Control of backbone chemistry and chirality boost oligonucleotide splice switching activity

Although recent regulatory approval of splice-switching oligonucleotides (SSOs) for the treatment of neuromuscular disease such as Duchenne muscular dystrophy has been an advance for the splice-switching field, current SSO chemistries have shown limited clinical benefit due to poor pharmacology. To...

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Autores principales: Kandasamy, Pachamuthu, McClorey, Graham, Shimizu, Mamoru, Kothari, Nayantara, Alam, Rowshon, Iwamoto, Naoki, Kumarasamy, Jayakanthan, Bommineni, Gopal R, Bezigian, Adam, Chivatakarn, Onanong, Butler, David C D, Byrne, Michael, Chwalenia, Katarzyna, Davies, Kay E, Desai, Jigar, Shelke, Juili Dilip, Durbin, Ann F, Ellerington, Ruth, Edwards, Ben, Godfrey, Jack, Hoss, Andrew, Liu, Fangjun, Longo, Kenneth, Lu, Genliang, Marappan, Subramanian, Oieni, Jacopo, Paik, Ik-Hyeon, Estabrook, Erin Purcell, Shivalila, Chikdu, Tischbein, Maeve, Kawamoto, Tomomi, Rinaldi, Carlo, Rajão-Saraiva, Joana, Tripathi, Snehlata, Yang, Hailin, Yin, Yuan, Zhao, Xiansi, Zhou, Cong, Zhang, Jason, Apponi, Luciano, Wood, Matthew J A, Vargeese, Chandra
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2022
Materias:
Chemical Biology and Nucleic Acid Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9178015/
https://www.ncbi.nlm.nih.gov/pubmed/35061895
http://dx.doi.org/10.1093/nar/gkac018
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author Kandasamy, Pachamuthu
McClorey, Graham
Shimizu, Mamoru
Kothari, Nayantara
Alam, Rowshon
Iwamoto, Naoki
Kumarasamy, Jayakanthan
Bommineni, Gopal R
Bezigian, Adam
Chivatakarn, Onanong
Butler, David C D
Byrne, Michael
Chwalenia, Katarzyna
Davies, Kay E
Desai, Jigar
Shelke, Juili Dilip
Durbin, Ann F
Ellerington, Ruth
Edwards, Ben
Godfrey, Jack
Hoss, Andrew
Liu, Fangjun
Longo, Kenneth
Lu, Genliang
Marappan, Subramanian
Oieni, Jacopo
Paik, Ik-Hyeon
Estabrook, Erin Purcell
Shivalila, Chikdu
Tischbein, Maeve
Kawamoto, Tomomi
Rinaldi, Carlo
Rajão-Saraiva, Joana
Tripathi, Snehlata
Yang, Hailin
Yin, Yuan
Zhao, Xiansi
Zhou, Cong
Zhang, Jason
Apponi, Luciano
Wood, Matthew J A
Vargeese, Chandra
author_facet Kandasamy, Pachamuthu
McClorey, Graham
Shimizu, Mamoru
Kothari, Nayantara
Alam, Rowshon
Iwamoto, Naoki
Kumarasamy, Jayakanthan
Bommineni, Gopal R
Bezigian, Adam
Chivatakarn, Onanong
Butler, David C D
Byrne, Michael
Chwalenia, Katarzyna
Davies, Kay E
Desai, Jigar
Shelke, Juili Dilip
Durbin, Ann F
Ellerington, Ruth
Edwards, Ben
Godfrey, Jack
Hoss, Andrew
Liu, Fangjun
Longo, Kenneth
Lu, Genliang
Marappan, Subramanian
Oieni, Jacopo
Paik, Ik-Hyeon
Estabrook, Erin Purcell
Shivalila, Chikdu
Tischbein, Maeve
Kawamoto, Tomomi
Rinaldi, Carlo
Rajão-Saraiva, Joana
Tripathi, Snehlata
Yang, Hailin
Yin, Yuan
Zhao, Xiansi
Zhou, Cong
Zhang, Jason
Apponi, Luciano
Wood, Matthew J A
Vargeese, Chandra
author_sort Kandasamy, Pachamuthu
collection PubMed
description Although recent regulatory approval of splice-switching oligonucleotides (SSOs) for the treatment of neuromuscular disease such as Duchenne muscular dystrophy has been an advance for the splice-switching field, current SSO chemistries have shown limited clinical benefit due to poor pharmacology. To overcome limitations of existing technologies, we engineered chimeric stereopure oligonucleotides with phosphorothioate (PS) and phosphoryl guanidine-containing (PN) backbones. We demonstrate that these chimeric stereopure oligonucleotides have markedly improved pharmacology and efficacy compared with PS-modified oligonucleotides, preventing premature death and improving median survival from 49 days to at least 280 days in a dystrophic mouse model with an aggressive phenotype. These data demonstrate that chemical optimization alone can profoundly impact oligonucleotide pharmacology and highlight the potential for continued innovation around the oligonucleotide backbone. More specifically, we conclude that chimeric stereopure oligonucleotides are a promising splice-switching modality with potential for the treatment of neuromuscular and other genetic diseases impacting difficult to reach tissues such as the skeletal muscle and heart.
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spelling pubmed-91780152022-06-09 Control of backbone chemistry and chirality boost oligonucleotide splice switching activity Kandasamy, Pachamuthu McClorey, Graham Shimizu, Mamoru Kothari, Nayantara Alam, Rowshon Iwamoto, Naoki Kumarasamy, Jayakanthan Bommineni, Gopal R Bezigian, Adam Chivatakarn, Onanong Butler, David C D Byrne, Michael Chwalenia, Katarzyna Davies, Kay E Desai, Jigar Shelke, Juili Dilip Durbin, Ann F Ellerington, Ruth Edwards, Ben Godfrey, Jack Hoss, Andrew Liu, Fangjun Longo, Kenneth Lu, Genliang Marappan, Subramanian Oieni, Jacopo Paik, Ik-Hyeon Estabrook, Erin Purcell Shivalila, Chikdu Tischbein, Maeve Kawamoto, Tomomi Rinaldi, Carlo Rajão-Saraiva, Joana Tripathi, Snehlata Yang, Hailin Yin, Yuan Zhao, Xiansi Zhou, Cong Zhang, Jason Apponi, Luciano Wood, Matthew J A Vargeese, Chandra Nucleic Acids Res Chemical Biology and Nucleic Acid Chemistry Although recent regulatory approval of splice-switching oligonucleotides (SSOs) for the treatment of neuromuscular disease such as Duchenne muscular dystrophy has been an advance for the splice-switching field, current SSO chemistries have shown limited clinical benefit due to poor pharmacology. To overcome limitations of existing technologies, we engineered chimeric stereopure oligonucleotides with phosphorothioate (PS) and phosphoryl guanidine-containing (PN) backbones. We demonstrate that these chimeric stereopure oligonucleotides have markedly improved pharmacology and efficacy compared with PS-modified oligonucleotides, preventing premature death and improving median survival from 49 days to at least 280 days in a dystrophic mouse model with an aggressive phenotype. These data demonstrate that chemical optimization alone can profoundly impact oligonucleotide pharmacology and highlight the potential for continued innovation around the oligonucleotide backbone. More specifically, we conclude that chimeric stereopure oligonucleotides are a promising splice-switching modality with potential for the treatment of neuromuscular and other genetic diseases impacting difficult to reach tissues such as the skeletal muscle and heart. Oxford University Press 2022-01-21 /pmc/articles/PMC9178015/ /pubmed/35061895 http://dx.doi.org/10.1093/nar/gkac018 Text en © The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research. https://creativecommons.org/licenses/by-nc/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (https://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Chemical Biology and Nucleic Acid Chemistry
Kandasamy, Pachamuthu
McClorey, Graham
Shimizu, Mamoru
Kothari, Nayantara
Alam, Rowshon
Iwamoto, Naoki
Kumarasamy, Jayakanthan
Bommineni, Gopal R
Bezigian, Adam
Chivatakarn, Onanong
Butler, David C D
Byrne, Michael
Chwalenia, Katarzyna
Davies, Kay E
Desai, Jigar
Shelke, Juili Dilip
Durbin, Ann F
Ellerington, Ruth
Edwards, Ben
Godfrey, Jack
Hoss, Andrew
Liu, Fangjun
Longo, Kenneth
Lu, Genliang
Marappan, Subramanian
Oieni, Jacopo
Paik, Ik-Hyeon
Estabrook, Erin Purcell
Shivalila, Chikdu
Tischbein, Maeve
Kawamoto, Tomomi
Rinaldi, Carlo
Rajão-Saraiva, Joana
Tripathi, Snehlata
Yang, Hailin
Yin, Yuan
Zhao, Xiansi
Zhou, Cong
Zhang, Jason
Apponi, Luciano
Wood, Matthew J A
Vargeese, Chandra
Control of backbone chemistry and chirality boost oligonucleotide splice switching activity
title Control of backbone chemistry and chirality boost oligonucleotide splice switching activity
title_full Control of backbone chemistry and chirality boost oligonucleotide splice switching activity
title_fullStr Control of backbone chemistry and chirality boost oligonucleotide splice switching activity
title_full_unstemmed Control of backbone chemistry and chirality boost oligonucleotide splice switching activity
title_short Control of backbone chemistry and chirality boost oligonucleotide splice switching activity
title_sort control of backbone chemistry and chirality boost oligonucleotide splice switching activity
topic Chemical Biology and Nucleic Acid Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9178015/
https://www.ncbi.nlm.nih.gov/pubmed/35061895
http://dx.doi.org/10.1093/nar/gkac018
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