Literature DB >> 25599080

IFITM-Family Proteins: The Cell's First Line of Antiviral Defense.

Charles C Bailey1, Guocai Zhong1, I-Chueh Huang2, Michael Farzan1.   

Abstract

Animal cells use a wide variety of mechanisms to slow or prevent replication of viruses. These mechanisms are usually mediated by antiviral proteins whose expression and activities can be constitutive but are frequently amplified by interferon induction. Among these interferon-stimulated proteins, members of the IFITM (interferon-induced transmembrane) family are unique because they prevent infection before a virus can traverse the lipid bilayer of the cell. At least three human IFITM proteins-IFITM1, IFITM2, and IFITM3-have antiviral activities. These activities limit infection in cultured cells by many viruses, including dengue virus, Ebola virus, influenza A virus, severe acute respiratory syndrome coronavirus, and West Nile virus. Murine Ifitm3 controls influenza A virus infection in vivo, and polymorphisms in human IFITM3 correlate with the severity of both seasonal and highly pathogenic avian influenza virus. Here we review the discovery and characterization of the IFITM proteins, describe the spectrum of their antiviral activities, and discuss potential mechanisms underlying these effects.

Entities:  

Keywords:  Ebola virus; IFITM3; SARS coronavirus; dengue virus; flavivirus; influenza A virus; interferon; restriction factor; viral entry

Year:  2014        PMID: 25599080      PMCID: PMC4295558          DOI: 10.1146/annurev-virology-031413-085537

Source DB:  PubMed          Journal:  Annu Rev Virol        ISSN: 2327-056X            Impact factor:   10.431


  75 in total

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Journal:  Nat Immunol       Date:  2004-11       Impact factor: 25.606

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Authors:  S Takahashi; C Doss; S Levy; R Levy
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Journal:  Science       Date:  2005-04-14       Impact factor: 47.728

4.  Induction of T cell aggregation by antibody to a 16kd human leukocyte surface antigen.

Authors:  Y X Chen; K Welte; D H Gebhard; R L Evans
Journal:  J Immunol       Date:  1984-11       Impact factor: 5.422

5.  Strategy for nonenveloped virus entry: a hydrophobic conformer of the reovirus membrane penetration protein micro 1 mediates membrane disruption.

Authors:  Kartik Chandran; Diane L Farsetta; Max L Nibert
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6.  Binding of IFITM1 enhances the inhibiting effect of caveolin-1 on ERK activation.

Authors:  Ye Xu; Guohua Yang; Gengxi Hu
Journal:  Acta Biochim Biophys Sin (Shanghai)       Date:  2009-06       Impact factor: 3.848

7.  IFITM3 inhibits influenza A virus infection by preventing cytosolic entry.

Authors:  Eric M Feeley; Jennifer S Sims; Sinu P John; Christopher R Chin; Thomas Pertel; Li-Mei Chen; Gaurav D Gaiha; Bethany J Ryan; Ruben O Donis; Stephen J Elledge; Abraham L Brass
Journal:  PLoS Pathog       Date:  2011-10-27       Impact factor: 6.823

8.  SARS coronavirus, but not human coronavirus NL63, utilizes cathepsin L to infect ACE2-expressing cells.

Authors:  I-Chueh Huang; Berend Jan Bosch; Fang Li; Wenhui Li; Kyoung Hoa Lee; Sorina Ghiran; Natalya Vasilieva; Terence S Dermody; Stephen C Harrison; Philip R Dormitzer; Michael Farzan; Peter J M Rottier; Hyeryun Choe
Journal:  J Biol Chem       Date:  2005-12-08       Impact factor: 5.157

9.  Chicken interferon-inducible transmembrane protein 3 restricts influenza viruses and lyssaviruses in vitro.

Authors:  S E Smith; M S Gibson; R S Wash; F Ferrara; E Wright; N Temperton; P Kellam; M Fife
Journal:  J Virol       Date:  2013-09-25       Impact factor: 5.103

10.  Identification of an endocytic signal essential for the antiviral action of IFITM3.

Authors:  Rui Jia; Fengwen Xu; Jin Qian; Yunfang Yao; Chunhui Miao; Yi-Min Zheng; Shan-Lu Liu; Fei Guo; Yunqi Geng; Wentao Qiao; Chen Liang
Journal:  Cell Microbiol       Date:  2014-02-13       Impact factor: 3.715
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  188 in total

1.  Calculated risk: a new single-nucleotide polymorphism linked to severe influenza disease.

Authors:  Amie J Eisfeld; Yoshihiro Kawaoka
Journal:  Nat Med       Date:  2017-08-04       Impact factor: 53.440

2.  BioID screening of biotinylation sites using the avidin-like protein Tamavidin 2-REV identifies global interactors of stimulator of interferon genes (STING).

Authors:  Kou Motani; Hidetaka Kosako
Journal:  J Biol Chem       Date:  2020-06-17       Impact factor: 5.157

3.  Expression and Cellular Localization of IFITM1 in Normal and Injured Rat Spinal Cords.

Authors:  Ying Wang; Yu-Hong Lin; Yan Wu; Zong-Feng Yao; Jie Tang; Lin Shen; Rui Wang; Shu-Qin Ding; Jian-Guo Hu; He-Zuo Lü
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Review 4.  Type I interferon signaling, regulation and gene stimulation in chronic virus infection.

Authors:  Sabelo Lukhele; Giselle M Boukhaled; David G Brooks
Journal:  Semin Immunol       Date:  2019-05-30       Impact factor: 11.130

5.  pH regulation in early endosomes and interferon-inducible transmembrane proteins control avian retrovirus fusion.

Authors:  Tanay M Desai; Mariana Marin; Caleb Mason; Gregory B Melikyan
Journal:  J Biol Chem       Date:  2017-03-24       Impact factor: 5.157

6.  The V3 Loop of HIV-1 Env Determines Viral Susceptibility to IFITM3 Impairment of Viral Infectivity.

Authors:  Yimeng Wang; Qinghua Pan; Shilei Ding; Zhen Wang; Jingyou Yu; Andrés Finzi; Shan-Lu Liu; Chen Liang
Journal:  J Virol       Date:  2017-03-13       Impact factor: 5.103

7.  A balancing act between IFITM3 and IRF3.

Authors:  Temet M McMichael; Mahesh Chemudupati; Jacob S Yount
Journal:  Cell Mol Immunol       Date:  2017-04-24       Impact factor: 11.530

Review 8.  How the Respiratory Epithelium Senses and Reacts to Influenza Virus.

Authors:  Kambez H Benam; Laura Denney; Ling-Pei Ho
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Review 9.  Antiviral resistance of stem cells.

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Journal:  Curr Opin Immunol       Date:  2018-10-20       Impact factor: 7.486

10.  The Interferon-Stimulated Gene IFITM3 Restricts Infection and Pathogenesis of Arthritogenic and Encephalitic Alphaviruses.

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