Literature DB >> 18256150

Icam-1 participates in the entry of west nile virus into the central nervous system.

Jianfeng Dai1, Penghua Wang, Fengwei Bai, Terrence Town, Erol Fikrig.   

Abstract

Determining how West Nile virus crosses the blood-brain barrier is critical to understanding the pathogenesis of encephalitis. Here, we show that ICAM-1(-/-) mice are more resistant than control animals to lethal West Nile encephalitis. ICAM-1(-/-) mice have a lower viral load, reduced leukocyte infiltration, and diminished neuronal damage in the brain compared to control animals. This is associated with decreased blood-brain barrier leakage after viral infection. These data suggest that ICAM-1 plays an important role in West Nile virus neuroinvasion and that targeting ICAM-1 signaling may help control viral encephalitis.

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Year:  2008        PMID: 18256150      PMCID: PMC2292986          DOI: 10.1128/JVI.02621-07

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  33 in total

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Authors:  S Etienne-Manneville; J B Manneville; P Adamson; B Wilbourn; J Greenwood; P O Couraud
Journal:  J Immunol       Date:  2000-09-15       Impact factor: 5.422

Review 2.  Pathogenesis of West Nile Virus infection: a balance between virulence, innate and adaptive immunity, and viral evasion.

Authors:  Melanie A Samuel; Michael S Diamond
Journal:  J Virol       Date:  2006-10       Impact factor: 5.103

3.  ICAM-1-dependent pathways regulate colonic eosinophilic inflammation.

Authors:  Elizabeth Forbes; Mark Hulett; Richard Ahrens; Norbert Wagner; Vanessa Smart; Klaus I Matthaei; Eric B Brandt; Lindsay A Dent; Marc E Rothenberg; Mimi Tang; Paul S Foster; Simon P Hogan
Journal:  J Leukoc Biol       Date:  2006-05-26       Impact factor: 4.962

Review 4.  Immunopathology of flavivirus infections.

Authors:  Nicholas J C King; Daniel R Getts; Meghann T Getts; Sabita Rana; Bimmi Shrestha; Alison M Kesson
Journal:  Immunol Cell Biol       Date:  2006-12-05       Impact factor: 5.126

Review 5.  Intercellular adhesion molecule-1 (ICAM-1) expression and cell signaling cascades.

Authors:  A K Hubbard; R Rothlein
Journal:  Free Radic Biol Med       Date:  2000-05-01       Impact factor: 7.376

Review 6.  West Nile virus.

Authors:  Laura D Kramer; Jun Li; Pei-Yong Shi
Journal:  Lancet Neurol       Date:  2007-02       Impact factor: 44.182

7.  West Nile virus encephalitis: sequential histopathological and immunological events in a murine model of infection.

Authors:  David Garcia-Tapia; Daniel E Hassett; William J Mitchell; Gayle C Johnson; Steven B Kleiboeker
Journal:  J Neurovirol       Date:  2007-04       Impact factor: 2.643

8.  Axonal transport mediates West Nile virus entry into the central nervous system and induces acute flaccid paralysis.

Authors:  Melanie A Samuel; Hong Wang; Venkatraman Siddharthan; John D Morrey; Michael S Diamond
Journal:  Proc Natl Acad Sci U S A       Date:  2007-10-15       Impact factor: 11.205

Review 9.  ICAM-1 receptors and cold viruses.

Authors:  J Bella; M G Rossmann
Journal:  Pharm Acta Helv       Date:  2000-03

10.  Dendritic cell-mediated HIV-1 transmission to T cells of LAD-1 patients is impaired due to the defect in LFA-1.

Authors:  Fedde Groot; Taco W Kuijpers; Ben Berkhout; Esther C de Jong
Journal:  Retrovirology       Date:  2006-11-01       Impact factor: 4.602
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  41 in total

Review 1.  The Olfactory Bulb: An Immunosensory Effector Organ during Neurotropic Viral Infections.

Authors:  Douglas M Durrant; Soumitra Ghosh; Robyn S Klein
Journal:  ACS Chem Neurosci       Date:  2016-04-08       Impact factor: 4.418

Review 2.  Risk factors for West Nile virus infection and disease in populations and individuals.

Authors:  Ruth R Montgomery; Kristy O Murray
Journal:  Expert Rev Anti Infect Ther       Date:  2015-01-30       Impact factor: 5.091

Review 3.  Encephalitis caused by flaviviruses.

Authors:  L Turtle; M J Griffiths; T Solomon
Journal:  QJM       Date:  2012-03

Review 4.  Neurological approaches for investigating West Nile virus disease and its treatment in rodents.

Authors:  John D Morrey; Venkatraman Siddharthan; Hong Wang
Journal:  Antiviral Res       Date:  2013-09-19       Impact factor: 5.970

5.  Mouse adenovirus type 1-induced breakdown of the blood-brain barrier.

Authors:  Lisa E Gralinski; Shanna L Ashley; Shandee D Dixon; Katherine R Spindler
Journal:  J Virol       Date:  2009-07-01       Impact factor: 5.103

6.  Combined treatment of adenosine nucleoside inhibitor NITD008 and histone deacetylase inhibitor vorinostat represents an immunotherapy strategy to ameliorate West Nile virus infection.

Authors:  Jacob Nelson; Kelsey Roe; Beverly Orillo; Pei-Yong Shi; Saguna Verma
Journal:  Antiviral Res       Date:  2015-07-29       Impact factor: 5.970

7.  Fusion loop peptide of the West Nile virus envelope protein is essential for pathogenesis and is recognized by a therapeutic cross-reactive human monoclonal antibody.

Authors:  Hameeda Sultana; Harald G Foellmer; Girish Neelakanta; Theodore Oliphant; Michael Engle; Michel Ledizet; Manoj N Krishnan; Nathalie Bonafé; Karen G Anthony; Wayne A Marasco; Paul Kaplan; Ruth R Montgomery; Michael S Diamond; Raymond A Koski; Erol Fikrig
Journal:  J Immunol       Date:  2009-06-17       Impact factor: 5.422

Review 8.  Age-related alterations in immune responses to West Nile virus infection.

Authors:  R R Montgomery
Journal:  Clin Exp Immunol       Date:  2016-10-17       Impact factor: 4.330

Review 9.  Regulation by reversible S-glutathionylation: molecular targets implicated in inflammatory diseases.

Authors:  Melissa D Shelton; John J Mieyal
Journal:  Mol Cells       Date:  2008-05-16       Impact factor: 5.034

10.  IL-10 signaling blockade controls murine West Nile virus infection.

Authors:  Fengwei Bai; Terrence Town; Feng Qian; Penghua Wang; Masahito Kamanaka; Tarah M Connolly; David Gate; Ruth R Montgomery; Richard A Flavell; Erol Fikrig
Journal:  PLoS Pathog       Date:  2009-10-09       Impact factor: 6.823
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