Conditional gene silencing utilizing the lac repressor reveals a role of SHP‐2 in cagA‐positive Helicobacter pylori pathogenicity

RNA interference (RNAi) is a newly described biological phenomenon mediated by small interfering RNA (siRNA) that targets mRNA for degradation by cellular enzymes and has become a powerful method for studying gene functions in mammalian systems. The development of systems for inducing siRNA expressi...

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Bibliographic Details
Published in:Cancer science 2004-05, Vol.95 (5), p.442-447
Main Authors: Higuchi, Megumi, Tsutsumi, Ryouhei, Higashi, Hideaki, Hatakeyama, Masanori
Format: Article
Language:English
Subjects:
Antigens, Bacterial - genetics
Bacterial Proteins - genetics
Bacterial Proteins - pharmacology
Biodegradation
Biological and medical sciences
DNA-directed RNA polymerase
Epigenetics
Epithelial cells
Escherichia coli - genetics
Escherichia coli Proteins
Gene Expression Regulation
Gene Silencing
Genetic transformation
Genetic Vectors
Helicobacter pylori
Helicobacter pylori - genetics
Helicobacter pylori - pathogenicity
Lac Repressors
Lactose
Lactose repressor
Lethality
Medical sciences
mRNA
Pathogenicity
Phenotypes
Protein-tyrosine-phosphatase
Repressor Proteins - genetics
Repressor Proteins - pharmacology
RNA Interference
RNA polymerase
RNA Polymerase III - pharmacology
RNA-mediated interference
siRNA
Tumors
Virulence factors
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Summary:RNA interference (RNAi) is a newly described biological phenomenon mediated by small interfering RNA (siRNA) that targets mRNA for degradation by cellular enzymes and has become a powerful method for studying gene functions in mammalian systems. The development of systems for inducing siRNA expression should enable examination of acute loss‐of‐function phenotypes in a cell of interest without the need to consider lethality or epigenetic adaptation of cells. We describe in this report an inducible siRNA expression system made by combined utilization of the RNA polymerase III‐dependent promoter H1 and the bacterial lac repressor. Using this system, we established AGS gastric epithelial cells in which expression of SHP‐2, a cellular tyrosine phosphatase known to specifically bind the Helicobacter pylori virulence factor CagA, is conditionally and reversibly silenced by the lactose analog isopropyl‐1‐thio‐β‐D‐galactopyranoside (IPTG). Upon expression in AGS cells, CagA provoked a morphological transformation, termed the hummingbird phenotype, which is associated with CagA virulence. This morphogenetic activity of CagA was totally abolished when SHP‐2 expression was silenced by inducible siRNA expression in AGS cells. Our results indicate that SHP‐2 is a critical downstream effector of H. pylori CagA. The conditional gene silencing system described here should become a powerful tool for investigating the roles of cancer‐related genes through a reversed genetic approach.
ISSN:1347-9032
1349-7006
DOI:10.1111/j.1349-7006.2004.tb03229.x