CRISPR-Cas9 Mediated Gene Deletion in Human Pluripotent Stem Cells Cultured Under Feeder-Free Conditions.

IF 1.2 4区 综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES
Muhammad Abid Sheikh, Farah Helena Afandi, Grazia Iannello, Barbara Corneo, Bright Starling Emerald, Suraiya Anjum Ansari
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Abstract

The CRISPR-Cas9 system for genome editing has revolutionized gene function studies in mammalian cells, including stem cells. However, the practical application of this technique, particularly in pluripotent stem cells, presents certain challenges, such as being time- and labor-intensive and having low editing efficiency. Here, we describe the generation of a CRISPR-mediated gene knockout in a human embryonic stem cell (hESC) line stably expressing sgRNAs for the L2HGDH gene, using a highly efficient and stable lentiviral-mediated gene delivery system. The sgRNAs targeting exon 1 of the L2HGDH gene were chemically synthesized and cloned into the lentiCRISPR v2-puro vector, which combines the constitutive expression of sgRNAs with Cas9 in a highly efficient single-vector system to achieve higher lentiviral titers for hESC infection and stable selection using puromycin. Puromycin-selected cells were further expanded, and single-cell clones were obtained using the limited dilution method. The single clones were expanded, and several homozygous knockout clones for the L2HGDH gene were obtained, as confirmed by a 100% reduction in L2HGDH expression using Western blot analysis. Furthermore, using MSBSP-PCR, the CRISPR mutation site was mapped upstream of the PAM recognition sequence of Cas9 in the selected homozygous clones. Sanger sequencing was performed to analyze the exact insertions/deletions, and functional characterization of the clones was conducted. This method produced a significantly higher percentage of homozygous deletions compared to previously reported non-viral gene delivery methods. Although this report focuses on the L2HGDH gene, this robust and cost-effective approach can be used to create homozygous knockouts for other genes in pluripotent stem cells for gene function studies.

在无饲养条件下培养的人类多能干细胞中进行 CRISPR-Cas9 介导的基因缺失。
用于基因组编辑的CRISPR-Cas9系统彻底改变了哺乳动物细胞(包括干细胞)的基因功能研究。然而,这项技术的实际应用,尤其是在多能干细胞中的应用,面临着一些挑战,如耗时耗力、编辑效率低等。在这里,我们介绍了利用高效稳定的慢病毒介导的基因递送系统,在稳定表达 L2HGDH 基因 sgRNA 的人类胚胎干细胞(hESC)系中产生 CRISPR 介导的基因敲除。通过化学合成靶向 L2HGDH 基因第 1 外显子的 sgRNA,并将其克隆到 lentiCRISPR v2-puro 载体中,该载体将 sgRNA 的组成型表达与 Cas9 结合在一个高效的单载体系统中,从而获得更高的慢病毒滴度,用于 hESC 感染和使用嘌呤霉素进行稳定选择。嘌呤霉素筛选的细胞进一步扩增,使用有限稀释法获得单细胞克隆。对单细胞克隆进行扩增,获得了多个 L2HGDH 基因的同源基因敲除克隆,并通过 Western 印迹分析证实 L2HGDH 的表达量减少了 100%。此外,利用 MSBSP-PCR,在所选的同源克隆中,CRISPR 突变位点被映射到 Cas9 的 PAM 识别序列上游。通过 Sanger 测序分析了确切的插入/缺失,并对克隆进行了功能鉴定。与之前报道的非病毒基因递送方法相比,这种方法产生的同源缺失比例要高得多。虽然本报告主要关注的是 L2HGDH 基因,但这种稳健且经济有效的方法可用于在多能干细胞中创建其他基因的同源基因敲除,以进行基因功能研究。
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来源期刊
Jove-Journal of Visualized Experiments
Jove-Journal of Visualized Experiments MULTIDISCIPLINARY SCIENCES-
CiteScore
2.10
自引率
0.00%
发文量
992
期刊介绍: JoVE, the Journal of Visualized Experiments, is the world''s first peer reviewed scientific video journal. Established in 2006, JoVE is devoted to publishing scientific research in a visual format to help researchers overcome two of the biggest challenges facing the scientific research community today; poor reproducibility and the time and labor intensive nature of learning new experimental techniques.
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