基础医学与临床 ›› 2024, Vol. 44 ›› Issue (10): 1419-1427.doi: 10.16352/j.issn.1001-6325.2024.10.1419

• 技术与方法 • 上一篇    下一篇

稳定表达Cas9蛋白质、荧光蛋白质和荧光素酶的胰腺癌细胞株的建立及鉴定

代娣, 杨振丽, 夏雨佳, 卞晓翠*, 刘玉琴*   

  1. 中国医学科学院基础医学研究所 北京协和医学院基础学院 病理学系,北京 100005
  • 收稿日期:2024-04-18 修回日期:2024-05-29 出版日期:2024-10-05 发布日期:2024-09-27
  • 通讯作者: * bxiaocui415@163.com; liuyuqin@pumc.edu.cn
  • 基金资助:
    中国医学科学院医学与健康科技创新工程 -重大协同创新项目(2021-I2M-1-053)

Establishment and characterization of pancreatic cancer cell strains with stable expression of Cas9 protein, fluorescent proteins and luciferase

DAI Di, YANG Zhenli, XIA Yujia, BIAN Xiaocui*, LIU Yuqin*   

  1. Department of Pathology, Institute of Basic Medical Sciences CAMS,School of Basic Medicine PUMC,Beijing 100005, China
  • Received:2024-04-18 Revised:2024-05-29 Online:2024-10-05 Published:2024-09-27
  • Contact: * bxiaocui415@163.com; liuyuqin@pumc.edu.cn

摘要: 目的 构建Cas9蛋白质、绿色荧光蛋白质、红色荧光蛋白质、荧光素酶-红色荧光蛋白质稳定表达的人和小鼠胰腺癌细胞株,并验证荧光素酶的活性和Cas9的基因编辑功能,以便利用荧光素酶和CRISPR/Cas9系统开展胰腺癌的研究。方法 在人胰腺癌细胞系(AsPC-1、CFPAC-1、HPAC、BxPC-3、HS 766T、MIA PaCa-2、PANC-1和SW 1990)、小鼠胰腺癌细胞系(Pan02)中,感染Cas9表达质粒pLv-EF1α-Cas9m1.1-Puro,挑选单细胞克隆培养扩增,提取总蛋白质后,Western blot验证Cas9的表达水平;感染荧光蛋白质表达质粒pLv-EF1α-EGFP、pLv-EF1α-mCherry、pLv-EF1α-tdTomato、pLv-EF1α-Luc2-tdT,荧光显微镜下挑选荧光蛋白质稳定表达的单克隆培养扩增;选取每种细胞Cas9稳定表达的一个克隆感染pLv-EF1α-Luc2-tdT, 荧光显微镜下挑选荧光蛋白质稳定表达的单克隆培养扩增;选取其中2个细胞株感染Lv-EF1a-mCherry,流式细胞术分选出mCherry阳性的细胞,再通过慢病毒感染靶向mCherry基因的向导RNA,细胞扩增后,通过荧光显微镜下观察和流式细胞术检测mCherry被敲除的情况;5只BALB/c Nude小鼠皮下接种MIA PaCa-2-Luc2-tdT细胞(1.0×107个/只),36 d后活体成像。结果 筛选到48个Cas9稳定表达的胰腺癌细胞株(其中表达Cas9m1.1的细胞23株,表达Cas9m1.1-Luc2-tdT的细胞25株),筛选到33个荧光蛋白质稳定表达的胰腺癌细胞株(表达EGFP的细胞8株,表达mCherry的7株,表达Luc2-tdT和tdTomato的各9株)。表达mCherry和Cas9的细胞感染mCherry gRNA后,mCherry被敲除。活体成像显示,表达Luc2-tdT的MIA PaCa-2细胞生物发光和荧光发光均存在。结论成功建立了33个荧光蛋白质稳定表达的人和小鼠胰腺癌细胞株,其中表达Luc2-tdT的细胞株具有荧光素酶活性;成功建立了48个Cas9稳定表达的人和小鼠胰腺癌细胞株,Cas9具有基因编辑活性,基因编辑活性因原始细胞系不同而存在差异。

关键词: Cas9, 荧光素酶, 胰腺癌, 活体成像, 基因编辑

Abstract: Objective To establish human and mouse pancreatic cancer cell strains stably expressing Cas9 protein, green fluorescent protein, red fluorescent proteins, luciferase-tdTomato, and to validate the activity of luciferase and gene editing of Cas9 function for pancreatic cancer research using luciferase and CRISPR/Cas9 system. Methods In human pancreatic cancer cells (AsPC-1, CFPAC-1, HPAC, BxPC-3, HS 766T, MIA PaCa-2, PANC-1, and SW 1990), and mouse pancreatic cancer cell (Pan02), the cells were infected with Cas9-expressing plasmid pLv-EF1α-Cas9m1.1-Puro, and single-cell clones were selected for culture and expansion. After extracting the total protein, Western blot verified the expression level of Cas9; Infected with fluorescent protein expression plasmids pLv-EF1α-EGFP, pLv-EF1α-mCherry, pLv-EF1α-tdTomato, pLv-EF1α-Luc2-tdT, and selected single cell clones stably expressing fluorescent proteins were cultured and amplified under fluorescence microscope. Cas9 stable expression cell line was selected to be infected with pLv-EF1α-Luc2-tdT, and the monoclonal culture of stable expression of fluorescent proteins was selected for expansion under fluorescence microscope. One of the cell lines were selected to be infected with Lv-EF1a-mCherry, and the mCherry-positive cells were sorted out by flow cytometry, and then the guide RNA of mCherry gene was then infected by lentivirus to target the mCherry gene, and after cell expansion, mCherry knockdown was detected by fluorescence microscope observation and flow cytometry; 5 BALB/c Nude mice were subcutaneously inoculated with MIA PaCa-2-Luc2-tdT cells (1.0×107/cells each), and imaged in vivo after 36 days. Results 48 human pancreatic cancer cell strains with stable Cas9 expression were screened(including 23 cells expressing Cas9m1.1, 25 cells expressing Cas9m1.1-Luc2-tdT),33 pancreatic cancer cell strains with stable expression of fluorescent proteins were screened (8 cells expressing EGFP, 7 expressing mCherry, and 9 each expressing Luc2-tdT and tdTomato). Cells expressing mCherry and Cas9 were infected with mCherry gRNA and mCherry was knocked down. In vivo imaging showed that both bioluminescence and fluorescence luminescence were present in MIA PaCa-2 cells expressing Luc2-tdT. Conclusions 33 pancreatic cancer cell strains with stable expression of fluorescent proteins are successfully established, in which the Luc2-tdT-expressing cell strains have luciferase activity; 48 pancreatic cancer cell strains with stable expression of Cas9 are successfully established, and the Cas9 protein has gene editing activity, gene editing activity varies depending on the original cell strains.

Key words: Cas9, luciferase, pancreatic cancer, living image, gene editing

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