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靶向释放智能纳米载体的研究进展 被引量:2

Research Progress in Intelligent Nano-Carriers for Targeted Delivery
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摘要 随着材料科学的进步,智能纳米载体在药物和基因靶向治疗方面取得了巨大的研究进展。智能纳米载体被化学信号、温度、pH等"触发器"激发后,能在特定部位响应性地释放药物或基因。该文从智能纳米载体的定义,不同类型靶向释放的智能纳米载体在药物和基因中的研究进展,靶向释放的智能纳米载体的不足及发展前景等方面进行综述。 With the advances in material science, intelligent nano-carriers for targeted drug and gene delivery have made tremendous progress. In response to stimuli including chemical molecules, temperature and pH, drugs and genes could be released from intelligent nano- carriers in targeted tissues and organs. This review contains three parts of intelligent nano- carriers, definition, research advance on different types of targeted delivery intelligent nano-carriers in drug and gene, and disadvantage and development prospect of intelli- gent nano-carriers for targeted delivery.
作者 顾君彤 徐维平 陆杨 徐婷娟 黄向华 张勇强
机构地区 安徽中医学院研究生部 安徽省立医院 中国科学技术大学
出处 《中国药业》 CAS 2012年第21期1-3,共3页 China Pharmaceuticals
基金 安徽省学术和技术带头人及后备人选学术科研经费资助 项目编号:11040606M193
关键词 智能纳米载体 靶向释放 传输 药物 基因 intelligent nano - carriers targeted release delivery drug gene
分类号 R944.9 [医药卫生—药剂学]
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参考文献25

  • 1Couvreur P, Vauthier C. Nanotechnology: intelligent design to treat com?plex disease [Jl. Pharm Res, 2006, 23 (7): I 417 - 1 450.
  • 2Vlerken LE, Duan Z, Seiden MV. Modulation of Intracellular ceramide us?ing polymeric nanoparticles to overcome multidrug resistance in eancer[Jl. Cancer Res, 2007 ,67 ( 10): 4 843 - 4 850.
  • 3Chiang CJ, Lin SC, Lin LJ. Cal eosin - assembled oil bodies as a potential delivery nanocarriedJl. Appl Microbiol Biotechnal, 2012,93(5): 1905- 1915.
  • 4黄建艳,汤顺清,蔡继业.纳米靶向技术在智能释药系统的应用[J].材料导报,2007,21(F11):27-29. 被引量:1
  • 5Torchilin VP. Targeted pharmaceutical nanocarri - ers far cancer therapy and imaging[J]. AAPS 1, 2007,9(2): 128 - 147.
  • 6Lai CY, Trewyn BG, Lin VS. A Mesaporous Silica Nanosphere - Based Carrier System with Chemically Removable CdS Nanoparticle Caps for Stimuli - Responsive Controlled Release of Neurotransmitters and Drug Molecules[J]. J Am Chern Soc ,2003,125 (15): 4 451 - 4459.
  • 7Luo Z, Cai K, Zhao L. Mesoporous Silica Nanopartieles End - Capped with Collagen: Redox - Responsive Nanoreservoirs for Targeted Drug De?livery[J]. Angew Chern Int Ed Enql, 2011, 50(3): 640 - 643.
  • 8Schmitz T, Bravo - Osuna I, Vauthier C, et a1. Dev - elopment and in vitro evaluation of a thiomer ba - sed nanoparticulate gene delivery system [J]. Biom - aterials, 2007,28 (3): 524 - 531.
  • 9Brusa P, Immordino ML, Rocco F. Antitumor ac - tivity and pharmacoki?netics of liposomes containinglipophilic gemcitabine prodrugsj J], Anticacer Res,2007,27(1): 195 -199.
  • 10Weecharangsan W, Yu B, liu S. Disulfide -linked Liposomes: Effec?tive Delivery Vehiele for Bel - 2 Antisense Oligodeoxyribonucleotide G3 139 [J 1. Anti - Cacer Res ,2010,30(1 ): 31 - 38.

二级参考文献47

  • 1Tomalia DA, Baker H, Dewald J, et al. A new class of polymers: Starburst-dendritic macromolecules. Polym J, 1985; 17:117.
  • 2Gregory PP, Richard MC. Selectively permeable dendrimers as molecular gates. The Electrochemical Society Interface, Fall 2001:34.
  • 3Luo D, Saltzman WM. Synthetic DNA delivery systems. Nature biotechnology, 2000; 18:33.
  • 4Buhleier E, Wehner W, Vgtle F. Cascade and nonskid-chain-like synthesis of molecular cavity topologies. Synthesis, 1978; 2:155.
  • 5Kukowska LJF, Bielinska A, Johnson J, et al. Efficient transfer of genetic material into mammalian cells using starburst polyamidoamine dendrimers. Pro Natl Acad Sci USA,1996; 93:4897.
  • 6Vogtle F, Gestermann F, Hesse R, et al. Functional dendrimers. Prog Polym Sci, 2000; 25:987.
  • 7Bielinska A, Kukowska LJF, Johnson J, et al. Regulation of in vitro gene expression using antisense aligonucleotides or antisense expression plasmids transfected using starburst PAMAM dendrimers. Nucleic Acids Res, 1996; 24(11):2176.
  • 8Diebold SS, Kursa M, Wagner E, et al. Mannose polyethylenimine conjugates for targeted DNA delivery into dendritic cells. The Journal of Biological Chemistry, 1999; 274(27):19087.
  • 9白进发 顾微 叶玲.树状大分子研究在医学中的应用展望[EB/OL].http://hxtb.icas.ac.cn/col/2001/pdf/c01119.pdf.,.
  • 10Bulte JW, Douglas T, Witwer B, et al. Magnetodendrimers allow endosomal magnetic labeling and in vivo tracking of stem cells. Nat Biotechnol, 2001; 19(12):1141.

共引文献5

同被引文献73

  • 1常津.具有复合靶向抗癌功能的纳米高分子材料[J].中国生物医学工程学报,1996,15(2):97-101. 被引量:44
  • 2马勇杰,古宏晨.细胞内磁热疗研究概述[J].上海师范大学学报(自然科学版),2005,34(4):65-69. 被引量:8
  • 3王海,王友法.纳米羟基磷灰石在药物载体中的应用[J].精细与专用化学品,2006,14(1):9-11. 被引量:10
  • 4张伟,程时远,闫翠娥.靶向壳聚糖基因载体与水溶性量子点的自组装[J].胶体与聚合物,2007,25(2):8-10. 被引量:3
  • 5Chomoucka J, Drbohlavova J, Huska D, Adam V, Kizek R, Hubalek J. Magnetic nanoparticles and targeted drug delivering. Pharrnacol Res, 2010, 62:144-149.
  • 6Li JM, Zhao MX, Su H, Wang YY, Tan CP, Ji LN, Mao ZW. Multifunctional quantum-dot-based siRNA delivery for HPV18 E6 gene silence and intracellular imaging. Biomaterials, 2011, 32(31): 7978-7987.
  • 7Sandhu KK, Mclntosh CM, Simard JM, Smith SW, Rotello VM. Gold nanoparticles mediated transfection of mammalian cells. Bioconjug Chem, 2002, 13(1): 3-6.
  • 8Torney F, Trewyn BG, Lin VSY, Wang K. Mesoporous silica nanoparticles deliver DNA and chemicals into plants. Nat Nanotech, 2007, 2(5): 295-300.
  • 9Zhang J J, Lei YG, Dhaliwa A, Ng QK, Du J J, Ming Y, Lu YF, Segura T. Protein-polymer nanoparticles for nonviral gene delivery. Biomacromolecules, 2011, 12(4): 1006-1014.
  • 10Mahtab R, Rogers JP, Murphy CJ. Temperature and salt dependent binding of long DNA to protein-sized quantum dots: "Thermodynamics of inorganicprotein"-DNA interactions. J Am Chem Soc, 2000, 122(1): 14-17.

引证文献2

二级引证文献8

中国药业
2012年 第21期

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