Literature DB >> 21695042

Varicella zoster virus latency.

Emily Eshleman1, Aamir Shahzad, Randall J Cohrs.   

Abstract

Primary infection by varicella zoster virus (VZV) typically results in childhood chickenpox, at which time latency is established in the neurons of the cranial nerve, dorsal root and autonomic ganglia along the entire neuraxis. During latency, the histone-associated virus genome assumes a circular episomal configuration from which transcription is epigenetically regulated. The lack of an animal model in which VZV latency and reactivation can be studied, along with the difficulty in obtaining high-titer cell-free virus, has limited much of our understanding of VZV latency to descriptive studies of ganglia removed at autopsy and analogy to HSV-1, the prototype alphaherpesvirus. However, the lack of miRNA, detectable latency-associated transcript and T-cell surveillance during VZV latency highlight basic differences between the two neurotropic herpesviruses. This article focuses on VZV latency: establishment, maintenance and reactivation. Comparisons are made with HSV-1, with specific attention to differences that make these viruses unique human pathogens.

Entities:  

Year:  2011        PMID: 21695042      PMCID: PMC3118253          DOI: 10.2217/fvl.10.90

Source DB:  PubMed          Journal:  Future Virol        ISSN: 1746-0794            Impact factor:   1.831


  182 in total

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Journal:  Science       Date:  1991-09-13       Impact factor: 47.728

Review 2.  Neurological disease produced by varicella zoster virus reactivation without rash.

Authors:  Don Gilden; Randall J Cohrs; Ravi Mahalingam; Maria A Nagel
Journal:  Curr Top Microbiol Immunol       Date:  2010       Impact factor: 4.291

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Authors:  J P Katz; E T Bodin; D M Coen
Journal:  J Virol       Date:  1990-09       Impact factor: 5.103

4.  Latent varicella-zoster viral DNA in human trigeminal and thoracic ganglia.

Authors:  R Mahalingam; M Wellish; W Wolf; A N Dueland; R Cohrs; A Vafai; D Gilden
Journal:  N Engl J Med       Date:  1990-09-06       Impact factor: 91.245

5.  Distribution of latent herpes simplex virus type-1 and varicella zoster virus DNA in human trigeminal Ganglia.

Authors:  Randall J Cohrs; James J Laguardia; Donald Gilden
Journal:  Virus Genes       Date:  2005-10       Impact factor: 2.332

6.  A molecular and cellular model to explain the differences in reactivation from latency by herpes simplex and varicella-zoster viruses.

Authors:  P G Kennedy; I Steiner
Journal:  Neuropathol Appl Neurobiol       Date:  1994-08       Impact factor: 8.090

7.  Reactivation phenotype in rabbits of a herpes simplex virus type 1 mutant containing an unrelated antiapoptosis gene in place of latency-associated transcript.

Authors:  Ling Jin; Guey-Chuen Perng; Dale Carpenter; Kevin R Mott; Nelson Osorio; Julia Naito; David J Brick; Clinton Jones; Steven L Wechsler
Journal:  J Neurovirol       Date:  2007       Impact factor: 2.643

8.  A self-excisable infectious bacterial artificial chromosome clone of varicella-zoster virus allows analysis of the essential tegument protein encoded by ORF9.

Authors:  B Karsten Tischer; Benedikt B Kaufer; Marvin Sommer; Felix Wussow; Ann M Arvin; Nikolaus Osterrieder
Journal:  J Virol       Date:  2007-10-03       Impact factor: 5.103

9.  Prominence of the herpes simplex virus latency-associated transcript in trigeminal ganglia from seropositive humans.

Authors:  J G Stevens; L Haarr; D D Porter; M L Cook; E K Wagner
Journal:  J Infect Dis       Date:  1988-07       Impact factor: 5.226

10.  HSV-1 thymidine kinase promotes virulence and latency in the mouse.

Authors:  Y J Gordon; D M Gilden; Y Becker
Journal:  Invest Ophthalmol Vis Sci       Date:  1983-05       Impact factor: 4.799
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  23 in total

1.  Presentation and management of herpes zoster (shingles) in the geriatric population.

Authors:  Kenneth R Cohen; Rebecca L Salbu; Jerry Frank; Igor Israel
Journal:  P T       Date:  2013-04

Review 2.  Herpes zoster and the search for an effective vaccine.

Authors:  N Arnold; I Messaoudi
Journal:  Clin Exp Immunol       Date:  2016-07-25       Impact factor: 4.330

3.  Alphaherpesvirus DNA replication in dissociated human trigeminal ganglia.

Authors:  Randall J Cohrs; Hussain Badani; Nathan Bos; Charles Scianna; Ian Hoskins; Nicholas L Baird; Don Gilden
Journal:  J Neurovirol       Date:  2016-05-12       Impact factor: 2.643

4.  Targeted Genome Sequencing Reveals Varicella-Zoster Virus Open Reading Frame 12 Deletion.

Authors:  Randall J Cohrs; Katherine S Lee; Addilynn Beach; Bridget Sanford; Nicholas L Baird; Christina Como; Chiharu Graybill; Dallas Jones; Eden Tekeste; Mitchell Ballard; Xiaomi Chen; David Yalacki; Seth Frietze; Kenneth Jones; Tihana Lenac Rovis; Stipan Jonjić; Jürgen Haas; Don Gilden
Journal:  J Virol       Date:  2017-09-27       Impact factor: 5.103

5.  Translational medicine and varicella zoster virus: need for disease modeling.

Authors:  Aamir Shahzad; Don Gilden; Randall J Cohrs
Journal:  New Horiz Transl Med       Date:  2015-03-01

6.  HSV, axonal transport and Alzheimer's disease: in vitro and in vivo evidence for causal relationships.

Authors:  Elaine L Bearer
Journal:  Future Virol       Date:  2012-09       Impact factor: 1.831

7.  Detection of the genome and transcripts of a persistent DNA virus in neuronal tissues by fluorescent in situ hybridization combined with immunostaining.

Authors:  Frédéric Catez; Antoine Rousseau; Marc Labetoulle; Patrick Lomonte
Journal:  J Vis Exp       Date:  2014-01-23       Impact factor: 1.355

8.  Induction of varicella zoster virus DNA replication in dissociated human trigeminal ganglia.

Authors:  Randall J Cohrs; Hussain Badani; Nicholas L Baird; Teresa M White; Bridget Sanford; Don Gilden
Journal:  J Neurovirol       Date:  2016-09-28       Impact factor: 2.643

Review 9.  DNA viruses and cancer: insights from evolutionary biology.

Authors:  Nitesh Vinodbhai Pandey
Journal:  Virusdisease       Date:  2020-01-21

10.  Occupancy of RNA Polymerase II Phosphorylated on Serine 5 (RNAP S5P) and RNAP S2P on Varicella-Zoster Virus Genes 9, 51, and 66 Is Independent of Transcript Abundance and Polymerase Location within the Gene.

Authors:  Heather H Henderson; Kensey B Timberlake; Zoe A Austin; Hussain Badani; Bridget Sanford; Keriann Tremblay; Nicholas L Baird; Kenneth Jones; Joel Rovnak; Seth Frietze; Don Gilden; Randall J Cohrs
Journal:  J Virol       Date:  2015-11-11       Impact factor: 5.103
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