构建 CXCR4 基因的诱导型 CRISPR/Cas9 系统及其对 MKN-45 细胞的影响。
Construction of an Inducible CRISPR/Cas9 System for CXCR4 Gene and Demonstration of its Effects on MKN-45 Cells.
机构信息
Department of Anesthesiology, Children's Hospital of Chongqing Medical University, Ministry of Education Key Laboratory of Child Development and Disorders, China International Science and Technology Cooperation Base of Child Development and Critical Disorders, Chongqing Key Laboratory of Pediatrics, No. 136, 2nd Zhongshan Rd, Yuzhong District, Chongqing, China.
Department of Anesthesiology, People's Hospital of Deyang City, Taishan North Road 173, Deyang, 618000, China.
出版信息
Cell Biochem Biophys. 2020 Mar;78(1):23-30. doi: 10.1007/s12013-019-00898-x. Epub 2019 Dec 24.
The CRISPR/Cas9 system is an effective tool for gene editing. However, this conventional expression system cannot control the timing of gene editing and does not utilize resistance screening markers. Therefore, carrying out CRISPR/Cas9 experiments is extremely inconvenient. Our aim is to develop an inducible lentiviral vector-based gene-editing system for C-X-C chemokine receptor 4 (CXCR4) by CRISPR/Cas9, and to demonstrate its function in MKN-45 cell. The DNA fragments of Blasticidin and T2A-GFP were produced using the lenti-Cas9-BLAST and PX458 plasmids as templates. The PCR products were harvested and cloned into the lenti-guide-puro plasmid to yield the lenti-guide-BLAST-GFP plasmid. Three double-stranded guide RNA (gRNA) sequences targeting the exon 2 of CXCR4 gene were designed online (http://crispr.mit.edu), synthesized, and recombined into the lenti-guide-BLAST-GFP plasmid, to yield the lenti-guide-BLAST-GFP-gRNA plasmid. The pCW-Cas9 and lenti-guide-BLAST-GFP-gRNA plasmids were packaged with lentiviral vectors, which were then transfected into MKN-45 cells, to identify the CXCR4 gene-editing effects using the T7 endonuclease 1 (T7E1) and Western blot assays. The lenti-guide-BLAST-GFP and lenti-guide-BLAST-GFP-gRNA plasmids were successfully constructed and packaged, to yield lentiviral particles. Transfection of the pCW-Cas9 and lenti-guide-BLAST-GFP-gRNA viral vectors could decrease the expression of CXCR4 protein, and lead to gene editing in MKN-45 cells. The efficiencies of gRNA-1, gRNA-2, and gRNA-3 were 45.6%, 53.6%, and 56.7%, respectively. Furthermore, the chemotactic efficiency of the dual viral vector-infected MKN-45 cells was significantly decreased in response to SDF-1. The numbers of migratory cells in the lower chamber of the transwell system were 30.0 ± 0.23, 29.7 ± 1.55, 28.2 ± 1.11 and 36.1 ± 2.00 cells per field (400×) for gRNA-1, gRNA-2, gRNA-3 and the control, respectively (P < 0.05). We constructed an inducible CXCR4 gene-editing, dual-vector CRISPR/Cas9 system, which could induce CXCR4 gene editing in MKN-45 cells in a doxycycline-dependent manner and thus reduce the migration of MKN-45 cells.
CRISPR/Cas9 系统是基因编辑的有效工具。然而,这种传统的表达系统无法控制基因编辑的时间,也不利用抗性筛选标记。因此,开展 CRISPR/Cas9 实验极为不便。我们的目标是通过 CRISPR/Cas9 开发一种诱导型慢病毒载体为基础的基因编辑系统用于 C-X-C 趋化因子受体 4(CXCR4),并证明其在 MKN-45 细胞中的功能。使用 lenti-Cas9-BLAST 和 PX458 质粒作为模板产生 Blasticidin 和 T2A-GFP 的 DNA 片段。收获 PCR 产物并克隆到 lenti-guide-puro 质粒中,得到 lenti-guide-BLAST-GFP 质粒。在线(http://crispr.mit.edu)设计了针对 CXCR4 基因外显子 2 的三个双链 RNA(gRNA)序列,合成并重组到 lenti-guide-BLAST-GFP 质粒中,得到 lenti-guide-BLAST-GFP-gRNA 质粒。pCW-Cas9 和 lenti-guide-BLAST-GFP-gRNA 质粒与慢病毒载体包装,然后转染 MKN-45 细胞,使用 T7 内切酶 1(T7E1)和 Western blot 检测鉴定 CXCR4 基因编辑效果。成功构建并包装了 lenti-guide-BLAST-GFP 和 lenti-guide-BLAST-GFP-gRNA 质粒,得到慢病毒颗粒。pCW-Cas9 和 lenti-guide-BLAST-GFP-gRNA 病毒载体的转染可降低 CXCR4 蛋白的表达,并导致 MKN-45 细胞中的基因编辑。gRNA-1、gRNA-2 和 gRNA-3 的效率分别为 45.6%、53.6%和 56.7%。此外,双病毒载体感染的 MKN-45 细胞的趋化效率对 SDF-1 的反应明显降低。Transwell 系统下室的迁移细胞数分别为 gRNA-1、gRNA-2、gRNA-3 和对照的 30.0±0.23、29.7±1.55、28.2±1.11 和 36.1±2.00 个细胞/视野(400×)(P<0.05)。我们构建了一种诱导型 CXCR4 基因编辑、双载体 CRISPR/Cas9 系统,可在强力霉素依赖性方式诱导 MKN-45 细胞中的 CXCR4 基因编辑,从而减少 MKN-45 细胞的迁移。
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