Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA

Philipp Reautschnig; Carolin Fruhner; Nicolai Wahn; Charlotte P. Wiegand; Sabrina Kragness; John F. Yung; Daniel T. Hofacker; Jenna Fisk; Michelle Eidelman; Nils Waffenschmidt; Maximilian Feige; Laura S. Pfeiffer; Annika E. Schulz; Yvonne Füll; Erez Y. Levanon; Gail Mandel; Thorsten Stafforst

doi:10.1038/s41587-024-02313-0

Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA

Philipp Reautschnig, Carolin Fruhner, Nicolai Wahn, Charlotte P. Wiegand, Sabrina Kragness, John F. Yung, Daniel T. Hofacker, Jenna Fisk, Michelle Eidelman, Nils Waffenschmidt, Maximilian Feige, Laura S. Pfeiffer, Annika E. Schulz, Yvonne Füll, Erez Y. Levanon, Gail Mandel, Thorsten Stafforst

The Mina and Everard Goodman Faculty of Life Sciences - at Bar-Ilan University

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

Recruiting the endogenous editing enzyme adenosine deaminase acting on RNA (ADAR) with tailored guide RNAs for adenosine-to-inosine (A-to-I) RNA base editing is promising for safely manipulating genetic information at the RNA level. However, the precision and efficiency of editing are often compromised by bystander off-target editing. Here, we find that in 5′-UAN triplets, which dominate bystander editing, G•U wobble base pairs effectively mitigate off-target events while maintaining high on-target efficiency. This strategy is universally applicable to existing A-to-I RNA base-editing systems and complements other suppression methods such as G•A mismatches and uridine (U) depletion. Combining wobble base pairing with a circularized format of the CLUSTER approach achieves highly precise and efficient editing (up to 87%) of a disease-relevant mutation in the Mecp2 transcript in cell culture. Virus-mediated delivery of the guide RNA alone realizes functional MeCP2 protein restoration in the central nervous system of a murine Rett syndrome model with editing yields of up to 19% and excellent bystander control in vivo.

Original language	English
Article number	319
Pages (from-to)	545-557
Number of pages	13
Journal	Nature biotechnology
Volume	43
Issue number	4
Early online date	12 Jul 2024
DOIs	https://doi.org/10.1038/s41587-024-02313-0
State	Published - Apr 2025

All Science Journal Classification (ASJC) codes

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology
Molecular Medicine
Biomedical Engineering

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10.1038/s41587-024-02313-0

https://www.nature.com/articles/s41587-024-02313-0.pdfLicense: CC BY

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Reautschnig, P., Fruhner, C., Wahn, N., Wiegand, C. P., Kragness, S., Yung, J. F., Hofacker, D. T., Fisk, J., Eidelman, M., Waffenschmidt, N., Feige, M., Pfeiffer, L. S., Schulz, A. E., Füll, Y., Levanon, E. Y., Mandel, G., & Stafforst, T. (2025). Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA. Nature biotechnology, 43(4), 545-557. Article 319. https://doi.org/10.1038/s41587-024-02313-0

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title = "Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA",

abstract = "Recruiting the endogenous editing enzyme adenosine deaminase acting on RNA (ADAR) with tailored guide RNAs for adenosine-to-inosine (A-to-I) RNA base editing is promising for safely manipulating genetic information at the RNA level. However, the precision and efficiency of editing are often compromised by bystander off-target editing. Here, we find that in 5′-UAN triplets, which dominate bystander editing, G•U wobble base pairs effectively mitigate off-target events while maintaining high on-target efficiency. This strategy is universally applicable to existing A-to-I RNA base-editing systems and complements other suppression methods such as G•A mismatches and uridine (U) depletion. Combining wobble base pairing with a circularized format of the CLUSTER approach achieves highly precise and efficient editing (up to 87\%) of a disease-relevant mutation in the Mecp2 transcript in cell culture. Virus-mediated delivery of the guide RNA alone realizes functional MeCP2 protein restoration in the central nervous system of a murine Rett syndrome model with editing yields of up to 19\% and excellent bystander control in vivo.",

author = "Philipp Reautschnig and Carolin Fruhner and Nicolai Wahn and Wiegand, \{Charlotte P.\} and Sabrina Kragness and Yung, \{John F.\} and Hofacker, \{Daniel T.\} and Jenna Fisk and Michelle Eidelman and Nils Waffenschmidt and Maximilian Feige and Pfeiffer, \{Laura S.\} and Schulz, \{Annika E.\} and Yvonne F{\"u}ll and Levanon, \{Erez Y.\} and Gail Mandel and Thorsten Stafforst",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2025",

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doi = "10.1038/s41587-024-02313-0",

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Reautschnig, P, Fruhner, C, Wahn, N, Wiegand, CP, Kragness, S, Yung, JF, Hofacker, DT, Fisk, J, Eidelman, M, Waffenschmidt, N, Feige, M, Pfeiffer, LS, Schulz, AE, Füll, Y, Levanon, EY, Mandel, G & Stafforst, T 2025, 'Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA', Nature biotechnology, vol. 43, no. 4, 319, pp. 545-557. https://doi.org/10.1038/s41587-024-02313-0

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T1 - Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA

AU - Reautschnig, Philipp

AU - Fruhner, Carolin

AU - Wahn, Nicolai

AU - Wiegand, Charlotte P.

AU - Kragness, Sabrina

AU - Yung, John F.

AU - Hofacker, Daniel T.

AU - Fisk, Jenna

AU - Eidelman, Michelle

AU - Waffenschmidt, Nils

AU - Feige, Maximilian

AU - Pfeiffer, Laura S.

AU - Schulz, Annika E.

AU - Füll, Yvonne

AU - Levanon, Erez Y.

AU - Mandel, Gail

AU - Stafforst, Thorsten

PY - 2025/4

Y1 - 2025/4

N2 - Recruiting the endogenous editing enzyme adenosine deaminase acting on RNA (ADAR) with tailored guide RNAs for adenosine-to-inosine (A-to-I) RNA base editing is promising for safely manipulating genetic information at the RNA level. However, the precision and efficiency of editing are often compromised by bystander off-target editing. Here, we find that in 5′-UAN triplets, which dominate bystander editing, G•U wobble base pairs effectively mitigate off-target events while maintaining high on-target efficiency. This strategy is universally applicable to existing A-to-I RNA base-editing systems and complements other suppression methods such as G•A mismatches and uridine (U) depletion. Combining wobble base pairing with a circularized format of the CLUSTER approach achieves highly precise and efficient editing (up to 87%) of a disease-relevant mutation in the Mecp2 transcript in cell culture. Virus-mediated delivery of the guide RNA alone realizes functional MeCP2 protein restoration in the central nervous system of a murine Rett syndrome model with editing yields of up to 19% and excellent bystander control in vivo.

AB - Recruiting the endogenous editing enzyme adenosine deaminase acting on RNA (ADAR) with tailored guide RNAs for adenosine-to-inosine (A-to-I) RNA base editing is promising for safely manipulating genetic information at the RNA level. However, the precision and efficiency of editing are often compromised by bystander off-target editing. Here, we find that in 5′-UAN triplets, which dominate bystander editing, G•U wobble base pairs effectively mitigate off-target events while maintaining high on-target efficiency. This strategy is universally applicable to existing A-to-I RNA base-editing systems and complements other suppression methods such as G•A mismatches and uridine (U) depletion. Combining wobble base pairing with a circularized format of the CLUSTER approach achieves highly precise and efficient editing (up to 87%) of a disease-relevant mutation in the Mecp2 transcript in cell culture. Virus-mediated delivery of the guide RNA alone realizes functional MeCP2 protein restoration in the central nervous system of a murine Rett syndrome model with editing yields of up to 19% and excellent bystander control in vivo.

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DO - 10.1038/s41587-024-02313-0

M3 - مقالة

C2 - 38997581

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SP - 545

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JO - Nature biotechnology

JF - Nature biotechnology

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M1 - 319

ER -

Precise in vivo RNA base editing with a wobble-enhanced circular CLUSTER guide RNA

Abstract

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