Literature DB >> 11717441

Helicobacter pylori arginase inhibits nitric oxide production by eukaryotic cells: a strategy for bacterial survival.

A P Gobert1, D J McGee, M Akhtar, G L Mendz, J C Newton, Y Cheng, H L Mobley, K T Wilson.   

Abstract

The antimicrobial effect of nitric oxide (NO) is an essential part of innate immunity. The vigorous host response to the human gastric pathogen Helicobacter pylori fails to eradicate the organism, despite up-regulation of inducible NO synthase (iNOS) in the gastric mucosa. Here we report that wild-type strains of H. pylori inhibit NO production by activated macrophages at physiologic concentrations of l-arginine, the common substrate for iNOS and arginase. Inactivation of the gene rocF, encoding constitutively expressed arginase in H. pylori, restored high-output NO production by macrophages. By using HPLC analysis, we show that l-arginine is effectively consumed in the culture medium by wild-type but not arginase-deficient H. pylori. The substantially higher levels of NO generated by macrophages cocultured with rocF-deficient H. pylori resulted in efficient killing of the bacteria, whereas wild-type H. pylori exhibited no loss of survival under these conditions. Killing of the arginase-deficient H. pylori was NO-dependent, because peritoneal macrophages from iNOS(-/-) mice failed to affect the survival of the rocF mutant. Thus, bacterial arginase allows H. pylori to evade the immune response by down-regulating eukaryotic NO production.

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Year:  2001        PMID: 11717441      PMCID: PMC61129          DOI: 10.1073/pnas.241443798

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  43 in total

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Authors:  J F Tomb; O White; A R Kerlavage; R A Clayton; G G Sutton; R D Fleischmann; K A Ketchum; H P Klenk; S Gill; B A Dougherty; K Nelson; J Quackenbush; L Zhou; E F Kirkness; S Peterson; B Loftus; D Richardson; R Dodson; H G Khalak; A Glodek; K McKenney; L M Fitzegerald; N Lee; M D Adams; E K Hickey; D E Berg; J D Gocayne; T R Utterback; J D Peterson; J M Kelley; M D Cotton; J M Weidman; C Fujii; C Bowman; L Watthey; E Wallin; W S Hayes; M Borodovsky; P D Karp; H O Smith; C M Fraser; J C Venter
Journal:  Nature       Date:  1997-08-07       Impact factor: 49.962

2.  Role of the transcriptional activator RocR in the arginine-degradation pathway of Bacillus subtilis.

Authors:  R Gardan; G Rapoport; M Débarbouillé
Journal:  Mol Microbiol       Date:  1997-05       Impact factor: 3.501

3.  Amino acid utilisation and deamination of glutamine and asparagine by Helicobacter pylori.

Authors:  R M Stark; M S Suleiman; I J Hassan; J Greenman; M R Millar
Journal:  J Med Microbiol       Date:  1997-09       Impact factor: 2.472

4.  Helicobacter pylori is killed by nitrite under acidic conditions.

Authors:  R S Dykhuizen; A Fraser; H McKenzie; M Golden; C Leifert; N Benjamin
Journal:  Gut       Date:  1998-03       Impact factor: 23.059

5.  Decreased prevalence of Helicobacter pylori infection in gastroesophageal reflux disease.

Authors:  R V Varanasi; G T Fantry; K T Wilson
Journal:  Helicobacter       Date:  1998-09       Impact factor: 5.753

6.  A standardized mouse model of Helicobacter pylori infection: introducing the Sydney strain.

Authors:  A Lee; J O'Rourke; M C De Ungria; B Robertson; G Daskalopoulos; M F Dixon
Journal:  Gastroenterology       Date:  1997-04       Impact factor: 22.682

7.  Arginase of Bacillus brevis Nagano: purification, properties, and implication in gramicidin S biosynthesis.

Authors:  M Kanda; K Ohgishi; T Hanawa; Y Saito
Journal:  Arch Biochem Biophys       Date:  1997-08-01       Impact factor: 4.013

8.  Albumin nitrosylated by activated macrophages possesses antiparasitic effects neutralized by anti-NO-acetylated-cysteine antibodies.

Authors:  S Mnaimneh; M Geffard; B Veyret; P Vincendeau
Journal:  J Immunol       Date:  1997-01-01       Impact factor: 5.422

9.  Arginase activity in endothelial cells: inhibition by NG-hydroxy-L-arginine during high-output NO production.

Authors:  G M Buga; R Singh; S Pervin; N E Rogers; D A Schmitz; C P Jenkinson; S D Cederbaum; L J Ignarro
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10.  Murine macrophages use oxygen- and nitric oxide-dependent mechanisms to synthesize S-nitroso-albumin and to kill extracellular trypanosomes.

Authors:  A P Gobert; S Semballa; S Daulouede; S Lesthelle; M Taxile; B Veyret; P Vincendeau
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  125 in total

1.  A metronidazole-resistant isolate of Blastocystis spp. is susceptible to nitric oxide and downregulates intestinal epithelial inducible nitric oxide synthase by a novel parasite survival mechanism.

Authors:  Haris Mirza; Zhaona Wu; Fahad Kidwai; Kevin S W Tan
Journal:  Infect Immun       Date:  2011-09-19       Impact factor: 3.441

Review 2.  Bacterial iron-sulfur regulatory proteins as biological sensor-switches.

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Journal:  Antioxid Redox Signal       Date:  2012-03-06       Impact factor: 8.401

3.  Arginase I induction during Leishmania major infection mediates the development of disease.

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Journal:  Infect Immun       Date:  2005-09       Impact factor: 3.441

4.  Effect of the mammalian arginase inhibitor 2(S)-amino-6-boronohexanoic acid on Bacillus anthracis arginase.

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Journal:  Curr Microbiol       Date:  2012-01-24       Impact factor: 2.188

5.  Helicobacter pylori disrupts STAT1-mediated gamma interferon-induced signal transduction in epithelial cells.

Authors:  David J Mitchell; Hien Q Huynh; Peter J M Ceponis; Nicola L Jones; Philip M Sherman
Journal:  Infect Immun       Date:  2004-01       Impact factor: 3.441

6.  Redox control of the DNA damage-inducible protein DinG helicase activity via its iron-sulfur cluster.

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Review 7.  H. pylori infection, inflammation and gastric cancer.

Authors:  Qurteeba Qadri; Roohi Rasool; G M Gulzar; Sameer Naqash; Zafar A Shah
Journal:  J Gastrointest Cancer       Date:  2014-06

8.  Accelerated progression of gastritis to dysplasia in the pyloric antrum of TFF2 -/- C57BL6 x Sv129 Helicobacter pylori-infected mice.

Authors:  James G Fox; Arlin B Rogers; Mark T Whary; Zhongming Ge; Masa Ohtani; Evelyn Kurt Jones; Timothy C Wang
Journal:  Am J Pathol       Date:  2007-11       Impact factor: 4.307

9.  Myeloid-derived suppressor cells in murine retrovirus-induced AIDS inhibit T- and B-cell responses in vitro that are used to define the immunodeficiency.

Authors:  Kathy A Green; W James Cook; William R Green
Journal:  J Virol       Date:  2012-12-05       Impact factor: 5.103

10.  Nitric oxide-induced bacteriostasis and modification of iron-sulphur proteins in Escherichia coli.

Authors:  Binbin Ren; Nianhui Zhang; Juanjuan Yang; Huangen Ding
Journal:  Mol Microbiol       Date:  2008-09-22       Impact factor: 3.501
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