Literature DB >> 35190679

Augmented lipid-nanoparticle-mediated in vivo genome editing in the lungs and spleen by disrupting Cas9 activity in the liver.

Cory D Sago1,2, Melissa P Lokugamage1,3, David Loughrey1, Kevin E Lindsay1, Robert Hincapie4, Brandon R Krupczak1, Sujay Kalathoor1, Manaka Sato1, Elisa Schrader Echeverri1, Jordan P Fitzgerald1, Zubao Gan1, Lena Gamboa1, Kalina Paunovska1, Carlos A Sanhueza4, Marine Z C Hatit1, M G Finn4, Philip J Santangelo1, James E Dahlman5.   

Abstract

Systemically delivered lipid nanoparticles are preferentially taken up by hepatocytes. This hinders the development of effective, non-viral means of editing genes in tissues other than the liver. Here we show that lipid-nanoparticle-mediated gene editing in the lung and spleen of adult mice can be enhanced by reducing Cas9-mediated insertions and deletions in hepatocytes via oligonucleotides disrupting the secondary structure of single-guide RNAs (sgRNAs) and also via their combination with short interfering RNA (siRNA) targeting Cas9 messenger RNA (mRNA). In SpCas9 mice with acute lung inflammation, the systemic delivery of an oligonucleotide inhibiting an sgRNA targeting the intercellular adhesion molecule 2 (ICAM-2), followed by the delivery of the sgRNA, reduced the fraction of ICAM-2 indels in hepatocytes and increased that in lung endothelial cells. In wild-type mice, the lipid-nanoparticle-mediated delivery of an inhibitory oligonucleotide, followed by the delivery of Cas9-degrading siRNA and then by Cas9 mRNA and sgRNA, reduced the fraction of ICAM-2 indels in hepatocytes but not in splenic endothelial cells. Inhibitory oligonucleotides and siRNAs could be used to modulate the cell-type specificity of Cas9 therapies.
© 2022. The Author(s), under exclusive licence to Springer Nature Limited.

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Year:  2022        PMID: 35190679     DOI: 10.1038/s41551-022-00847-9

Source DB:  PubMed          Journal:  Nat Biomed Eng        ISSN: 2157-846X            Impact factor:   29.234


  58 in total

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Authors:  Bumwhee Lee; Kunwoo Lee; Shree Panda; Rodrigo Gonzales-Rojas; Anthony Chong; Vladislav Bugay; Hyo Min Park; Robert Brenner; Niren Murthy; Hye Young Lee
Journal:  Nat Biomed Eng       Date:  2018-06-25       Impact factor: 25.671

4.  Structure-guided chemical modification of guide RNA enables potent non-viral in vivo genome editing.

Authors:  Hao Yin; Chun-Qing Song; Sneha Suresh; Qiongqiong Wu; Stephen Walsh; Luke Hyunsik Rhym; Esther Mintzer; Mehmet Fatih Bolukbasi; Lihua Julie Zhu; Kevin Kauffman; Haiwei Mou; Alicia Oberholzer; Junmei Ding; Suet-Yan Kwan; Roman L Bogorad; Timofei Zatsepin; Victor Koteliansky; Scot A Wolfe; Wen Xue; Robert Langer; Daniel G Anderson
Journal:  Nat Biotechnol       Date:  2017-11-13       Impact factor: 54.908

5.  A Single Administration of CRISPR/Cas9 Lipid Nanoparticles Achieves Robust and Persistent In Vivo Genome Editing.

Authors:  Jonathan D Finn; Amy Rhoden Smith; Mihir C Patel; Lucinda Shaw; Madeleine R Youniss; Jane van Heteren; Tanner Dirstine; Corey Ciullo; Reynald Lescarbeau; Jessica Seitzer; Ruchi R Shah; Aalok Shah; Dandan Ling; Jacqueline Growe; Melissa Pink; Ellen Rohde; Kristy M Wood; William E Salomon; William F Harrington; Christian Dombrowski; Walter R Strapps; Yong Chang; David V Morrissey
Journal:  Cell Rep       Date:  2018-02-27       Impact factor: 9.423

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Authors:  Kiran Musunuru; Alexandra C Chadwick; Taiji Mizoguchi; Sara P Garcia; Jamie E DeNizio; Caroline W Reiss; Kui Wang; Sowmya Iyer; Chaitali Dutta; Victoria Clendaniel; Michael Amaonye; Aaron Beach; Kathleen Berth; Souvik Biswas; Maurine C Braun; Huei-Mei Chen; Thomas V Colace; John D Ganey; Soumyashree A Gangopadhyay; Ryan Garrity; Lisa N Kasiewicz; Jennifer Lavoie; James A Madsen; Yuri Matsumoto; Anne Marie Mazzola; Yusuf S Nasrullah; Joseph Nneji; Huilan Ren; Athul Sanjeev; Madeleine Shay; Mary R Stahley; Steven H Y Fan; Ying K Tam; Nicole M Gaudelli; Giuseppe Ciaramella; Leslie E Stolz; Padma Malyala; Christopher J Cheng; Kallanthottathil G Rajeev; Ellen Rohde; Andrew M Bellinger; Sekar Kathiresan
Journal:  Nature       Date:  2021-05-19       Impact factor: 69.504

7.  Treatment of autosomal dominant hearing loss by in vivo delivery of genome editing agents.

Authors:  Xue Gao; Yong Tao; Veronica Lamas; Mingqian Huang; Wei-Hsi Yeh; Bifeng Pan; Yu-Juan Hu; Johnny H Hu; David B Thompson; Yilai Shu; Yamin Li; Hongyang Wang; Shiming Yang; Qiaobing Xu; Daniel B Polley; M Charles Liberman; Wei-Jia Kong; Jeffrey R Holt; Zheng-Yi Chen; David R Liu
Journal:  Nature       Date:  2017-12-20       Impact factor: 49.962

8.  Nanoparticle delivery of Cas9 ribonucleoprotein and donor DNA in vivo induces homology-directed DNA repair.

Authors:  Kunwoo Lee; Michael Conboy; Hyo Min Park; Fuguo Jiang; Hyun Jin Kim; Mark A Dewitt; Vanessa A Mackley; Kevin Chang; Anirudh Rao; Colin Skinner; Tamanna Shobha; Melod Mehdipour; Hui Liu; Wen-Chin Huang; Freeman Lan; Nicolas L Bray; Song Li; Jacob E Corn; Kazunori Kataoka; Jennifer A Doudna; Irina Conboy; Niren Murthy
Journal:  Nat Biomed Eng       Date:  2017-10-02       Impact factor: 25.671

9.  In vivo adenine base editing of PCSK9 in macaques reduces LDL cholesterol levels.

Authors:  Tanja Rothgangl; Melissa K Dennis; Paulo J C Lin; Rurika Oka; Dominik Witzigmann; Lukas Villiger; Weihong Qi; Martina Hruzova; Lucas Kissling; Daniela Lenggenhager; Costanza Borrelli; Sabina Egli; Nina Frey; Noëlle Bakker; John A Walker; Anastasia P Kadina; Denis V Victorov; Martin Pacesa; Susanne Kreutzer; Zacharias Kontarakis; Andreas Moor; Martin Jinek; Drew Weissman; Markus Stoffel; Ruben van Boxtel; Kevin Holden; Norbert Pardi; Beat Thöny; Johannes Häberle; Ying K Tam; Sean C Semple; Gerald Schwank
Journal:  Nat Biotechnol       Date:  2021-05-19       Impact factor: 54.908

10.  CRISPR-Cas9 In Vivo Gene Editing for Transthyretin Amyloidosis.

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Journal:  N Engl J Med       Date:  2021-06-26       Impact factor: 91.245
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  3 in total

1.  Disrupting off-target Cas9 activity in the liver.

Authors:  Sean A Dilliard; Daniel J Siegwart
Journal:  Nat Biomed Eng       Date:  2022-02       Impact factor: 25.671

2.  Piperazine-derived lipid nanoparticles deliver mRNA to immune cells in vivo.

Authors:  Huanzhen Ni; Marine Z C Hatit; Kun Zhao; David Loughrey; Melissa P Lokugamage; Hannah E Peck; Ada Del Cid; Abinaya Muralidharan; YongTae Kim; Philip J Santangelo; James E Dahlman
Journal:  Nat Commun       Date:  2022-08-15       Impact factor: 17.694

3.  Cell-specific regulation of gene expression using splicing-dependent frameshifting.

Authors:  Jonathan P Ling; Alexei M Bygrave; Clayton P Santiago; Rogger P Carmen-Orozco; Vickie T Trinh; Minzhong Yu; Yini Li; Ying Liu; Kyra D Bowden; Leighton H Duncan; Jeong Han; Kamil Taneja; Rochinelle Dongmo; Travis A Babola; Patrick Parker; Lizhi Jiang; Patrick J Leavey; Jennifer J Smith; Rachel Vistein; Megan Y Gimmen; Benjamin Dubner; Eric Helmenstine; Patric Teodorescu; Theodoros Karantanos; Gabriel Ghiaur; Patrick O Kanold; Dwight Bergles; Ben Langmead; Shuying Sun; Kristina J Nielsen; Neal Peachey; Mandeep S Singh; W Brian Dalton; Fatemeh Rajaii; Richard L Huganir; Seth Blackshaw
Journal:  Nat Commun       Date:  2022-10-01       Impact factor: 17.694
  3 in total

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