生物功能两亲性环糊精化合物的合成及研究进展
The Synthesis of Biological Functional Amphiphilic Cyclodextrins and Its Research Progress
DOI: 10.12677/JOCR.2013.13004, PDF, HTML, 下载: 2,827  浏览: 11,988  国家自然科学基金支持
作者: 黄健升, 俞 露, 胡信全:浙江工业大学化学工程与材料学院,杭州;崔艳丽:浙江大学化学系,杭州;毛建卫:浙江省农产品化学与生物加工技术重点实验室,杭州
关键词: 两亲性环糊精靶向给药载体自组装合成Amphiphilic Cyclodextrins; Targeted Drug Delivery Carrier; Self-Assembly; Synthetize
摘要: 两亲性环糊精用生物功能基团修饰后,可以自组织形成单层分子膜和纳米粒子、胶团或双层囊泡等,使其具有生物活性潜力。本文从几个方面综述了近几年国内外生物功能两亲性环糊精的研究进展,并对其未来发展做出了展望。
Abstract:  Bio-functionally amphiphilic cyclodextrins can self-assemble into mono micelles, nanoparticles, thermotropic liquid crystals or bilayer vesicles which make amphiphilic cyclodextrins with the powerful biological activity potential. In this article, amphiphilic cyclodextrins with biological function groups are reviewed and the development prospects are also presented.
文章引用:黄健升, 崔艳丽, 俞露, 毛建卫, 胡信全. 生物功能两亲性环糊精化合物的合成及研究进展[J]. 有机化学研究, 2013, 1(3): 13-17. http://dx.doi.org/10.12677/JOCR.2013.13004

参考文献

[1] Kaneto, U., Fumitoshi, H. and Tetsumi, I. (1998) Cyclodextrin drug carrier systems. Chemical Review, 98, 2045-2076.
[2] Mikhail, R. and Yoshihisa, I. (1998) Complexation thermodyna- mics of cyclodextrins. Chemical Reviews, 98, 1875-1917.
[3] Parrot-Lopez, H., Ling, C., Zhang, P., et al. (1992) Self-assemb- ling systems of the amphiphilic cationic per-6-amino-.beta.-cy- clodextrin 2,3-di-O-alkyl ethers. Journal of the American Che- mical Society, 114, 5479.
[4] Ling, C., Darcy, R. and Risse, W. (1993) Cyclodextrin liquid crystals: Synthesis and self-organisation of amphiphilic thio-β- cyclodextrins. Journal of the Chemical Society, Chemical Com- munications, 438.
[5] Witte, F. and Hoffmann, H. (1996) Aggregation behavior of hy- drophobically modified β-cyclodextrins in aqueous solution. Jour- nal of Inclusion Phenomenon Molecular Recognition Chemistry, 2, 25-28.
[6] Sortino, S., Petralia, S., Darcy, R., et al. (2003) Photochemical outcome modification of diflunisal by a novel cationic amphi- philic cyclodextrin. New Journal of Chemistry, 27, 602-608.
[7] 杨建平, 巨晓洁, 褚良银 (2008) 两亲性环糊精的合成研究进展. 化工进展, 27, 21-25.
[8] Tetsuya, F., Seiichi, A. and Nishimura, S.I. (2000) A highly practical synthesis of cyclodextrin-based glycoclusters: Having enhanced affinity with lectins. Tetrahedron, 56, 9909-9915.
[9] Antonino, M., Damien, F., Domenico, G., et al. (2004) Multiva- lent binding of galactosylated cyclodextrin vesicles to lectin. Organic & Biomolecular Chemistry, 2, 957-960.
[10] Yamanoi, T., Yoshida, N., Yoshiki, O., et al. (2005) Synthesis of monoglucose-branched cyclodextrins with a high inclusion abil- ity for doxorubicin and their efficient glycosylation using Mucor hiemalis en-do-β-N-acetylglucosaminidase. Bioorganic & Medici- nal Chemistry Letters, 15, 1009-1013.
[11] Simone, M.N., Anna, R., Lay, L., et al. (2007) Amphiphilic N- glycosyl-thiocarbamoyl cyclodextrins: Synthesis, self-assembly, and fluorimetry of recognition by lens culinaris lectin. Biomac- romolecules, 8, 1851-1857.
[12] Rachel, A.V., Bruno, P., Olivier, T., et al. (1999) Cholesteryl- cyclodextrins: Synthesis and insertion into phospholipid mem- branes. Carbohydrate Research, 318, 82-90.
[13] Moutard, S., Perly, B., Gode, P., et al. (2002) Novel glycolipids based on cyclodextrins. Journal of Inclusion Phenomena and Mac- rocyclic Chemistry, 44, 317-322.
[14] Auzely-Velty, R., Pean, C., Djedaini-Pilard, F., et al. (2001) Mi- cellization of hydrophobically modified cyclodextrins: 2. inclu- sion of guest molecules. Langmuir, 17, 504-510.
[15] Wang, T., Chipot, C., Shao, et al. (2011) Structural characteriza- tion of micelles formed of cholesteryl-functionalized cyclo- dextrins. Langmuir, 27, 91-97.
[16] Grachev, M.K., Sipin, S.V., Kononov, L.O., et al. (2009) Syn- thesis of amphiphilic glycophospholipids based on β-cyclodex- trins. Russian Chemical Bulletin, International Edition, 58, 223- 229.
[17] Perly, B., Moutard, M. and Djedaini-Pilard, F. (2005) Amphi- philic cyclodextrins from a general concept to properties and applications. Pharmachem, 1, 4-9.
[18] Irie, T. and Uekmna, K. (1999) Cyclodextrins in peptide and protein delivery. Advanced Drug Delivery Reviews, 36, 101-123.
[19] Tavomvipas, S., Tajiri, S., Hirayama, F., et al. (2004) Effects of hydrophilic cyclodextrins on aggregation of recombinant human growth hormone. Pharma-ceutical Research, 21, 2369-2376.
[20] Soares, A.F., Carvalho, R.A. and Veiga, F. (2007) Oral admini- stration of peptides and proteins: nanoparticles and cyclodextrins as biocompatible delivery systems. Nanomedicine, 2, 183-202.
[21] Seyedia, S.M., Sadeghianb, H., Jabbaria, A., et al. (2010) Design and synthesis of a new series of amphiphilic peptide β-cyclo- dextrins as phase transfer carriers for glucosamine. Tetrahedron, 66, 6754-6760.
[22] Angelina, A., Christophe, F., Hocquelet, C., et al. (2008) Phys- ico-chemical investigation of asymmetrical peptidolipidyl-cyclo- dextrins. Journal of Colloid and Interface Science, 322, 304- 314.
[23] Cui, Y.L., Wang, C.X., Mao, J.W., et al. (2010) A facile and practical approach to randomly methylated β-cyclodextrin. Jour- nal of Chemical Technology and Biotechnology, 85, 248-251.
[24] Dong, D.X., Baigl, D., Cui, Y.L., et al. (2007) Amphiphilic bipolar duplex a-cyclodextrin forming vesicles. Tetrahedron, 63, 2973-2977.

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