Chirality matters: stereo-defined phosphorothioate linkages at the termini of small interfering RNAs improve pharmacology in vivo

Author:

Jahns Hartmut1,Taneja Nate1,Willoughby Jennifer L S1,Akabane-Nakata Masaaki1,Brown Christopher R1ORCID,Nguyen Tuyen1,Bisbe Anna1,Matsuda Shigeo1,Hettinger Matt1,Manoharan Rajar M1,Rajeev Kallanthottathil G1,Maier Martin A1,Zlatev Ivan1ORCID,Charisse Klaus1,Egli Martin2ORCID,Manoharan Muthiah1ORCID

Affiliation:

1. Alnylam Pharmaceuticals, 675 W. Kendall St, Cambridge, MA 02142, USA

2. Department of Biochemistry, School of Medicine, Vanderbilt University, Nashville, TN 37232, USA

Abstract

Abstract A critical challenge for the successful development of RNA interference-based therapeutics therapeutics has been the enhancement of their in vivo metabolic stability. In therapeutically relevant, fully chemically modified small interfering RNAs (siRNAs), modification of the two terminal phosphodiester linkages in each strand of the siRNA duplex with phosphorothioate (PS) is generally sufficient to protect against exonuclease degradation in vivo. Since PS linkages are chiral, we systematically studied the properties of siRNAs containing single chiral PS linkages at each strand terminus. We report an efficient and simple method to introduce chiral PS linkages and demonstrate that Rp diastereomers at the 5′ end and Sp diastereomers at the 3′ end of the antisense siRNA strand improved pharmacokinetic and pharmacodynamic properties in a mouse model. In silico modeling studies provide mechanistic insights into how the Rp isomer at the 5′ end and Sp isomer at the 3′ end of the antisense siRNA enhance Argonaute 2 (Ago2) loading and metabolic stability of siRNAs in a concerted manner.

Funder

Alnylam Pharmaceuticals

Publisher

Oxford University Press (OUP)

Subject

Genetics

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