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浙江大学学报(农业与生命科学版)
Journal of Zhejiang University (Agriculture and Life Sciences)  2022, Vol. 48 Issue (1): 96-105    DOI: 10.3785/j.issn.1008-9209.2021.01.192
Animal sciences & veterinary medicines     
Exploration of high-efficiency transfection methods for sheep fibroblasts OAR-L1
Fei WU(),Jie WU,Xueqiu CHEN,Jingru ZHOU,Hui ZHANG,Yan HUANG,Hengzhi SHI,Yi YANG,Guangxu MA,Aifang DU()
Institute of Preventative Veterinary Sciences, College of Animal Sciences, Zhejiang University, Hangzhou 310058, China
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Abstract  

In order to achieve high-efficiency expression of exogenous protein in sheep lung fibroblasts OAR-L1, and to explore a suitable transfection method for the cell line, the transfection efficiencies of polyethyleneimine (PEI), LipofectamineTM 2000 transfection reagent (Lipo 2000), CytofectTM fibroblast transfection kit (CF2) and lentivirus mediated cell transfection in the OAR-L1 cells were compared. The results showed that when OAR-L1 cells were transfected with fluorescent plasmids pLentiCMV-EGFP-Puro or pLentiCMV-mCherry-Puro, PEI-, Lipo 2000- and CF2-mediated transfection could be affected by the cell density and the amount of transfection reagents, besides the best transfection efficiency of each method was less than 30%. While the number of fluorescent cells obtained by lentivirus-mediated cell infection was not limited by these two factors, and was significantly higher than the former three methods. The recombinant virus solution could be stored at 4 or -80 ℃ for at least 15 d without decline of the infection efficiency. To co-express two exogenous proteins in the OAR-L1 cells, mixing two packaged lentivirus in equal proportions followed by infection could achieve a higher co-transformation rate. The above results show that lentivirus infection is a cell transfection method that could achieve high expression of exogenous proteins in the OAR-L1 cells, and provide certain references for the selection of transfection methods for other difficult-to-transfect cells.

Key wordsfibroblasts OAR-L1      transfection method      lentivirus      sheep     
Received: 19 January 2021      Published: 04 March 2022
CLC:  S 855.9  
Corresponding Authors: Aifang DU     E-mail: wufei0214@zju.edu.cn;afdu@zju.edu.cn
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Fei WU
Jie WU
Xueqiu CHEN
Jingru ZHOU
Hui ZHANG
Yan HUANG
Hengzhi SHI
Yi YANG
Guangxu MA
Aifang DU
Cite this article:

Fei WU,Jie WU,Xueqiu CHEN,Jingru ZHOU,Hui ZHANG,Yan HUANG,Hengzhi SHI,Yi YANG,Guangxu MA,Aifang DU. Exploration of high-efficiency transfection methods for sheep fibroblasts OAR-L1. Journal of Zhejiang University (Agriculture and Life Sciences), 2022, 48(1): 96-105.

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https://www.zjujournals.com/agr/10.3785/j.issn.1008-9209.2021.01.192     OR     https://www.zjujournals.com/agr/Y2022/V48/I1/96


绵羊成纤维细胞OAR-L1高效转染方法的探索

为了在绵羊肺成纤维细胞OAR-L1中高效表达外源蛋白,探索适合该细胞的转染方法,本研究比较了聚乙烯亚胺(polyethyleneimine, PEI)、脂质体2000转染试剂(LipofectamineTM 2000 transfection reagent, Lipo 2000)、成纤维细胞转染试剂盒(CytofectTM fibroblast transfection kit, CF2)以及慢病毒介导的细胞转染方法在OAR-L1细胞中表达外源蛋白的效果。结果显示:以pLentiCMV-EGFP-Puro或pLentiCMV-mCherry-Puro荧光质粒转染OAR-L1细胞时,细胞密度和转染试剂用量均可影响PEI、Lipo 2000和CF2介导的细胞转染效率,且三者最佳转染效率均不超过30%,而慢病毒介导的细胞侵染不受细胞密度和病毒液用量的限制,获得的荧光细胞数目也显著高于前三者。包装好的病毒液可以在4或-80 ℃条件下至少保存15 d而侵染效果不受影响。在OAR-L1细胞中共表达2种外源蛋白时,包装获得的2种慢病毒液等比例混合后再侵染的方式能获得更高的共转率。综上所述,慢病毒侵染是一种能够实现在OAR-L1细胞中高效表达外源蛋白的细胞转染方式,本研究结果为其他难转染细胞系转染方式的选择提供了一定的参考。


关键词: 成纤维细胞OAR-L1,  转染方法,  慢病毒,  绵羊 
Fig. 1 Schematic diagram of fluorescent plasmid maps
Fig. 2 Protocols of transfection, infection and cell platingA. Procedure of the transfection; B. Procedure of lentivirus packaging and infection; C. Plating of OAR-L1 in 24-well plate. EGFP: Enhanced green fluorescent protein; mCherry: Cherry red fluorescent protein (the same below).
Fig. 3 Results of fluorescent plasmid identificationA. Identification by bacterial PCR; B. Identification by restriction double enzyme digesting; C. Fluorescent expression and Western blotting results of transfected HEK 293T cells.
Fig. 4 Effects of three different reagents transfecting OAR-L1 cellsThe number in the upper left corner of each small picture represents the average number of fluorescent cells in three repeated experiments.
Fig. 5 Effects of lentivirus infecting OAR-L1 cells
Fig. 6 Numbers of fluorescent cells under the best trans-fection efficiencies of different regents
Fig. 7 Effects of different storage conditions and time on the infection efficiencies of OAR-L1 cells by lentivirus
Fig. 8 Effects of two packaging methods on co-transfection of OAR-L1 cells by lentivirusA. Infecting together after separately packaging the virus; B. Packaging the virus simultaneously and then infecting; C. Western blotting results.
Fig. 9 Effects of fusing with other exogenous proteins on the infection of OAR-L1 cells by lentivirus
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