Literature DB >> 1661140

Latency-associated transcripts in corneas and ganglia of HSV-1 infected rabbits.

S D Cook1, J M Hill, C Lynas, N J Maitland.   

Abstract

Herpes simplex virus (HSV) establishes latent infection in the sensory neuron and possibly in non-neuronal tissue, particularly the cornea. During latency only one region of the HSV genome is transcribed, producing RNAs known as latency associated transcripts (LAT). The gene for LAT overlaps with the HSV gene for the protein ICPO in the downstream regions of both genes. Latency can occur in the absence of LAT. This study reports the detection of ICPO/LAT and thymidine kinase (TK) gene fragments by the polymerase chain reaction in DNA extracted from the corneas and trigeminal ganglia of latently infected rabbits. Both genes were detected in four of four trigeminal ganglia tested and in three of five corneas tested. More importantly, this study reports the first detection of LAT in RNA extracted from 9% of corneas from latently infected rabbits (n = 22) by the polymerase chain reaction. LAT was detected in RNA from 100% of the corresponding trigeminal ganglia (n = 22). Although LAT is not essential for latency, it remains the only known molecular marker for latent HSV infections. Detection of LAT in these rabbit corneas suggests that HSV latency may occur in this non-neuronal tissue and that reactivation from non-neuronal tissue may occur at a low frequency in animals in which HSV latency has been established.

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Year:  1991        PMID: 1661140      PMCID: PMC1042517          DOI: 10.1136/bjo.75.11.644

Source DB:  PubMed          Journal:  Br J Ophthalmol        ISSN: 0007-1161            Impact factor:   4.638


  41 in total

Review 1.  Herpes simplex keratitis: role of viral infection versus immune response.

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Journal:  Surv Ophthalmol       Date:  1991 Mar-Apr       Impact factor: 6.048

2.  Isolation of latent herpes simplex virus from the superior cervical and vagus ganglions of human beings.

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3.  Detection of latent virus mRNA in tissues using the polymerase chain reaction.

Authors:  C Lynas; S D Cook; K A Laycock; J W Bradfield; N J Maitland
Journal:  J Pathol       Date:  1989-04       Impact factor: 7.996

4.  Primer-directed enzymatic amplification of DNA with a thermostable DNA polymerase.

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Journal:  Science       Date:  1988-01-29       Impact factor: 47.728

5.  Analysis of enzymatically amplified beta-globin and HLA-DQ alpha DNA with allele-specific oligonucleotide probes.

Authors:  R K Saiki; T L Bugawan; G T Horn; K B Mullis; H A Erlich
Journal:  Nature       Date:  1986 Nov 13-19       Impact factor: 49.962

6.  Pathogenesis of herpetic neuritis and ganglionitis in mice: evidence for intra-axonal transport of infection.

Authors:  M L Cook; J G Stevens
Journal:  Infect Immun       Date:  1973-02       Impact factor: 3.441

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Authors:  J G Stevens; M L Cook
Journal:  Science       Date:  1971-08-27       Impact factor: 47.728

8.  Detection of herpes simplex virus type 1 gene expression in latently and productively infected mouse ganglia using the polymerase chain reaction.

Authors:  C Lynas; K A Laycock; S D Cook; T J Hill; W A Blyth; N J Maitland
Journal:  J Gen Virol       Date:  1989-09       Impact factor: 3.891

9.  Antiviral activity of phosphonylmethoxyalkyl derivatives of purine and pyrimidines.

Authors:  E De Clercq; T Sakuma; M Baba; R Pauwels; J Balzarini; I Rosenberg; A Holý
Journal:  Antiviral Res       Date:  1987-12       Impact factor: 5.970

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Authors:  J M Chirgwin; A E Przybyla; R J MacDonald; W J Rutter
Journal:  Biochemistry       Date:  1979-11-27       Impact factor: 3.162
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  13 in total

1.  Human herpesviruses in the cornea.

Authors:  S B Kaye; K Baker; R Bonshek; H Maseruka; E Grinfeld; A Tullo; D L Easty; C A Hart
Journal:  Br J Ophthalmol       Date:  2000-06       Impact factor: 4.638

Review 2.  Experimental investigation of herpes simplex virus latency.

Authors:  E K Wagner; D C Bloom
Journal:  Clin Microbiol Rev       Date:  1997-07       Impact factor: 26.132

Review 3.  Ocular herpes simplex virus: how are latency, reactivation, recurrent disease and therapy interrelated?

Authors:  Lena J Al-Dujaili; Patrick P Clerkin; Christian Clement; Harris E McFerrin; Partha S Bhattacharjee; Emily D Varnell; Herbert E Kaufman; James M Hill
Journal:  Future Microbiol       Date:  2011-08       Impact factor: 3.165

Review 4.  Ocular herpes simplex virus type 1: is the cornea a reservoir for viral latency or a fast pit stop?

Authors:  David P Kennedy; Christian Clement; Richard L Arceneaux; Partha S Bhattacharjee; Tashfin S Huq; James M Hill
Journal:  Cornea       Date:  2011-03       Impact factor: 2.651

5.  Corneal latency and transmission of herpes simplex virus-1.

Authors:  Asim V Farooq; Deepak Shukla
Journal:  Future Virol       Date:  2011-01       Impact factor: 1.831

6.  Herpes simplex virus genome replication and transcription during induced reactivation in the rabbit eye.

Authors:  G B Devi-Rao; J S Aguilar; M K Rice; H H Garza; D C Bloom; J M Hill; E K Wagner
Journal:  J Virol       Date:  1997-09       Impact factor: 5.103

7.  Deletion of Herpes Simplex Virus 1 MicroRNAs miR-H1 and miR-H6 Impairs Reactivation.

Authors:  Enrico R Barrozo; Sanae Nakayama; Pankaj Singh; Emilia A H Vanni; Ann M Arvin; Donna M Neumann; David C Bloom
Journal:  J Virol       Date:  2020-07-16       Impact factor: 5.103

8.  Quantitation of herpes simplex virus type 1 DNA and latency-associated transcripts in rabbit trigeminal ganglia demonstrates a stable reservoir of viral nucleic acids during latency.

Authors:  J M Hill; B M Gebhardt; R Wen; A M Bouterie; H W Thompson; R J O'Callaghan; W P Halford; H E Kaufman
Journal:  J Virol       Date:  1996-05       Impact factor: 5.103

9.  Simian varicella virus DNA is present and transcribed months after experimental infection of adult African green monkeys.

Authors:  Tiffany M White; Ravi Mahalingam; Vicki Traina-Dorge; Donald H Gilden
Journal:  J Neurovirol       Date:  2002-06       Impact factor: 2.643

10.  In vivo epinephrine reactivation of ocular herpes simplex virus type 1 in the rabbit is correlated to a 370-base-pair region located between the promoter and the 5' end of the 2.0 kilobase latency-associated transcript.

Authors:  J M Hill; J B Maggioncalda; H H Garza; Y H Su; N W Fraser; T M Block
Journal:  J Virol       Date:  1996-10       Impact factor: 5.103
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