BACKGROUND: The AdEasy system has acquired preeminence amongst the various methods for producing first-generation, early region 1 (E1)-deleted human adenovirus (HAdV) vectors (AdVs) as a result of the fast and reproducible recovery of full-length AdV genomes via homologous recombination in Escherichia coli. METHODS: From the classical AdEasy system, a new production platform was derived to assemble first- and second-generation [i.e. E1- plus early region 2A (E2A)-deleted] AdVs displaying on their surface HAdV serotype 5 (HAdV5) fibers (F5) or chimeric fibers (F5/50) comprising the tail of F5 and the fiber shaft and knob of HAdV serotype 50 (HAdV50). The CD46-interacting chimeric fibers allow for the high-level transduction of various human primary cell types of clinical interest with low or no surface expression of the Coxsackievirus and adenovirus receptor. RESULTS: A new set of pAdEasy plasmid 'backbones' with or without E2A and encoding F5 or F5/50 was constructed and recombined in E. coli strain BJ5183 with a 'shuttle' plasmid coding for β-galactosidase. The resulting clones yielded AdV preparations with similar high titers following their rescue and propagation in producer cells. The AdVs with F5/50 were superior to those carrying F5 with respect to transducing human skeletal myocytes and mesenchymal stem cells. CONCLUSIONS: In the present study, an AdEasy system tailored for the production of not only first-, but also second-generation AdVs equipped with the receptor-interacting fiber domains of the prototypic species C HAdV5 or of the species B member HAdV50 is presented. This system expands the range of applications for this robust and versatile AdV production platform.
BACKGROUND: The AdEasy system has acquired preeminence amongst the various methods for producing first-generation, early region 1 (E1)-deleted human adenovirus (HAdV) vectors (AdVs) as a result of the fast and reproducible recovery of full-length AdV genomes via homologous recombination in Escherichia coli. METHODS: From the classical AdEasy system, a new production platform was derived to assemble first- and second-generation [i.e. E1- plus early region 2A (E2A)-deleted] AdVs displaying on their surface HAdV serotype 5 (HAdV5) fibers (F5) or chimeric fibers (F5/50) comprising the tail of F5 and the fiber shaft and knob of HAdV serotype 50 (HAdV50). The CD46-interacting chimeric fibers allow for the high-level transduction of various human primary cell types of clinical interest with low or no surface expression of the Coxsackievirus and adenovirus receptor. RESULTS: A new set of pAdEasy plasmid 'backbones' with or without E2A and encoding F5 or F5/50 was constructed and recombined in E. coli strain BJ5183 with a 'shuttle' plasmid coding for β-galactosidase. The resulting clones yielded AdV preparations with similar high titers following their rescue and propagation in producer cells. The AdVs with F5/50 were superior to those carrying F5 with respect to transducing human skeletal myocytes and mesenchymal stem cells. CONCLUSIONS: In the present study, an AdEasy system tailored for the production of not only first-, but also second-generation AdVs equipped with the receptor-interacting fiber domains of the prototypic species C HAdV5 or of the species B member HAdV50 is presented. This system expands the range of applications for this robust and versatile AdV production platform.
Authors: Maarten Holkers; Ignazio Maggio; Sara F D Henriques; Josephine M Janssen; Toni Cathomen; Manuel A F V Gonçalves Journal: Nat Methods Date: 2014-08-24 Impact factor: 28.547
Authors: Maarten Holkers; Ignazio Maggio; Jin Liu; Josephine M Janssen; Francesca Miselli; Claudio Mussolino; Alessandra Recchia; Toni Cathomen; Manuel A F V Gonçalves Journal: Nucleic Acids Res Date: 2012-12-28 Impact factor: 16.971
Authors: Ignazio Maggio; Maarten Holkers; Jin Liu; Josephine M Janssen; Xiaoyu Chen; Manuel A F V Gonçalves Journal: Sci Rep Date: 2014-05-29 Impact factor: 4.379
Authors: Ignazio Maggio; Luca Stefanucci; Josephine M Janssen; Jin Liu; Xiaoyu Chen; Vincent Mouly; Manuel A F V Gonçalves Journal: Nucleic Acids Res Date: 2016-01-13 Impact factor: 16.971