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肾功能衰竭大鼠超顺磁性氧化铁标记骨髓间充质干细胞肾脏移植MR活体示踪的研究
引用本文:孙军辉,滕皋军,居胜红,马占龙,麦筱莉,张宇,马明. 肾功能衰竭大鼠超顺磁性氧化铁标记骨髓间充质干细胞肾脏移植MR活体示踪的研究[J]. 中华放射学杂志, 2006, 40(2): 144-148
作者姓名:孙军辉  滕皋军  居胜红  马占龙  麦筱莉  张宇  马明
作者单位:1. 210009,南京,东南大学附属中大医院放射科,东南大学分子影像实验室
2. 东南大学生物科学与医学工程系
基金项目:高等学校博士学科点专项科研基金资助项目(20040286037);东南大学国家自然基金预研项目(XJ0490168);东南大学优秀博士学位论文基金(YBJJ0518)
摘    要:目的应用磁性氧化铁纳米粒子和多聚左旋赖氨酸(poly-L-lysine,PLL)的偶联物Fe2O3-PLL标记大鼠骨髓间充质干细胞(MSCs),MR活体示踪经肾动脉移植入肾功能衰竭(简称肾衰)大鼠肾脏的标记细胞。方法制备Fe2O3-PLL,分离、纯化并培养大鼠骨髓MSCs,Fe2O3-PLL标记细胞,普鲁士蓝染色显示细胞内铁。肌内注射甘油所致肾衰的大鼠分为2组,分别经左肾动脉移植入标记细胞(6只)和未标记细胞(5只),移植后即刻及第1、3、5、8天应用MRI对移植细胞进行活体示踪,并与肾脏组织切片普鲁士蓝染色和HE染色对照。结果MSCs的Fe2O3-PLL标记率近100%,普鲁士蓝染色显示蓝色铁颗粒位于MSCs胞质内。标记细胞移植后肾衰大鼠肾脏皮质区信号强度明显下降,T2*WI信号改变最明显,而肾髓质及肾盂信号较细胞移植前无明显变化,信号改变随着时间的延长逐渐减轻一直持续到移植后第8天。组织学分析见绝大多数标记细胞分布于肾皮质肾小球内,与MRI信号改变区域基本一致。未标记细胞移植后未见肾脏信号改变。结论Fe2O3-PLL可以有效标记大鼠骨髓MSCs,临床应用型1.5T磁共振仪可对经肾动脉移植入肾衰大鼠肾脏的标记细胞进行初步活体示踪。

关 键 词:干细胞 磁共振成像 细胞移植 肾功能衰竭 模型  动物
收稿时间:2005-10-09
修稿时间:2005-10-09

In vivo tracking of magnetically labeled mesenchymal stem cells injected via renal arteries in kidney failure rat
SUN Jun-hui,TENG Gao-jun,JU Sheng-hong,MA Zhan-long,MAI Xiao-li,ZHANG Yu,MA Ming. In vivo tracking of magnetically labeled mesenchymal stem cells injected via renal arteries in kidney failure rat[J]. Chinese Journal of Radiology, 2006, 40(2): 144-148
Authors:SUN Jun-hui  TENG Gao-jun  JU Sheng-hong  MA Zhan-long  MAI Xiao-li  ZHANG Yu  MA Ming
Affiliation:Laboratory of Molecular Imaging, Department of Radiology, Zhongda Hospital, Southeast University, Nanjing 210009, China
Abstract:Objective To evaluate in vivo depiction and tracking for magnetically labeled bone marrow mesenchymal stem cells (MSCs) in a renal failure rat model injected intravascularly using a 1.5 T magnetic resonance imaging(MRI) system. Methods Rat MSCs were isolated, purified, expanded and then incubated with home synthesized Fe_2O_3-PLL. Prussian blue stain was employed for identifying intracellular irons. An acute renal failure in rat was induced by intramuscular injection of glycerol and MSCs were injected into renal arteries of 11 recipients (labeled cells in six, unlabeled cells in five). MR images of kidneys were obtained respectively before injection of MSCs, and immediately, 1, 3, 5, and 8 days after transplantation. MR imaging findings were analyzed, which were correlated with histological findings. Results Rat MSCs were successfully labeled, and labeling efficiency was almost 100%. Prussian blue staining of Fe_2O_3-PLL labeled cells revealed the presence of iron-containing vesicles or endosomes in the cytoplasm. In the renal failure model of rats, the labeled MSCs were demonstrated as signal intensity loss in renal cortex on T_2*-weighted MR images. The signal intensity decrease was visualized up to days 8 after transplantation. Histological analyses showed that most Prussian blue staining-positive cells were well correlated with the area where a signal intensity loss was observed in MRI. Signal intensity decrease was not detected after transplantation of unlabeled cells.Conclusion The rat MSCs can be effectively labeled with Fe_2O_3-PLL. 1.5-T MR imaging seems to be a good technique to monitor the magnetically labeled MSCs in vivo in renal failure rat model intravascularly administered, which may have much more potential values for studying the engraftment of stem cells in kidneys.
Keywords:Stem cells    Magnetic resonance imaging   Cell transplantation    Kidney failure    Models, animal
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