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沉默肌肉生长抑制素通过非病毒递送 dCas9 核糖核蛋白复合物增强成肌分化。

Enhanced Myogenesis by Silencing Myostatin with Nonviral Delivery of a dCas9 Ribonucleoprotein Complex.

机构信息

Knuppe Molecular Urology Laboratory, Department of Urology, School of Medicine, University of California, San Francisco, San Francisco, California, USA; Stanford University, Stanford, California, USA.

Reproductive Medicine Center, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China; Stanford University, Stanford, California, USA.

出版信息

CRISPR J. 2022 Aug;5(4):598-608. doi: 10.1089/crispr.2022.0009. Epub 2022 Jun 27.

Abstract

Stress urinary incontinence (SUI) and pelvic floor disorder (PFD) are common conditions with limited treatment options in women worldwide. Regenerative therapy to restore urethral striated and pelvic floor muscles represents a valuable therapeutic approach. We aim to determine the CRISPR interference-mediated gene silencing effect of the nonviral delivery of nuclease-deactivated dCas9 ribonucleoprotein (RNP) complex on muscle regeneration at the cellular and molecular level. We designed four myostatin ()-targeting sgRNAs and transfected them into rat myoblast L6 cells together with the dCas9 protein. Myogenesis assay and immunofluorescence staining were performed to evaluate muscle differentiation, while CCK8 assay, cell cycle assay, and 5-ethynyl-2'-deoxyuridine staining were used to measure muscle proliferation. Reverse transcription-polymerase chain reaction and Western blotting were also performed to examine cellular signaling. Myogenic factors (including myosin heavy chain, MSTN, myocardin, and serum response factor) increased significantly after day 5 during myogenesis. MSTN was efficiently silenced after transfecting the dCas9 RNP complex, which significantly promoted more myotube formation and a higher fusion index for L6 cells. In cellular signaling, MSTN repression enhanced the expression of MyoG and MyoD, phosphorylation of Smad2, and the activity of Wnt1/GSK-3β/β-catenin pathway. Moreover, MSTN repression accelerated L6 cell growth with a higher cell proliferation index as well as a higher expression of cyclin D1 and cyclin E. Nonviral delivery of the dCas9 RNP complex significantly promoted myoblast differentiation and proliferation, providing a promising approach to improve muscle regeneration for SUI and PFD. Further characterization and validation of this approach are needed.

摘要

压力性尿失禁(SUI)和盆底功能障碍(PFD)是全球性的常见病症,女性的治疗选择有限。再生疗法可恢复尿道横纹肌和盆底肌肉,是一种有价值的治疗方法。我们旨在确定非病毒递送的核酸酶失活 dCas9 核糖核蛋白(RNP)复合物对肌肉再生的 CRISPR 干扰介导的基因沉默效果,在细胞和分子水平上。我们设计了四个肌生成素()靶向 sgRNA,并将它们与 dCas9 蛋白一起转染到大鼠成肌细胞 L6 细胞中。进行肌生成测定和免疫荧光染色以评估肌肉分化,而 CCK8 测定、细胞周期测定和 5-乙炔基-2'-脱氧尿苷染色用于测量肌肉增殖。还进行了逆转录-聚合酶链反应和 Western blot 以检查细胞信号。在肌生成过程中,肌生成因子(包括肌球蛋白重链、MSTN、心肌营养素和血清反应因子)在第 5 天显着增加。转染 dCas9 RNP 复合物后,MSTN 被有效地沉默,这显着促进了 L6 细胞的更多肌管形成和更高的融合指数。在细胞信号中,MSTN 抑制增强了 MyoG 和 MyoD 的表达、Smad2 的磷酸化以及 Wnt1/GSK-3β/β-catenin 通路的活性。此外,MSTN 抑制加速了 L6 细胞的生长,具有更高的细胞增殖指数以及更高的细胞周期蛋白 D1 和细胞周期蛋白 E 的表达。dCas9 RNP 复合物的非病毒递送显着促进成肌细胞的分化和增殖,为 SUI 和 PFD 的肌肉再生提供了有前途的方法。需要进一步表征和验证这种方法。

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