Literature DB >> 12055207

Cutting edge: urease release by Helicobacter pylori stimulates macrophage inducible nitric oxide synthase.

Alain P Gobert1, Benjamin D Mersey, Yulan Cheng, Darren R Blumberg, Jamie C Newton, Keith T Wilson.   

Abstract

Inducible NO synthase (iNOS) expression and production of NO are both up-regulated with Helicobacter pylori infection in vivo and in vitro. We determined whether major pathogenicity proteins released by H. pylori activate iNOS by coculturing macrophages with wild-type or mutant strains deficient in VacA, CagA, picB product, or urease (ureA(-)). When filters were used to separate H. pylori from macrophages, there was a selective and significant decrease in stimulated iNOS mRNA, protein, and NO(2)(-) production with the ureA(-) strain compared with wild-type and other mutants. Similarly, macrophage NO(2)(-) generation was increased by H. pylori protein water extracts of all strains except ureA(-). Recombinant urease stimulated significant increases in macrophage iNOS expression and NO(2)(-) production. Taken together, these findings indicate a new role for the essential H. pylori survival factor, urease, implicating it in NO-dependent mucosal damage and carcinogenesis.

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Year:  2002        PMID: 12055207     DOI: 10.4049/jimmunol.168.12.6002

Source DB:  PubMed          Journal:  J Immunol        ISSN: 0022-1767            Impact factor:   5.422


  42 in total

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Authors:  Giovanni Suarez; Victor E Reyes; Ellen J Beswick
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Review 2.  The Immune Battle against Helicobacter pylori Infection: NO Offense.

Authors:  Alain P Gobert; Keith T Wilson
Journal:  Trends Microbiol       Date:  2016-02-22       Impact factor: 17.079

3.  Methods to evaluate alterations in polyamine metabolism caused by Helicobacter pylori infection.

Authors:  Alain P Gobert; Rupesh Chaturvedi; Keith T Wilson
Journal:  Methods Mol Biol       Date:  2011

Review 4.  Microbial biofilms and gastrointestinal diseases.

Authors:  Erik C von Rosenvinge; Graeme A O'May; Sandra Macfarlane; George T Macfarlane; Mark E Shirtliff
Journal:  Pathog Dis       Date:  2013-01-29       Impact factor: 3.166

Review 5.  At the Bench: Helicobacter pylori, dysregulated host responses, DNA damage, and gastric cancer.

Authors:  Dana M Hardbower; Richard M Peek; Keith T Wilson
Journal:  J Leukoc Biol       Date:  2014-05-27       Impact factor: 4.962

6.  Positive Association Between Helicobacter pylori Infection and Metabolic Syndrome in a Korean Population: A Multicenter Nationwide Study.

Authors:  Seon Hee Lim; Nayoung Kim; Jin Won Kwon; Sung Eun Kim; Gwang Ho Baik; Ju Yup Lee; Kyung Sik Park; Jeong Eun Shin; Hyun Joo Song; Dae-Seong Myung; Suck Chei Choi; Hyun Jin Kim; Joo Hyun Lim; Jeong Yoon Yim; Joo Sung Kim
Journal:  Dig Dis Sci       Date:  2019-03-09       Impact factor: 3.199

7.  Helicobacter pylori dysregulation of gastric epithelial tight junctions by urease-mediated myosin II activation.

Authors:  Lydia E Wroblewski; Le Shen; Seth Ogden; Judith Romero-Gallo; Lynne A Lapierre; Dawn A Israel; Jerrold R Turner; Richard M Peek
Journal:  Gastroenterology       Date:  2008-10-09       Impact factor: 22.682

8.  Motility of urease-deficient derivatives of Helicobacter pylori.

Authors:  Shumin Tan; Douglas E Berg
Journal:  J Bacteriol       Date:  2004-02       Impact factor: 3.490

9.  Helicobacter pylori moves through mucus by reducing mucin viscoelasticity.

Authors:  Jonathan P Celli; Bradley S Turner; Nezam H Afdhal; Sarah Keates; Ionita Ghiran; Ciaran P Kelly; Randy H Ewoldt; Gareth H McKinley; Peter So; Shyamsunder Erramilli; Rama Bansil
Journal:  Proc Natl Acad Sci U S A       Date:  2009-08-11       Impact factor: 11.205

10.  Arginase II restricts host defense to Helicobacter pylori by attenuating inducible nitric oxide synthase translation in macrophages.

Authors:  Nuruddeen D Lewis; Mohammad Asim; Daniel P Barry; Kshipra Singh; Thibaut de Sablet; Jean-Luc Boucher; Alain P Gobert; Rupesh Chaturvedi; Keith T Wilson
Journal:  J Immunol       Date:  2010-01-22       Impact factor: 5.422
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