Tracking of iron-labeled human neural stem cells by magnetic resonance imaging in cell replacement therapy for Parkinson＇s disease 被引量：5

Tracking of iron-labeled human neural stem cells by magnetic resonance imaging in cell replacement therapy for Parkinson's disease

暂未订购

导出

摘要 Human neural stem cells（h NSCs） derived from the ventral mesencephalon are powerful research tools and candidates for cell therapies in Parkinson＇s disease. However, their clinical translation has not been fully realized due, in part, to the limited ability to track stem cell regional localization and survival over long periods of time after in vivo transplantation. Magnetic resonance imaging provides an excellent non-invasive method to study the fate of transplanted cells in vivo. For magnetic resonance imaging cell tracking, cells need to be labeled with a contrast agent, such as magnetic nanoparticles, at a concentration high enough to be easily detected by magnetic resonance imaging. Grafting of human neural stem cells labeled with magnetic nanoparticles allows cell tracking by magnetic resonance imaging without impairment of cell survival, proliferation, self-renewal, and multipotency. However, the results reviewed here suggest that in long term grafting, activated microglia and macrophages could contribute to magnetic resonance imaging signal by engulfing dead labeled cells or iron nanoparticles dispersed freely in the brain parenchyma over time. Human neural stem cells（h NSCs） derived from the ventral mesencephalon are powerful research tools and candidates for cell therapies in Parkinson＇s disease. However, their clinical translation has not been fully realized due, in part, to the limited ability to track stem cell regional localization and survival over long periods of time after in vivo transplantation. Magnetic resonance imaging provides an excellent non-invasive method to study the fate of transplanted cells in vivo. For magnetic resonance imaging cell tracking, cells need to be labeled with a contrast agent, such as magnetic nanoparticles, at a concentration high enough to be easily detected by magnetic resonance imaging. Grafting of human neural stem cells labeled with magnetic nanoparticles allows cell tracking by magnetic resonance imaging without impairment of cell survival, proliferation, self-renewal, and multipotency. However, the results reviewed here suggest that in long term grafting, activated microglia and macrophages could contribute to magnetic resonance imaging signal by engulfing dead labeled cells or iron nanoparticles dispersed freely in the brain parenchyma over time.

作者 Milagros Ramos-Gómez Alberto Martínez-Serrano

机构地区 Centre for Biomedical Technology Biomedical Research Networking'Center of Bioengineering Biomaterials and Nanomedicine (CIBER-BBN) Department of Molecular Biology and Center of Molecular Biology"Severo Ochoa"

出处《Neural Regeneration Research》 SCIE CAS CSCD 2016年第1期49-52,共4页 中国神经再生研究（英文版）

基金 To AMS:Instituto de Salud Carlos-III(RETICS Ter Cel RD12/0019/0013) Comunidad Autónoma de Madrid(S2010-BMD-2336) MINECO(SAF2010-17167) the institutional grant of the Fundación Ramón Areces to the CBMSO To MRG:Reina Sofia Foundation Comunidad Autónoma Madrid(S2010-BMD-2460)

关键词 human neural stem cells Parkinson＇s disease magnetic resonance imaging magnetic nanoparticles stem cell transplantation human neural stem cells Parkinson＇s disease magnetic resonance imaging magnetic nanoparticles stem cell transplantation

分类号 R742.5 [医药卫生—神经病学与精神病学]

引文网络
相关文献

参考文献17

1Bernsen MR, Guenoun J, van Tiel ST, Krestin GP (2015) Nanoparticles and clinically applicable cell tracking. Br J RadioI88:20150375.
2Courtois ET, Castillo CG, Seiz EG, Ramos M, Bueno C, Liste I, Martinez-Serrano A (2010) In vitro and in vivo enhanced generation of human A9 dopamine neurons from neural stem cells by Bcl-XL. J BioI Chern 285:9881-9897.
3Cupaioli FA, Zucca FA, Boraschi D, Zecca L (2014) Engineered nanoparticles. How brain friendly is this new vip? Prog Neurobiol 119-120:20-38.
4Eamegdool SS, Weible MW, Pham BT, Hawkett BS, Grieve SM, Chanling T (2014) Ultrasmall superparamagnetic iron oxide nanoparticle prelabeling of human neural precursor cells. Biomaterials 35:5549- 5564.
5Kallur T, Farr TD, Bohrn-Sturm P, Kokaia Z, Hoehn M (2011) Spatio-temporal dynamics, differentiation and viability of human neural stem cells after implantation into neonatal rat brain. Eur J Neurosci 34:382-393.
6Ke YQ, Hu CC, Jiang XD, Yang ZJ, Zhang HW, Ji HM, Zhou LY, Cai YQ, Qin LS, Xu RX (2009) In vivo magnetic resonance tracking of Feridex-Iabeled bone marrow-derived neural stem cells after autologous transplantation in rhesus monkey. J Neurosci Methods 179:45-50.
7Kostura L, Kraitchman DL, Mackay AM, Pittenger MF, Bulte JW (2004) Feridex labeling of mesenchymal stem cells inhibits chondrogenesis but not adipogenesis or osteogenesis. NMR Biomed 17:513-517.
8Lindvall 0, Kokaia Z, Martinez-Serrano A (2004) Stem cell therapy for human neurodegenerative disorders-how to make it work. Nat Med 10 Suppl:S42-50.
9Parsa H, Shamsasenjan K, Movassaghpour A, Akbarzadeh P, Amoghli Tabrizi B, Dehdilani N, Lotfinegad P, Soleimanloo F (2015) Effect of superparamagnetic iron oxide nanoparticles-Iabeling on mouse embryonic stem cells. Cell J 17:221-230.
10Politis M, Lindvall 0 (2012) Clinical application of stem cell therapy in Parkinson's disease. BMC Med 10:1.

同被引文献8

1吴惺,张冬,左传涛,葛风,朱剑虹,周良辅.自体神经干细胞移植后功能恢复的影像学评价[J].复旦学报（医学版）,2005,32(6):694-694. 被引量：1
2罗先富,吴晶涛,瞿秋霞,胡晓华,陈明祥,陈文新,董颖,姜伦.磁性纳米颗粒MR靶向诊断乳腺癌的体外实验观察[J].中华医学杂志,2013,93(35):2830-2833. 被引量：2
3王灿,汤永红.神经干细胞及其在神经损伤中的应用进展[J].现代医药卫生,2014,30(3):381-383. 被引量：1
4庞鹏飞,李冰,胡晓俊,康庄,关守海,巩发明,孟晓春,李丹,黄明声,单鸿.多功能纳米基因载体转染人脂肪间充质干细胞及体外细胞磁共振显像[J].中华医学杂志,2014,94(13):1021-1024. 被引量：3
5马浚宁,高俊玮,侯博儒,任海军,陈四化,刘吉星,严贵忠.新生小鼠海马、嗅球及皮质神经干细胞的分离培养及鉴定[J].中国组织工程研究,2014,18(45):7266-7272. 被引量：10
6张涛,李文杰,王峰,张宇,徐艾强,沈忆新.小鼠室管膜下区神经干细胞增殖及分化研究[J].中国修复重建外科杂志,2015,29(6):766-771. 被引量：6
7贺菊芳,余资江,朱晓瓞,方丽丽,王俊婕.SD大鼠胚胎神经干细胞悬浮培养与鉴定[J].贵州医科大学学报,2016,41(10):1128-1132.
8李玲,李贵南.神经干细胞治疗新生儿胆红素脑病的进展[J].转化医学杂志,2017,6(3):181-184. 被引量：3

引证文献5

1吴佳琪,曾嘉齐,王培军.超顺磁性氧化铁在干细胞示踪中的研究进展[J].中华医学杂志,2016,96(45):3694-3696.
2叶德文,王琪炜,张卫国,孙剑飞,顾宁.干细胞的磁性标记研究进展[J].科学通报,2017,62(20):2301-2311. 被引量：2
3Shuang-Lin Deng,Yun-Qian Li,Gang Zhao.Imaging Gliomas with Nanoparticle-Labeled Stem Cells[J].Chinese Medical Journal,2018(6):721-730. 被引量：1
4王佳,赵全军,黑博,王兆涛,孙移坤,王涛,崔绍杰,王培新.颅内动脉瘤手术废弃脑组织中成人自体神经干细胞的培养与鉴定[J].中国组织工程研究,2018,22(21):3381-3386. 被引量：3
5Fang Wang,Zhe Wang,Fen Wang,Kelly Dong,Jing Zhang,Yun-juan Sun,Chun-feng Liu,Mei-jie Xing,Xue Cheng,Su Wei,Jia-wei Zheng,Xiong-fei Zhao,Xiao-ming Wang,Jie Fu,Hai-feng Song.Comparative strategies for stem cell biodistribution in a preclinical study[J].Acta Pharmacologica Sinica,2020,41(4):572-580. 被引量：3

二级引证文献9

1Dewen Ye,Yan Li,Ning Gu.Magnetic labeling of natural lipid encapsulations wit ron-based nanoparticles[J].Nano Research,2018,11(6):2970-2991. 被引量：6
2孙建军,李金娟,李长栋,荔志云,周杰.UMSCs对U87MG细胞簇形成及mdr1/P-gp 表达的影响研究[J].西北国防医学杂志,2019,40(5):271-275. 被引量：1
3Wen-Juan Wei,Bei Shi,Xin Guan,Jing-Yun Ma,Ya-Chen Wang,Jing Liu.Mapping theme trends and knowledge structures for human neural stem cells:a quantitative and co-word biclustering analysis for the 2013-2018 period[J].Neural Regeneration Research,2019,14(10):1823-1832. 被引量：5
4孙月彤,李洪艳,邹伟.神经干细胞的自我更新与衰老[J].生物技术通讯,2019,30(4):533-537. 被引量：5
5杨新春.多层螺旋CT脑血管造影诊断颅内动脉瘤的临床价值[J].现代诊断与治疗,2020,31(17):2772-2774. 被引量：3
6叶菊,何绪成,陈晓霞,韩文娟,王贵生.基于图像重建的CT三维重建提升腹部增强扫描图像质量的价值[J].现代生物医学进展,2021,21(23):4483-4486. 被引量：3
7黄瑛,侯田田,秦超,霍艳,王三龙,文海若,耿兴超.嵌合抗原受体T细胞产品非临床安全性评价内容和主要关注的问题探讨[J].中国药物警戒,2022,19(8):813-816.
8张超,成铭,张爱琳,陈浩,程仁辉,黄晓昇.基于响应面法的磁性封孔材料浆液配比优化[J].西安科技大学学报,2023,43(2):264-274. 被引量：3
9黄瑛,张澄,秦超,霍艳,王三龙,耿兴超.脐带间充质干细胞体内示踪技术的建立及在BALB/c裸鼠体内生物分布研究[J].中国医药生物技术,2024,19(6):511-520.

1XIE Li-qian,SUN Hua-ping,WANG Tian,TANG Hai-liang,WANG Pu,ZHU Jian-hong,YAO Zheng-wei,FENG Xiao-yuan.Reprogramming of adult human neural stem cells into induced pluripotent stem cells[J].Chinese Medical Journal,2013(6):1138-1143. 被引量：3
2Stem cells for treatment of spinal cord injury[J].Neural Regeneration Research,2012,7(29):2312-2312.
3Yu Liu,Boai Zhang,Yi Song,Yubin Deng,Yanjie Jia,Qiyong Gong.Bone marrow mesenchymal stem cell transplantation for treatment of spinal cord injury An in vivo magnetic resonance imaging tracking study[J].Neural Regeneration Research,2011,6(13):978-982. 被引量：14
4Saiyong Zhu,Raiesh Ambasudhan,Woong Sun,Hyun Jung Kim,Maria Talantova,Xiaojing Wang,Mingliang Zhang,Yu Zhang,Timothy Laurent,James Parker,Han-Seop Kim,Jeffrey D Zaremba,Sofiyan Saleem,Sara Sanz-Blasco,Eliezer Masliah,Scott R McKercher,Yee Sook Cho,Stuart A Lipton,Janghwan Kim,Sheng Ding.Small molecules enable OCT4-mediated direct reprogramming into expandable human neural stem cells[J].Cell Research,2014,24(1):126-129. 被引量：6
5Xiao-Fei Hu,Jiu-Quan Zhang,Xiao-Mei Jiang,Chao-Yang Zhou,Lu-Qing Wei,Xun-Tao Yin,Jing Li,Yan-Ling Zhang,Jian Wang.Amplitude of Low-frequency Oscillations in Parkinson＇s Disease： A 2-year Longitudinal Resting-state Functional Magnetic Resonance Imaging Study[J].Chinese Medical Journal,2015(5):593-601. 被引量：12
6刘春蓉,李兰英,刘奔,臧晓怡,陈祖培.PDGF对人神经干细胞分化和甲状腺激素受体表达的影响(英文)[J].武警医学院学报,2006,15(1):1-5.
7Tiberiu Coconet.G-Algebras and Clifford Extensions of Points[J].Algebra Colloquium,2014,21(4):711-720.
8LI Xiao-hong,ZHU Jie-ning,JIANG Xue-yan,DENG Chun-yu,KUANG Su-juan,ZHANG Guang-feng,FU Yong-heng,YU Xi-yong.Vitamin C maintaining bone marrow mesenchymal stem cell self-renewal[J].South China Journal of Cardiology,2011,12(1):35-39.
9刘奔,李兰英,庞智玲.人神经干细胞的体外生物学特性[J].细胞生物学杂志,2002,24(4):245-249. 被引量：5
10Sun Ryu,Seung-Hoon Lee,Seung U.Kim,Byung-Woo Yoon.Human neural stem cells promote proliferation of endogenous neural stem cells and enhance angiogenesis in ischemic rat brain[J].Neural Regeneration Research,2016,11(2):298-304. 被引量：25

Neural Regeneration Research

2016年第1期

浏览历史

内容加载中请稍等...

Tracking of iron-labeled human neural stem cells by magnetic resonance imaging in cell replacement therapy for Parkinson＇s disease 被引量：5

参考文献17

同被引文献8

引证文献5

二级引证文献9

相关作者

相关机构

相关主题

浏览历史