1. Endogenous spacing enables co-processing of microRNAs and efficient combinatorial RNAi
- Author
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Amen, Alexandra M, Loughran, Ryan M, Huang, Chun-Hao, Lew, Rachel J, Ravi, Archna, Guan, Yuanzhe, Schatoff, Emma M, Dow, Lukas E, Emerling, Brooke M, and Fellmann, Christof
- Subjects
Medicinal and Biomolecular Chemistry ,Chemical Sciences ,Genetics ,Cancer ,Rare Diseases ,Neurosciences ,Biotechnology ,RNA interference ,RNAi ,cancer modeling ,combinatorial target inhibition ,gene regulation ,microRNA ,target discovery ,target validation ,viral vectors - Abstract
We present Multi-miR, a microRNA-embedded shRNA system modeled after endogenous microRNA clusters that enables simultaneous expression of up to three or four short hairpin RNAs (shRNAs) from a single promoter without loss of activity, enabling robust combinatorial RNA interference (RNAi). We further developed complementary all-in-one vectors that are over one log-scale more sensitive to doxycycline-mediated activation in vitro than previous methods and resistant to shRNA inactivation in vivo. We demonstrate the utility of this system for intracranial expression of shRNAs in a glioblastoma model. Additionally, we leverage this platform to target the redundant RAF signaling node in a mouse model of KRAS-mutant cancer and show that robust combinatorial synthetic lethality efficiently abolishes tumor growth.
- Published
- 2022