Efficient in vivo knock-down of estrogen receptor alpha: application of recombinant adenovirus vectors for delivery of short hairpin RNA

BACKGROUND: Adenovirus (Ad) mediated gene transfer is a well-established tool to transiently express constructs in livers of mice in vivo. In the present study, we determined the specificity and efficiency of Ad vectors expressing short hairpin (sh) RNA constructs to knock-down the estrogen receptor α (ERα). RESULTS: Two different shRNA constructs derived from the murine ERα coding sequence were designed (shERα). In vitro, transfection of three mouse cell lines with pSUPER-shERα constructs resulted in up to 80% reduction of endogenous ERα activity. A single mismatch in the target sequence eliminated the reduction of ERα activity, demonstrating the specificity of shERα. The subsequently generated Ad.shERα vectors were equally effective in vitro. In vivo, intravenous administration of Ad.shERα resulted in 70% reduced hepatic mouse ERα mRNA levels. Co-injection of Ad.shERα with an Ad vector containing a luciferase (luc) gene driven by an estrogen responsive element (ERE) containing promoter resulted in a significant (90% on day five) down-regulation of hepatic luciferase activity, as determined by non-invasive optical imaging. Down-regulation was sustained up to day seven post-injection. CONCLUSION: Ad mediated transfer of shERα expression constructs results in efficient and specific knockdown of endogenous ERα transcription both in vitro and in vivo.