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. 2018 Jan 24;46(4):1635–1647. doi: 10.1093/nar/gky039

Systematic editing of synthetic RIG-I ligands to produce effective antiviral and anti-tumor RNA immunotherapies

Janghyun Lee 1,#, Eun-Byeol Park 2,#, Jiyoun Min 2,#,3, Si-Eun Sung 1,#, Yejin Jang 3, Jin Soo Shin 3, Dongmin Chun 2, Ki-Hun Kim 1, Jihyun Hwang 1, Mi-Kyung Lee 1,3, Yun Young Go 3, Dohyeong Kwon 2, Meehyein Kim 3,, Suk-Jo Kang 2,, Byong-Seok Choi 1,
PMCID: PMC5829749  PMID: 29373735

Abstract

Retinoic acid-inducible gene I (RIG-I) recognizes double-stranded viral RNAs (dsRNAs) containing two or three 5′ phosphates. A few reports of 5′-PPP-independent RIG-I agonists have emerged, but little is known about the molecular principles underlying their recognition. We recently found that the bent duplex RNA from the influenza A panhandle promoter activates RIG-I even in the absence of a 5′-triphosphate moiety. Here, we report that non-canonical synthetic RNA oligonucleotides containing G-U wobble base pairs that form a bent helix can exert RIG-I-mediated antiviral and anti-tumor effects in a sequence- and site-dependent manner. We present synthetic RNAs that have been systematically modified to enhance their efficacy and we outline the basic principles for engineering RIG-I agonists applicable to immunotherapy.


This article has been retracted, please see retraction notice 10.1093/nar/gky819 for further details.

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