Repression of SPI2 transcription by nitric oxide-producing, IFN{gamma}-activated macrophages promotes maturation of Salmonella phagosomes

doi:10.1084/jem.20050246

Published online 29 August 2005 doi:10.1084/jem.20050246
Rockefeller University Press, 0022-1007 $8.00
JEM, Volume 202, Number 5, 625-635

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Repression of SPI2 transcription by nitric oxide-producing, IFN ${gamma}$ -activated macrophages promotes maturation of Salmonella phagosomes

Bruce D. McCollister¹^,2, Travis J. Bourret¹, Ronald Gill¹, Jessica Jones-Carson¹^,2, and Andrés Vázquez-Torres¹

¹ Department of Microbiology, University of Colorado Health Sciences Center, Aurora, CO 80010
² Department of Medicine, University of Colorado Health Sciences Center, Aurora, CO 80010

CORRESPONDENCE Andrés Vázquez-Torres: andres.vazquez-torres{at}uchsc.edu

By remodeling the phagosomal membrane, the type III secretionsystem encoded within the Salmonella pathogenicity island-2(SPI2) helps Salmonella thrive within professional phagocytes.We report here that nitric oxide (NO) generated by IFN ${gamma}$ -activatedmacrophages abrogates the intracellular survival advantage associatedwith a functional SPI2 type III secretion system. NO congenersinhibit overall expression of SPI2 effectors encoded both insideand outside the SPI2 gene cluster, reflecting a reduced transcriptlevel of the sensor kinase SsrA that governs overall SPI2 transcription.Down-regulation of SPI2 expression in IFN ${gamma}$ -treated macrophagesdoes not seem to be the result of global NO cytotoxicity, becausetranscription of the housekeeping rpoD sigma factor remainsunchanged, whereas the expression of the hmpA-encoded, NO-metabolizingflavohemoprotein is stimulated. Because of the reduced SPI2expression, Salmonella-containing vacuoles interact more efficientlywith compartments of the late endosomal/lysosomal system inNO-producing, IFN ${gamma}$ -treated macrophages. These findings demonstratethat inhibition of intracellular SPI2 transcription by NO promotesthe interaction of Salmonella phagosomes with the degradativecompartments required for enhanced antimicrobial activity. Transcriptionalrepression of a type III secretion system that blocks phagolysosomebiogenesis represents a novel mechanism by which NO mediatesresistance of IFN ${gamma}$ -activated phagocytes to an intracellular pathogen.

Abbreviations used: FRT, Flp recombinant target; iNOS, induciblenitric oxide synthase; MOI, multiplicity of infection; NADPH,nicotinamide-adenine dinucleotide phosphate; NMMA, N^G-monomethylL-arginine; NO, nitric oxide; RNS, reactive nitrogen species;SPI2, Salmonella pathogenicity island 2.

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