Abstract
In situ DNA hybridization of an E4 adenoviral sequence amplified by in situ polymerase chain reaction (PCR) was used to mark adenovirus-containing myonuclei in muscles of immunocompetent and immunosuppressed mdx mice following intramuscular injection of adenoviral recombinants. The adenoviral recombinants contained a 6.3-kb dystrophin cDNA (minigene) driven by a cytomegalovirus (CMV) promoter/enhancer and thus, immunostaining for dystrophin of the same sections permitted correlation of adenoviral recombinant-containing myonuclei with dystrophin positivity of the same muscle fiber segments. As early as 2 hr post-injection of adenoviral recombinant, an appreciable number of adenoviral recombinant-positive (AVR+) myonuclei, and some partial dystrophin positive (pdys+) fibers were observed. Some fully dystrophin-positive (dys+) muscle fibers were present as early as 6 hr. The maximum number of fibers containing AVR+ myonuclei (observed by 72 hr) was maintained until 60 days in immunosuppressed, but not in immunocompetent, animals. In immunocompetent animals, the maximum number of dys+ fibers was observed at 10 days. The vast majority of these fibers contained AVR+ myonuclei; however, by 60 days, dys+ fibers disappeared with some AVR+ myonuclei persisting. Our studies suggest that widespread delayed inactivation of the dystrophin expression cassette is probably unlikely. Thus, optimization of immunosuppression could assure successful long-term dystrophin gene transfer for gene therapy.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call