Multi‑target inhibition by four tandem shRNAs embedded in homo‑ or hetero‑miRNA backbones

Abstract: The functional influence of microRNA (miRNA)backbone selection remains unclear with respect to multiplexing miRNA‑based short hairpin RNAs (shRNAmiRs), due to a lack of comparative studies. To this end, a pair of shRNAmiR tetramers were designed in the present study that targeted four genes with a shared miR30a backbone (homo‑BB) or four miRNA backbones (hetero‑BB). A PBLT+ 293A cell line overexpressing four targets was established, which permitted simultaneous dissection of individual gene knockdown. Multi‑ta… Show more

“…While this is complex in gene-editing approaches, t is relatively simple in a non-gene-edited approach. Multiple groups have combined either miRNA-or siRNA-like sequences in an effort to inhibit multiple target-sequences together either through a natural scaffold or a synthetic one [157][158][159][160]. We have recently developed a microRNA (miRNA)-based multiplex shRNA platform, obtained by combining highly efficient miRNA scaffolds into a chimeric cluster [161].…”

Allogeneic CAR-T Therapy Technologies: Has the Promise Been Met?

“…While this is complex in gene-editing approaches, t is relatively simple in a non-gene-edited approach. Multiple groups have combined either miRNA-or siRNA-like sequences in an effort to inhibit multiple target-sequences together either through a natural scaffold or a synthetic one [157][158][159][160]. We have recently developed a microRNA (miRNA)-based multiplex shRNA platform, obtained by combining highly efficient miRNA scaffolds into a chimeric cluster [161].…”

Allogeneic CAR-T Therapy Technologies: Has the Promise Been Met?