Literature DB >> 6294236

Spread of virus and distribution of latent infection following ocular herpes simplex in the non-immune and immune mouse.

A B Tullo, C Shimeld, W A Blyth, T J Hill, D L Easty.   

Abstract

In both non-immune and immune mice infected with herpes simplex virus the incidence of latent infection of the trigeminal ganglion was related to the severity of ocular virus infection. During primary infection, virus was shown to travel via the ophthalmic part of the ganglion to reach the brainstem, from where centrifugal spread resulted in latent infection of neurones in the trigeminal ganglion which did not serve the site of inoculation. Primary infection also resulted in latent infection of the superior cervical ganglion. Shedding of virus occurred rarely in the tears of animals which had recovered from primary disease. In immune mice, spread of virus resulted in a much lower incidence of latent infection and that occurred only in ophthalmic neurones.

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Year:  1982        PMID: 6294236     DOI: 10.1099/0022-1317-63-1-95

Source DB:  PubMed          Journal:  J Gen Virol        ISSN: 0022-1317            Impact factor:   3.891


  26 in total

1.  Quantitative analysis of herpes simplex virus reactivation in vivo demonstrates that reactivation in the nervous system is not inhibited at early times postinoculation.

Authors:  N M Sawtell
Journal:  J Virol       Date:  2003-04       Impact factor: 5.103

2.  Latent herpes simplex virus type 1 transcripts in peripheral and central nervous system tissues of mice map to similar regions of the viral genome.

Authors:  A M Deatly; J G Spivack; E Lavi; D R O'Boyle; N W Fraser
Journal:  J Virol       Date:  1988-03       Impact factor: 5.103

3.  Acute and latent infection of mice immunised with HSV-1 ISCOM vaccine.

Authors:  M Erturk; T J Hill; C Shimeld; R Jennings
Journal:  Arch Virol       Date:  1992       Impact factor: 2.574

4.  Latency-associated transcript but not reactivatable virus is present in sensory ganglion neurons after inoculation of thymidine kinase-negative mutants of herpes simplex virus type 1.

Authors:  R B Tenser; K A Hay; W A Edris
Journal:  J Virol       Date:  1989-06       Impact factor: 5.103

5.  Immediate-early regulatory gene mutants define different stages in the establishment and reactivation of herpes simplex virus latency.

Authors:  D A Leib; D M Coen; C L Bogard; K A Hicks; D R Yager; D M Knipe; K L Tyler; P A Schaffer
Journal:  J Virol       Date:  1989-02       Impact factor: 5.103

6.  Targets of herpes simplex virus type 1 infection in a mouse corneal model.

Authors:  J R Martin; F J Jenkins; D B Henken
Journal:  Acta Neuropathol       Date:  1991       Impact factor: 17.088

7.  Eradication of herpes simplex virus persistence in rat trigeminal ganglia by retrograde axoplasmic transport.

Authors:  Y Iwasaki; T Yamamoto; H Konno; H Iizuka; H Kudo
Journal:  J Virol       Date:  1986-08       Impact factor: 5.103

8.  The enigma of herpes stromal disease.

Authors:  J McGill
Journal:  Br J Ophthalmol       Date:  1987-02       Impact factor: 4.638

9.  Gamma interferon can prevent herpes simplex virus type 1 reactivation from latency in sensory neurons.

Authors:  T Liu; K M Khanna; B N Carriere; R L Hendricks
Journal:  J Virol       Date:  2001-11       Impact factor: 5.103

10.  Effect of human apolipoprotein E genotype on the pathogenesis of experimental ocular HSV-1.

Authors:  Partha S Bhattacharjee; Donna M Neumann; Timothy P Foster; Saadallah Bouhanik; Christian Clement; Dass Vinay; Hilary W Thompson; James M Hill
Journal:  Exp Eye Res       Date:  2008-05-18       Impact factor: 3.467
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