Cyclodextrin-based gene delivery systems

被引:333
作者
Ortiz Mellet, Carmen [2 ]
Garcia Fernandez, Jose M. [1 ]
Benito, Juan M. [1 ]
机构
[1] Univ Seville, CSIC, Inst Invest Quim, E-41092 Seville, Spain
[2] Univ Seville, Fac Quim, Dept Quim Organ, E-41071 Seville, Spain
来源
CHEMICAL SOCIETY REVIEWS | 2011年 / 40卷 / 03期
关键词
CARBOHYDRATE-CONTAINING POLYCATIONS; MOLECULAR-WEIGHT POLYETHYLENIMINE; SINGLE-STRANDED RNA; BETA-CYCLODEXTRIN; IN-VITRO; ALPHA-CYCLODEXTRINS; PLASMID DNA; INTRACELLULAR TRAFFICKING; LINEAR POLYETHYLENIMINE; CONJUGATE GENERATION-3;
D O I
10.1039/c0cs00019a
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Cyclodextrin (CD) history has been largely dominated by their unique ability to form inclusion complexes with guests fitting in their hydrophobic cavity. Chemical funcionalization was soon recognized as a powerful mean for improving CD applications in a wide range of fields, including drug delivery, sensing or enzyme mimicking. However, 100 years after their discovery, CDs are still perceived as novel nanoobjects of undeveloped potential. This critical review provides an overview of different strategies to promote interactions between CD conjugates and genetic material by fully exploiting the inside-outside/upper-lower face anisotropy of the CD nanometric platform. Covalent modification, self-assembling and supramolecular ligation can be put forward with the ultimate goal to build artificial viruses for programmed and efficient gene therapy (222 references).
引用
收藏
页码:1586 / 1608
页数:23
相关论文
共 222 条
[1]   Use of cyclodextrin and its derivatives for increased transformation efficiency of competent bacterial cells [J].
Aachmann, Finn Lillelund ;
Aune, Trond Erik Vee .
APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 2009, 83 (03) :589-596
[2]  
Akita H, 2008, EXPERT OPIN DRUG DEL, V5, P847, DOI [10.1517/17425247.5.8.847, 10.1517/17425247.5.8.847 ]
[3]   Nonviral Gene Delivery: Principle, Limitations, and Recent Progress [J].
Al-Dosari, Mohammed S. ;
Gao, Xiang .
AAPS JOURNAL, 2009, 11 (04) :671-681
[4]   Cell-specific gene transfer by α-cyclodextrin conjugates with mannosylated polyamidoamine dendrimers [J].
Arima, H ;
Wada, K ;
Kihara, F ;
Tsutsumi, T ;
Hirayama, F ;
Uekama, K .
JOURNAL OF INCLUSION PHENOMENA AND MACROCYCLIC CHEMISTRY, 2002, 44 (1-4) :361-364
[5]   Enhancement of gene expression by polyamidoamine dendrimer conjugates with α-, β-, and γ-cyclodextrins [J].
Arima, H ;
Kihara, F ;
Hirayama, F ;
Uekama, K .
BIOCONJUGATE CHEMISTRY, 2001, 12 (04) :476-484
[6]   Enhancement of gene transfer activity mediated by mannosylated dendrimer/α-cyclodextrin conjugate (generation 3, G3) [J].
Arima, Hidetoshi ;
Chihara, Yuko ;
Arizono, Masayo ;
Yamashita, Shogo ;
Wada, Koki ;
Hirayama, Fumitoshi ;
Uekama, Kaneto .
JOURNAL OF CONTROLLED RELEASE, 2006, 116 (01) :64-74
[7]   Recent Findings Concerning PAMAM Dendrimer Conjugates with Cyclodextrins as Carriers of DNA and RNA [J].
Arima, Hidetoshi ;
Motoyama, Keiichi .
SENSORS, 2009, 9 (08) :6346-6361
[8]   A review on the use of cyclodextrins in foods [J].
Astray, G. ;
Gonzalez-Barreiro, C. ;
Mejuto, J. C. ;
Rial-Otero, R. ;
Simal-Gandara, J. .
FOOD HYDROCOLLOIDS, 2009, 23 (07) :1631-1640
[9]   Dendrimers Designed for Functions: From Physical, Photophysical, and Supramolecular Properties to Applications in Sensing, Catalysis, Molecular Electronics, Photonics, and Nanomedicine [J].
Astruc, Didier ;
Boisselier, Elodie ;
Ornelas, Catia .
CHEMICAL REVIEWS, 2010, 110 (04) :1857-1959
[10]  
Atwood J.L., 1996, COMPREHENSIVE SUPRAM
12345678910