A large-scale chemical modification screen identifies design rules to generate siRNAs with high activity, high stability and low toxicity

Jesper B. Bramsen; Maria Bach Laursen; A. Nielsen; Thomas B. Hansen; Claus Bus; Niels Langkjær; B. Ravindra Babu; Torben Højland; Mikhail Abramov; Arthur Van Aerschot; Dalibor Odadzic; Romualdas Smičius; Jens Haas; Cordula Andree; Jharna Barman; Małgorzata Wenska; Puneet Srivastava; Chuanzheng Zhou; Dmytro Honcharenko; Simone Heß; Elke Müller; Georgii V. Bobkov; Sergey N. Mikhailov; Eugenio Fava; Thomas F. Meyer; Jyoti Chattopadhyaya; Marino Zerial; Joachim W. Engels; Piet Herdewijn; Jesper Wengel; Jørgen Kjems

doi:10.1093/nar/gkp106

A large-scale chemical modification screen identifies design rules to generate siRNAs with high activity, high stability and low toxicity

Jesper B. Bramsen(Goethe University Frankfurt), Maria Bach Laursen(Goethe University Frankfurt), A. Nielsen(Goethe University Frankfurt), Thomas B. Hansen(Goethe University Frankfurt), Claus Bus(Goethe University Frankfurt), Niels Langkjær(Goethe University Frankfurt), B. Ravindra Babu(Goethe University Frankfurt), Torben Højland(Goethe University Frankfurt), Mikhail Abramov(Goethe University Frankfurt), Arthur Van Aerschot(Goethe University Frankfurt), Dalibor Odadzic(Goethe University Frankfurt), Romualdas Smičius(Goethe University Frankfurt), Jens Haas(Goethe University Frankfurt), Cordula Andree(Goethe University Frankfurt), Jharna Barman(Goethe University Frankfurt), Małgorzata Wenska(Goethe University Frankfurt), Puneet Srivastava(Goethe University Frankfurt), Chuanzheng Zhou(Goethe University Frankfurt), Dmytro Honcharenko(Goethe University Frankfurt), Simone Heß(Goethe University Frankfurt), Elke Müller(Goethe University Frankfurt), Georgii V. Bobkov(Goethe University Frankfurt), Sergey N. Mikhailov(Goethe University Frankfurt), Eugenio Fava(Goethe University Frankfurt), Thomas F. Meyer(Goethe University Frankfurt), Jyoti Chattopadhyaya(Goethe University Frankfurt), Marino Zerial(Goethe University Frankfurt), Joachim W. Engels(Goethe University Frankfurt), Piet Herdewijn(Goethe University Frankfurt), Jesper Wengel(Goethe University Frankfurt), Jørgen Kjems(Goethe University Frankfurt)

Nucleic Acids Research

March 12, 2009

10.1093/nar/gkp106

Cited by 353Open Access

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Abstract

The use of chemically synthesized short interfering RNAs (siRNAs) is currently the method of choice to manipulate gene expression in mammalian cell culture, yet improvements of siRNA design is expectably required for successful application in vivo. Several studies have aimed at improving siRNA performance through the introduction of chemical modifications but a direct comparison of these results is difficult. We have directly compared the effect of 21 types of chemical modifications on siRNA activity and toxicity in a total of 2160 siRNA duplexes. We demonstrate that siRNA activity is primarily enhanced by favouring the incorporation of the intended antisense strand during RNA-induced silencing complex (RISC) loading by modulation of siRNA thermodynamic asymmetry and engineering of siRNA 3'-overhangs. Collectively, our results provide unique insights into the tolerance for chemical modifications and provide a simple guide to successful chemical modification of siRNAs with improved activity, stability and low toxicity.

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