机构地区:[1]Department of Ophthalmology, Second Hospital of Chongqing Medical University, Chongqing 400010, China [2]Institute of Ultrasonic Imaging, Chongqing Medical University, Chongqing 400010, China
出 处:《Neural Regeneration Research》2009年第6期413-417,共5页中国神经再生研究(英文版)
基 金:the National Natural Science Foundation of China,No.30430230
摘 要:BACKGROUND: Studies have demonstrated that ultrasound-mediated microbubble destruction significantly improves transfection efficiency of enhanced green fluorescent protein (EGFP) in in vitro cultured retinal ganglial cells (RGCs). OBJECTIVE: To investigate the feasibility of ultrasound-mediated microbubble destruction for EGFP transfection in rat RGCs, and to compare efficiency and cell damage with traditional transfection methods. DESIGN, TIME AND SETTING: In vivo, gene engineering experiment. The study was performed at the Central Laboratory, Institute of Ultrasonic Imaging, Chongqing Medical University from March to July 2008. MATERIALS: Eukaryotic expression vector plasmid EGFP and microbubbles were prepared by the Institute of Ultrasonic Imaging, Chongqing Medical University. The microbubbles were produced at a concentration of 8.7 × 10^11/L, with a 2-4 μm diameter, and 10-hour half-life in vitro. METHODS: A total of 50 Sprague Dawley rats were randomly assigned to four groups. Normal controls (n = 5) were infused with 5 μL normal saline to the vitreous cavity; the naked plasmid group (n = 15) was infused with 5 pL EGFP plasmid to the vitreous cavity; in the plasmid with ultrasound group (n = 15), the eyes were irradiated with low-energy ultrasound wave (0.5 W/cm^2) for a total of 60 seconds (irradiated for 5 seconds, at 10-second intervals) immediately following infusion of EGFP plasmids to the vitreous cavities. In the microbubble-ultrasound group (n = 15), the eyes were irradiated with the same power of ultrasonic wave immediately following infusion of microbubbles containing EGFP plasmids to the vitreous cavities. MAIN OUTCOME MEASURES: After 7 days, retinal preparations and EGFP expression in RGCs were observed by fluorescence microscopy. RGC quantification in the retinal ganglion cell layer was performed. In addition, EGFP mRNA expression was semi-quantitatively determined by RT-PCR. RESULTS: The transfection efficiency of EGFP to RGCs by microbubbles wiBACKGROUND: Studies have demonstrated that ultrasound-mediated microbubble destruction significantly improves transfection efficiency of enhanced green fluorescent protein (EGFP) in in vitro cultured retinal ganglial cells (RGCs). OBJECTIVE: To investigate the feasibility of ultrasound-mediated microbubble destruction for EGFP transfection in rat RGCs, and to compare efficiency and cell damage with traditional transfection methods. DESIGN, TIME AND SETTING: In vivo, gene engineering experiment. The study was performed at the Central Laboratory, Institute of Ultrasonic Imaging, Chongqing Medical University from March to July 2008. MATERIALS: Eukaryotic expression vector plasmid EGFP and microbubbles were prepared by the Institute of Ultrasonic Imaging, Chongqing Medical University. The microbubbles were produced at a concentration of 8.7 × 10^11/L, with a 2-4 μm diameter, and 10-hour half-life in vitro. METHODS: A total of 50 Sprague Dawley rats were randomly assigned to four groups. Normal controls (n = 5) were infused with 5 μL normal saline to the vitreous cavity; the naked plasmid group (n = 15) was infused with 5 pL EGFP plasmid to the vitreous cavity; in the plasmid with ultrasound group (n = 15), the eyes were irradiated with low-energy ultrasound wave (0.5 W/cm^2) for a total of 60 seconds (irradiated for 5 seconds, at 10-second intervals) immediately following infusion of EGFP plasmids to the vitreous cavities. In the microbubble-ultrasound group (n = 15), the eyes were irradiated with the same power of ultrasonic wave immediately following infusion of microbubbles containing EGFP plasmids to the vitreous cavities. MAIN OUTCOME MEASURES: After 7 days, retinal preparations and EGFP expression in RGCs were observed by fluorescence microscopy. RGC quantification in the retinal ganglion cell layer was performed. In addition, EGFP mRNA expression was semi-quantitatively determined by RT-PCR. RESULTS: The transfection efficiency of EGFP to RGCs by microbubbles wi
关 键 词:ultrasound contrast agent MICROBUBBLE retinal ganglion cells in vivo gene therapy enhanced green fluorescent protein
分 类 号:R338[医药卫生—人体生理学]
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