Song Kyoung-Ju, Jeong Seok-Ryoul, Park Sun, Kim Kyongmin, Kwon Myung-Hee, Im Kyung-Il, Pak Jhang Ho, Shin Ho-Joon
Department of Microbiology, Ajou University School of Medicine, Suwon 443-721, Republic of Korea.
Exp Parasitol. 2006 Feb;112(2):115-20. doi: 10.1016/j.exppara.2005.10.004.
To establish a transient transfection system in a Naegleria, we constructed three nfa1-pEGFP-N1 vectors by the promoter replacement and insertion of a nfa1 gene and transfected the DNAs into Naegleria gruberi using a lipid reagent. The transfection efficiency and usefulness of the three modified vectors were estimated by identifying the expressions of the EGFP and Nfa1 protein from N. gruberi. After transfection, the Nfa1 protein was functionally expressed on pseudopodia of N. gruberi. The strong GFP fluorescence was observed in N. gruberi transfected with the actin-nfa1-pEGFP-N1 vector, of which the CMV promoter region in the expression vector was replaced with the actin 5' UTR region. Additionally, when transgenic N. gruberi trophozoites were co-cultured with CHO target cells, the Nfa1 protein was also located on cytoplasm and pseudopodia, especially on a food cup that was formed in contact with target cells as it shown in pathogenic N. fowleri.
为了在纳格里亚属(Naegleria)中建立瞬时转染系统,我们通过启动子替换和插入nfa1基因构建了三种nfa1-pEGFP-N1载体,并使用脂质试剂将这些DNA转染到格氏纳格里亚(Naegleria gruberi)中。通过鉴定格氏纳格里亚中EGFP和Nfa1蛋白的表达来评估这三种修饰载体的转染效率和实用性。转染后,Nfa1蛋白在格氏纳格里亚的伪足上功能性表达。在用肌动蛋白-nfa1-pEGFP-N1载体转染的格氏纳格里亚中观察到强烈的GFP荧光,其中表达载体中的CMV启动子区域被肌动蛋白5'UTR区域取代。此外,当转基因格氏纳格里亚滋养体与CHO靶细胞共培养时,Nfa1蛋白也位于细胞质和伪足上,特别是在与靶细胞接触形成的食物杯上,如在致病的福氏纳格里亚(N. fowleri)中所示。