Abstract
Adenoviral (Ad) infection involves attachment mediated by the Ad fiber protein binding to the coxsackievirus-adenovirus receptor (CAR) of a target cell and internalization facilitated by the interaction of the Ad penton base protein with α v integrins. To understand the relative importance of the Ad binding and internalization steps for the transduction of fetal skeletal muscle, we used a panel of genetically modified vectors that specifically ablate the fiber-CAR interaction (AdL.F*), the penton base-α v integrin interaction (AdL.PB*), or both (AdL.PB*F*) to transduce embryonic day 16 (E-16) mouse muscle in vivo and primary E-16 muscle cells in vitro. Quantification of transgene expression and vector genome copies revealed a striking absence of E-16 muscle transduction by AdL.F* and AdL.PB*F*. In contrast, fetal muscle transduction with AdL.PB* was not significantly different than with the unmodified vector. Similar results were observed within vitro Ad infection studies in primary E-16 muscle cells. From these data we conclude that the fiber-CAR interaction is important for the transduction of fetal muscle by Ad vectors. The high dependence on fiber-CAR binding will impact the development of strategies for Ad vector retargeting to achieve muscle-specific transduction in utero.
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