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. 2020 Jan;39(4):935-945.
doi: 10.1038/s41388-019-1020-2. Epub 2019 Sep 26.

TAG-RNAi overcomes off-target effects in cancer models

Julien Champagne  1   2   3 Laetitia K Linares  4 Benjamin Maurel  1   2   3 Alexandre Zampieri  1   2   3 Maeva Moreno  1   2   3 Ivanna Fuentes  1   2   3 Emeric Dubois  5 Dany Severac  5 Adrien Decorsière  1   2   3 Frédéric Bienvenu  6   7   8   9
Affiliations

TAG-RNAi overcomes off-target effects in cancer models

Julien Champagne et al. Oncogene. 2020 Jan.

Abstract

RNA interference offers therapeutic opportunities for the clinical targeting of otherwise undruggable oncogenes. However RNAi can have off-target effects that considerably increase treatment risks. To manage these side effects and allow an easy subtraction of their activity in healthy tissues, we present here the TAG-RNAi approach where cells that are not designated targets do not have the mRNA tag. Using TAG-RNAi we first established the off-target signatures of three different siRNAs specific to the Cyclin D1 oncogene by RNA-sequencing of cultured cancer cells expressing a FLAG-HA-tagged-Cyclin D1. Then, by symmetrical allografts of tagged-cancer cells and untagged controls on the left and right flanks of model mice, we demonstrate that TAG-RNAi is a reliable approach to study the functional impact of any oncogene without off-target bias. Finally we show, as examples, that mutation-specific TAG-RNAi can be applied to downregulate two oncogenic mutants, KRAS-G12V or BRAF-V600E, while sparing the expression of the wild-type proteins. TAG-RNAi will thus avoid the traditional off-target limitations of RNAi in future experimental approaches.

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