Replication-defective vector based on a chimpanzee adenovirus

SF Farina, G Gao, ZQ Xiang, JJ Rux… - Journal of …, 2001 - Am Soc Microbiol
SF Farina, G Gao, ZQ Xiang, JJ Rux, RM Burnett, MR Alvira, J Marsh, HCJ Ertl, JM Wilson
Journal of virology, 2001Am Soc Microbiol
An adenovirus previously isolated from a mesenteric lymph node from a chimpanzee was
fully sequenced and found to be similar in overall structure to human adenoviruses. The
genome of this virus, called C68, is 36,521 bp in length and is most similar to subgroup E of
human adenovirus, with 90% identity in most adenovirus type 4 open reading frames that
have been sequenced. Substantial differences in the hexon hypervariable regions were
noted between C68 and other known adenoviruses, including adenovirus type 4 …
Abstract
An adenovirus previously isolated from a mesenteric lymph node from a chimpanzee was fully sequenced and found to be similar in overall structure to human adenoviruses. The genome of this virus, called C68, is 36,521 bp in length and is most similar to subgroup E of human adenovirus, with 90% identity in most adenovirus type 4 open reading frames that have been sequenced. Substantial differences in the hexon hypervariable regions were noted between C68 and other known adenoviruses, including adenovirus type 4. Neutralizing antibodies to C68 were highly prevalent in sera from a population of chimpanzees, while sera from humans and rhesus monkeys failed to neutralize C68. Furthermore, infection with C68 was not neutralized from sera of mice immunized with human adenovirus serotypes 2, 4, 5, 7, and 12. A replication-defective version of C68 was created by replacing the E1a and E1b genes with a minigene cassette; this vector was efficiently transcomplemented by the E1 region of human adenovirus type 5. C68 vector transduced a number of human and murine cell lines. This nonhuman adenoviral vector is sufficiently similar to human serotypes to allow growth in 293 cells and transduction of cells expressing the coxsackievirus and adenovirus receptor. As it is dissimilar in regions such as the hexon hypervariable domains, C68 vector avoids significant cross-neutralization by sera directed against human serotypes.
American Society for Microbiology