Adenovirus-mediated gene transfer to healing tendon––enhanced efficiency using a gelatin sponge

Abstract

Adenovirus-mediated gene transfer is a potential method for enhancing tendon healing. We investigated the transfection of Ad5CMVntLacZ, an adenovirus containing the reporter gene LacZ, in primary cultured human rotator cuff tendon cells and in a rat Achilles tendon healing model in vivo. Ad5CMVempty, the adenoviral vector containing no inserted gene, was used as a control for adenoviral transfection alone. Activity of β-galactosidase,the protein expressed by LacZ gene, was measured using a β-galactosidase assay and detected visually by X-gal staining. Cultured cells were successfully transfected without impairing cell viability. Maximal β-galactosidase activity was detected when cells were transfected at the dose of 1000 PFU/cell. The duration of LacZ expression was six days with a peak value at 24 h post-transfection. A transfection rate of 100% was obtained at 5000 PFU/cell. Successful in vivo transfection by Ad5CMVntLacZ was obtained in healing rat Achilles tendon as confirmed by X-gal staining. 0.4% of tendon cells were transfected when Ad5CMVntLacZ was injected into the tendon at a dose of 10 6 PFU. The rate rose to 2% with 10 8 PFU and 3% with 10 9 PFU. The duration of LacZ expression in vivo was 17 days. Transfection efficiency was enhanced threefold and localization improved when a gelatin sponge was used to deliver the adenovirus. The results demonstrate that adenovirus can be used to deliver a gene of interest to cultured human rotator cuff tendon cells and healing tendon, with gelatin sponge implantation enhancing adenoviral transfection efficiency in vivo.