including double‐stranded RNA, viruses, interferon‐γ, interleukin‐1 and tumor necrosis factor. However, these inducers can also activate the expression of type‐I interferons. Thus, the activation of type‐I interferon‐inducible genes by these other inducers could be direct, or a secondary consequence of the induction of interferon. To distinguish between these possibilities, we have used cell lines lacking all type‐I interferon genes to study the direct effect of potential inducers on the expression of 14 interferon‐inducible human genes. We show that double‐stranded RNA, virus, interferon‐γ or tumor necrosis factor‐α can act directly to induce specific subsets of type‐I interferoninducible genes in the absence of any possible type‐I interferon involvement. The cis‐acting element which confers inducibility by type‐I interferon has been shown in some cases to confer inducibility by interferon‐γ, double‐stranded RNA or virus as well. However, not all promoters containing such an element respond to both interferon and other inducers. Thus, the ability of a given gene to respond to different inducers most likely depends on the exact nature and specific combination of cis‐acting elements present in its promoter.
A number of genes that are induced by type‐I interferons are also activated by one or more other inducers, including double‐stranded RNA, viruses, interferon‐γ, interleukin‐1 and tumor necrosis factor. However, these inducers can also activate the expression of type‐I interferons. Thus, the activation of type‐I interferon‐inducible genes by these other inducers could be direct, or a secondary consequence of the induction of interferon. To distinguish between these possibilities, we have used cell lines lacking all type‐I interferon genes to study the direct effect of potential inducers on the expression of 14 interferon‐inducible human genes. We show that double‐stranded RNA, virus, interferon‐γ or tumor necrosis factor‐α can act directly to induce specific subsets of type‐I interferoninducible genes in the absence of any possible type‐I interferon involvement. The cis ‐acting element which confers inducibility by type‐I interferon has been shown in some cases to confer inducibility by interferon‐γ, double‐stranded RNA or virus as well. However, not all promoters containing such an element respond to both interferon and other inducers. Thus, the ability of a given gene to respond to different inducers most likely depends on the exact nature and specific combination of cis ‐acting elements present in its promoter.
Author HUEZ, Georges A.
BERR, Pascale M.
WATHELET, Marc G.
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  givenname: Georges A.
  surname: HUEZ
  fullname: HUEZ, Georges A.
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https://www.ncbi.nlm.nih.gov/pubmed/1318841$$D View this record in MEDLINE/PubMed
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Regulation(control)
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Snippet A number of genes that are induced by type‐I interferons are also activated by one or more other inducers, including double‐stranded RNA, viruses,...
A number of genes that are induced by type-I interferons are also activated by one or more other inducers, including double-stranded RNA, viruses,...
A number of genes that are induced by type-I interferons are also activated by one or more other inducers, including double-stranded RNA, viruses, interferon-...
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SubjectTerms Animals
Biological and medical sciences
Blotting, Northern
Cytokines - pharmacology
Fundamental and applied biological sciences. Psychology
Gene expression
Gene Expression Regulation - drug effects
HeLa Cells
Humans
Interferon Type I - genetics
Interferon Type I - pharmacology
Interferon-gamma - pharmacology
Molecular and cellular biology
Molecular genetics
Newcastle disease virus - physiology
Poly I-C - pharmacology
Recombinant Proteins
Tumor Cells, Cultured
Tumor Necrosis Factor-alpha - pharmacology
Vero Cells
Vesicular stomatitis Indiana virus - physiology
Virus Physiological Phenomena
Title Regulation of gene expression by cytokines and virus in human cells lacking the type‐I interferon locus
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https://www.ncbi.nlm.nih.gov/pubmed/1318841
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https://search.proquest.com/docview/72990382
Volume 206
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