An adenoviral vector deleted for all viral coding sequences results in enhanced safety and extended expression of a leptin transgene

Abstract: Adenoviral (Ad)-mediated in vivo gene transfer and expression are limited in part by cellular immune responses to viral-encoded proteins and͞or transgene immunogenicity. In an attempt to diminish the former responses, we have previously developed and described helper-dependent (HD) Ad vectors in which the viral protein coding sequences are completely eliminated. These HD vectors have up to 37 kb insert capacity, are easily propagated in a Cre recombinasebased system, and can be produced to high concentration a… Show more

“…Some researchers have reported that immune reaction to rAd has been suppressed by FK506 immunosuppression agent, 7 CTLA4Ig, 8 and a gutted adenovirus vector. [9][10][11] Thus, repetitive transduction to skeletal muscle could seem valid for consecutive expression of a therapeutic gene. The latter is caused by a maturation-dependent loss of the myofiber's susceptibility to rAd uptake which is due to structural and biochemical changes during muscle maturation.…”

Efficient repetitive gene delivery to skeletal muscle using recombinant adenovirus vector containing the Coxsackievirus and adenovirus receptor cDNA

“…Some researchers have reported that immune reaction to rAd has been suppressed by FK506 immunosuppression agent, 7 CTLA4Ig, 8 and a gutted adenovirus vector. [9][10][11] Thus, repetitive transduction to skeletal muscle could seem valid for consecutive expression of a therapeutic gene. The latter is caused by a maturation-dependent loss of the myofiber's susceptibility to rAd uptake which is due to structural and biochemical changes during muscle maturation.…”

Efficient repetitive gene delivery to skeletal muscle using recombinant adenovirus vector containing the Coxsackievirus and adenovirus receptor cDNA

“…11,14 -16 In addition, the elimination of all the adenoviral genes leaves room to allocate large expression cassettes, and therefore gutless adenoviruses are also designed as high-capacity adenoviral vectors. 11,14 -16 For correction of metabolic and/or hereditary diseases, different authors have used gutless vectors with nonregulable promoters showing long-term expression of transgenes such as ␣1-antitrypsin, 17,18 leptin, 19 apolipoprotein E, 20 and factor VIII and IX [21][22][23][24] at therapeutic levels without apparent hepatic toxicity.…”

Prolonged and inducible transgene expression in the liver using gutless adenovirus: A potential therapy for liver cancer

“…41,62,63 Last-generation helper-dependent or Gutless adenovirus R Alba et al gutless adenovirus vectors display reduced long-term toxicity and prolonged transgene expression compared to first-generation vectors after administration to peripheral organs of immunologically naïve animals. 56,[64][65][66][67][68] Lack of coding viral genes may account for reduced adaptive cellular immune response after systemic delivery of gutless vectors. Initially, gutless vectors are capable of transducing dendritic cells and stimulating Ad-specific T-cell responses, independent of viral gene transcription.…”

“…68 Gutless vectors have been shown to express non-immunogenic transgenes during the whole life of the mouse, while expression driven by first-generation adenovirus lasted at most for 3 months. [80][81][82] Therapeutic genes carried by gutless vectors have been administered to the liver of mouse models for different diseases, such as hemophilia A and B, 83,84 obesity, 66 familial hypercholesterolemia, 81,85-87 ornithine transcarbamylase deficiency, 88 diabetes 89 and chronic viral hepatitis. 90,91 Therapeutic levels of most proteins have been documented for a long-term duration.…”

Gutless adenovirus: last-generation adenovirus for gene therapy