Inhibition of histone deacetylase 1 (HDAC1) and HDAC2 enhances CRISPR/Cas9 genome editing

Liu Bin; Chen Siwei; La Rose Anouk; Chen Deng; Cao Fangyuan; Zwinderman Martijn; Kiemel Dominik; Aissi Manon; Dekker Frank J.; Haisma Hidde J.

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Inhibition of histone deacetylase 1 (HDAC1) and HDAC2 enhances CRISPR/Cas9 genome editing

机译：组蛋白脱乙酰酶1（HDAC1）和HDAC2的抑制增强了CRISPR / CAS9基因组编辑

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Despite the rapid development of CRISPR/Cas9-mediated gene editing technology, the gene editing potential of CRISPR/Cas9 is hampered by low efficiency, especially for clinical applications. One of the major challenges is that chromatin compaction inevitably limits the Cas9 protein access to the target DNA. However, chromatin compaction is precisely regulated by histone acetylation and deacetylation. To overcome these challenges, we have comprehensively assessed the impacts of histone modifiers such as HDAC (1-9) inhibitors and HAT (p300/CBP, Tip60 and MOZ) inhibitors, on CRISPR/Cas9 mediated gene editing efficiency. Our findings demonstrate that attenuation of HDAC1, HDAC2 activity, but not other HDACs, enhances CRISPR/Cas9-mediated gene knockout frequencies by NHEJ as well as gene knock-in by HDR. Conversely, inhibition of HDAC3 decreases gene editing frequencies. Furthermore, our study showed that attenuation of HDAC1, HDAC2 activity leads to an open chromatin state, facilitates Cas9 access and binding to the targeted DNA and increases the gene editing frequencies. This approach can be applied to other nucleases, such as ZFN and TALEN.

机译：尽管CRISPR / CAS9介导的基因编辑技术的快速发展，CRISPR / CAS9的基因编辑潜力通过低效率而受到阻碍，特别是对于临床应用。其中一个主要挑战是染色质压实不可避免地限制Cas9蛋白质对靶DNA的进入。然而，染色质压实精确地通过组蛋白乙酰化和脱乙酰化进行调节。为了克服这些挑战，我们全面评估了组蛋白改性剂如HDAC（1-9）抑制剂和帽子（P300 / CBP，TIP60和MOZ）抑制剂的影响，以CRISPR / CAS9介导的基因编辑效率。我们的研究结果表明，HDAC1，HDAC2活性但不是其他HDAC的衰减增强了NHEJ的CRISPR / CAS9介导的基因敲除频率以及HDR的基因敲入。相反，HDAC3对HDAC3的抑制降低了基因编辑频率。此外，我们的研究表明，HDAC1的衰减，HDAC2活性导致开放的染色质状态，便于CAS9进入并结合到靶向DNA，并增加基因编辑频率。这种方法可以应用于其他核酸酶，例如ZFN和TALEN。

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《Nucleic Acids Research》 |2020年第2期|共16页
作者
Liu Bin; Chen Siwei; La Rose Anouk; Chen Deng; Cao Fangyuan; Zwinderman Martijn; Kiemel Dominik; Aissi Manon; Dekker Frank J.; Haisma Hidde J.;
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Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

Univ Groningen Groningen Res Inst Pharm Dept Chem &

Pharmaceut Biol NL-9713 AV Groningen Netherlands;

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中图分类生物化学;
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专利

1. Inhibition of histone deacetylase 1 (HDAC1) and HDAC2 enhances CRISPR/Cas9 genome editing [J] . Liu Bin, Chen Siwei, La Rose Anouk, Nucleic Acids Research . 2020,第2期

机译：组蛋白脱乙酰酶1（HDAC1）和HDAC2的抑制增强了CRISPR / CAS9基因组编辑
2. Inactivation of Histone Deacetylase 1 (HDAC1) But Not HDAC2 Is Required for the Glucocorticoid-Dependent CCAAT/Enhancer-Binding Protein alpha (C/EBP alpha) Expression and Preadipocyte Differentiation [J] . Kuzmochka Claire, Abdou Houssein-Salem, Hache Robert J. G., Endocrinology . 2014,第12期

机译：组蛋白去乙酰化酶1（HDAC1）灭活，但糖皮质激素依赖性CCAAT /增强子结合蛋白alpha（C / EBP alpha）表达和前脂肪细胞分化不需要HDAC2
3. Dissecting Tissue-Specific Super-Enhancers by Integrating Genome-Wide Analyses and CRISPR/Cas9 Genome Editing [J] . Yoo Kyung Hyun, Hennighausen Lothar, Shin Ha Youn Journal of mammary gland biology and neoplasia . 2019,第1期

机译：通过整合基因组分析和CRISPR / CAS9基因组编辑来解剖组织特异性超增强剂
4. Targeted genome editing in potato protoplast via optical delivery of CRISPR/Cas9 ribonucleoproteins [C] . Anke Londenberg, Frederik-Matti Bartels, Joseph Kpakpo Quaye, Nanophotonics Conference . 2020

机译：通过光学递送CRISPR / Cas9核糖核蛋白在马铃薯原生质体中进行靶向基因组编辑
5. Regulation of NF-kappaB activity by the class I histone deacetylases, HDAC1, HDAC2, HDAC3 corepressors and the spermidine/spermine N1 acetyltransferase 2 (SSAT2) coactivator. [D] . Boeke, Marta. 2008

机译：I类组蛋白脱乙酰基酶，HDAC1，HDAC2，HDAC3核心加压因子和亚精胺/精胺N1乙酰转移酶2（SSAT2）共激活剂对NF-κB活性的调节。
6. Inhibition of histone deacetylase 1 (HDAC1) and HDAC2 enhances CRISPR/Cas9 genome editing [O] . Bin Liu, Siwei Chen, Anouk La Rose, 2020

机译：抑制组蛋白脱乙酰基酶1（HDAC1）和HDAC2可增强CRISPR / Cas9基因组编辑
7. Inactivation of Histone Deacetylase 1 (HDAC1) But Not HDAC2 Is Required for the Glucocorticoid-Dependent CCAAT/Enhancer-Binding Protein α (C/EBPα) Expression and Preadipocyte Differentiation [O] . Claire Kuzmochka, Houssein-Salem Abdou, Robert J. G. Haché, 2014

机译：组蛋白脱乙酰酶1（HDAC1）的灭活，但不是HDAC2所需的糖皮质激素依赖性CCAAT /增强剂结合蛋白α（C /EBPα）表达和前脂肪细胞分化

Inhibition of histone deacetylase 1 (HDAC1) and HDAC2 enhances CRISPR/Cas9 genome editing

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