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Variation in the immune response to adenoviral vectors in the brain: Influence of mouse strain, environmental conditions and priming

Variation in the immune response to adenoviral vectors in the brain: Influence of mouse strain, environmental conditions and priming
Variation in the immune response to adenoviral vectors in the brain: Influence of mouse strain, environmental conditions and priming

E1-deleted adenoviral vectors expressing the bacterial β-galactosidase gene were inoculated into the brain of unprimed and primed C3H.He or C57BL/6J mice housed under either conventional or specific-pathogen-free (SPF) conditions. The kinetics of immune responses to both the vector and the transgene were investigated. In mice previously sensitized to adenovirus, the leukocyte infiltrate in the brain was dominated by CD8+ T cells, whereas in unprimed mice CD4+ T cells were present at higher levels. As expected, antibody titres to both adenovirus and β-galactosidase were higher in primed mice than in unprimed mice after intracranial inoculation. C3H.He mice consistently made higher antibody responses than C57BL/6J mice. Although adenoviral vectors induced an inflammatory response under all conditions, mice housed in SPF facilities exhibited less inflammation than conventional mice and transgene expression persisted for longer. Irrespective of whether the mice had been deliberately primed to adenovirus, antibody titres were consistently lower in SPF mice compared with conventional mice. This study clearly demonstrates that environmental conditions, as well as previous priming to adenovirus, will affect both the quality and duration of the immune response triggered by gene delivery to the brain.

Adenoviral vector, Brain, Environmental condition, Mouse strain, Priming, SPF
0969-7128
471-481
Ohmoto, Y.
e07279d2-1359-4403-ab87-d0af51b2b9b1
Charlton, H. M.
cbe7da5e-928b-40f6-a643-1ba50d8da22d
Kajiwara, K.
554485db-5fcd-4d05-967b-90d7c353708b
Perry, V. H.
8f29d36a-8e1f-4082-8700-09483bbaeae4
Wood, K. J.
5be32d79-6e7d-4deb-83af-2b8169e910ce
Ohmoto, Y.
e07279d2-1359-4403-ab87-d0af51b2b9b1
Charlton, H. M.
cbe7da5e-928b-40f6-a643-1ba50d8da22d
Kajiwara, K.
554485db-5fcd-4d05-967b-90d7c353708b
Perry, V. H.
8f29d36a-8e1f-4082-8700-09483bbaeae4
Wood, K. J.
5be32d79-6e7d-4deb-83af-2b8169e910ce

Ohmoto, Y., Charlton, H. M., Kajiwara, K., Perry, V. H. and Wood, K. J. (1999) Variation in the immune response to adenoviral vectors in the brain: Influence of mouse strain, environmental conditions and priming. Gene Therapy, 6 (4), 471-481. (doi:10.1038/sj.gt.3300851).

Record type: Article

Abstract

E1-deleted adenoviral vectors expressing the bacterial β-galactosidase gene were inoculated into the brain of unprimed and primed C3H.He or C57BL/6J mice housed under either conventional or specific-pathogen-free (SPF) conditions. The kinetics of immune responses to both the vector and the transgene were investigated. In mice previously sensitized to adenovirus, the leukocyte infiltrate in the brain was dominated by CD8+ T cells, whereas in unprimed mice CD4+ T cells were present at higher levels. As expected, antibody titres to both adenovirus and β-galactosidase were higher in primed mice than in unprimed mice after intracranial inoculation. C3H.He mice consistently made higher antibody responses than C57BL/6J mice. Although adenoviral vectors induced an inflammatory response under all conditions, mice housed in SPF facilities exhibited less inflammation than conventional mice and transgene expression persisted for longer. Irrespective of whether the mice had been deliberately primed to adenovirus, antibody titres were consistently lower in SPF mice compared with conventional mice. This study clearly demonstrates that environmental conditions, as well as previous priming to adenovirus, will affect both the quality and duration of the immune response triggered by gene delivery to the brain.

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More information

Published date: April 1999
Keywords: Adenoviral vector, Brain, Environmental condition, Mouse strain, Priming, SPF
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Identifiers

Local EPrints ID: 490134
URI: http://eprints.soton.ac.uk/id/eprint/490134
DOI: doi:10.1038/sj.gt.3300851
ISSN: 0969-7128
PURE UUID: 26a373c5-e4f5-4db6-9e23-4106fe083bae

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Date deposited: 15 May 2024 16:34
Last modified: 15 May 2024 16:34

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Contributors

Author: Y. Ohmoto
Author: H. M. Charlton
Author: K. Kajiwara
Author: V. H. Perry
Author: K. J. Wood

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