Literature DB >> 22310910

Viral infection triggers rapid differentiation of human blood monocytes into dendritic cells.

Wanqiu Hou1, James S Gibbs, Xiuju Lu, Christopher B Brooke, Devika Roy, Robert L Modlin, Jack R Bennink, Jonathan W Yewdell.   

Abstract

Surprisingly little is known about the interaction of human blood mononuclear cells with viruses. Here, we show that monocytes are the predominant cell type infected when peripheral blood mononuclear cells are exposed to viruses ex vivo. Remarkably, infection with vesicular stomatitis virus, vaccinia virus, and a variety of influenza A viruses (including circulating swine-origin virus) induces monocytes to differentiate within 18 hours into CD16(-)CD83(+) mature dendritic cells with enhanced capacity to activate T cells. Differentiation into dendritic cells does not require cell division and occurs despite the synthesis of viral proteins, which demonstrates that monocytes counteract the capacity of these highly lytic viruses to hijack host cell biosynthetic capacity. Indeed, differentiation requires infectious virus and viral protein synthesis. These findings demonstrate that monocytes are uniquely susceptible to viral infection among blood mononuclear cells, with the likely purpose of generating cells with enhanced capacity to activate innate and acquired antiviral immunity.

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Year:  2012        PMID: 22310910      PMCID: PMC3321872          DOI: 10.1182/blood-2011-09-379479

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  15 in total

1.  Dendritic cells distinguish individual chemokine signals through CCR7 and CXCR4.

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Journal:  J Immunol       Date:  2010-11-24       Impact factor: 5.422

Review 2.  Influenza viremia and the potential for blood-borne transmission.

Authors:  Anna M Likos; David J Kelvin; Cheryl M Cameron; Thomas Rowe; Matthew J Kuehnert; Philip J Norris
Journal:  Transfusion       Date:  2007-06       Impact factor: 3.157

3.  Induction of dendritic cell differentiation by IFN-alpha in systemic lupus erythematosus.

Authors:  P Blanco; A K Palucka; M Gill; V Pascual; J Banchereau
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Review 4.  Development of monocytes, macrophages, and dendritic cells.

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Journal:  Science       Date:  2010-02-05       Impact factor: 47.728

5.  The dendritic cell subtype-restricted C-type lectin Clec9A is a target for vaccine enhancement.

Authors:  Irina Caminschi; Anna I Proietto; Fatma Ahmet; Susie Kitsoulis; Joo Shin Teh; Jennifer C Y Lo; Alexandra Rizzitelli; Li Wu; David Vremec; Serani L H van Dommelen; Ian K Campbell; Eugene Maraskovsky; Hal Braley; Gayle M Davey; Patricia Mottram; Nicholas van de Velde; Kent Jensen; Andrew M Lew; Mark D Wright; William R Heath; Ken Shortman; Mireille H Lahoud
Journal:  Blood       Date:  2008-07-30       Impact factor: 22.113

6.  Superior antigen cross-presentation and XCR1 expression define human CD11c+CD141+ cells as homologues of mouse CD8+ dendritic cells.

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Journal:  J Exp Med       Date:  2010-05-17       Impact factor: 14.307

7.  Identification of a dendritic cell receptor that couples sensing of necrosis to immunity.

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Journal:  Nature       Date:  2009-04-16       Impact factor: 49.962

8.  GM-CSF and TNF-alpha cooperate in the generation of dendritic Langerhans cells.

Authors:  C Caux; C Dezutter-Dambuyant; D Schmitt; J Banchereau
Journal:  Nature       Date:  1992-11-19       Impact factor: 49.962

9.  EBI1/CCR7 is a new member of dendritic cell chemokine receptor that is up-regulated upon maturation.

Authors:  S Yanagihara; E Komura; J Nagafune; H Watarai; Y Yamaguchi
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10.  Blood screening for influenza.

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Journal:  Emerg Infect Dis       Date:  2007-07       Impact factor: 6.883
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  40 in total

1.  Monocytes, viruses and metaphors: hanging the Trojan horse.

Authors:  Jonathan W Yewdell; Christopher B Brooke
Journal:  Cell Cycle       Date:  2012-05-01       Impact factor: 4.534

2.  Immune Consequences of in vitro Infection of Human Peripheral Blood Leukocytes with Vesicular Stomatitis Virus.

Authors:  Tomasz Tomczyk; Grażyna Wróbel; Radosław Chaber; Iwona Siemieniec; Egbert Piasecki; Małgorzata Krzystek-Korpacka; Beata U Orzechowska
Journal:  J Innate Immun       Date:  2018-01-06       Impact factor: 7.349

3.  A compendium of monocyte transcriptome datasets to foster biomedical knowledge discovery.

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Journal:  F1000Res       Date:  2016-03-07

4.  Improved Early Detection of Sepsis in the ED With a Novel Monocyte Distribution Width Biomarker.

Authors:  Elliott D Crouser; Joseph E Parrillo; Christopher Seymour; Derek C Angus; Keri Bicking; Liliana Tejidor; Robert Magari; Diana Careaga; JoAnna Williams; Douglas R Closser; Michael Samoszuk; Luke Herren; Emily Robart; Fernando Chaves
Journal:  Chest       Date:  2017-06-15       Impact factor: 9.410

5.  Mobilizing monocytes to cross-present circulating viral antigen in chronic infection.

Authors:  Adam J Gehring; Muzlifah Haniffa; Patrick T Kennedy; Zi Zong Ho; Carolina Boni; Amanda Shin; Nasirah Banu; Adeline Chia; Seng Gee Lim; Carlo Ferrari; Florent Ginhoux; Antonio Bertoletti
Journal:  J Clin Invest       Date:  2013-08-01       Impact factor: 14.808

6.  Myxoma and vaccinia viruses bind differentially to human leukocytes.

Authors:  Winnie M Chan; Eric C Bartee; Jan S Moreb; Ken Dower; John H Connor; Grant McFadden
Journal:  J Virol       Date:  2013-02-06       Impact factor: 5.103

7.  Human mucosal-associated invariant T cells contribute to antiviral influenza immunity via IL-18-dependent activation.

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8.  Efficient influenza A virus replication in the respiratory tract requires signals from TLR7 and RIG-I.

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Review 9.  Vitamin D and influenza.

Authors:  Maria E Sundaram; Laura A Coleman
Journal:  Adv Nutr       Date:  2012-07-01       Impact factor: 8.701

Review 10.  Dendritic cell apoptosis and the pathogenesis of dengue.

Authors:  Sharon de T Martins; Guilherme F Silveira; Lysangela R Alves; Claudia Nunes Duarte dos Santos; Juliano Bordignon
Journal:  Viruses       Date:  2012-11-01       Impact factor: 5.048
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