doi:

DOI: 10.3724/SP.J.1105.2012.12151

Acta Polymerica Sinica (高分子学报) 2012/012:10 PP.1128-1135

PROGRESS IN SELF-ASSEMBLIES FOR MIMICKING VIRAL CAPSIDS AND THEIR BIOMEDICAL APPLICATIONS


Abstract:
Self-assembly inspired from nature has been regarded as an important areas of basic and applied research,and it was an interdisciplinary research field including chemistry,materials science,biomedical engineering etc. With the inspiration from viral capsids,researchers are expecting to fabricate the capsid-like architectures with the self-assembly learning from natural or artificial units and mimick the capsid functions.The peptide-based self-assemblies for mimicking viral capsids were highlighted in this review.Recent progresses on biomedical applications of self-assemblies mimicking viral capsids were reviewed.

Key words:Bio-inspired self-assembly, Mimicking viral capsids, Drug/gene delivery systems, Peptide-based self-assembly

ReleaseDate:2014-07-21 16:21:35



1 Philp D,Stoddart J F.Angew Chem Int Ed,1996,35:1155~1196

2 Percec V,Ungar G,Peterca M.Science,2006,313:55~56

3 Whitesides GM,Grzybowski B.Science,2002,295:2418~2421

4 Mann S.Angew Chem Int Ed,2008,47:5306~5320

5 Meierhenrich U J,Filippi J J,Meinert C,Vierling P,Dworkin J P.Angew Chem Int Ed,2010,49:3738~3750

6 Service R F.Science,2005,309:95

7 Budin I,Bruckner R J,Szostak J W.J Am Chem Soc,2009,131:9628~9629

8 Szostak J W.Angew Chem Int Ed,2010,49:7386~7404

9 Szostak J W,Bartel D P,Luisi P L.Nature,2001,409:387~390

10 Hou X,Jiang L.ACS Nano,2009,3:3339~3342

11 Hou X,Zhang H,Jiang L.Angew Chem Int Ed,2012,51:5296~5307

12 Liu K,Yao X,Jiang L.Chem Soc Rev,2010,39:3240~3255

13 Liu K,Jiang L.ACS Nano,2011,5:6786~6790

14 Yoo J-W,Irvine D J,Discher D E,Mitragotri S.Nat Rev Drug Discov,2011,10:521~535

15 Mann S.Nat Mater,2009,8:781~792

16 Zuber G,Dauty E,Nothisen M,Belguise P,Behr J P.Adv Drug Delivery Rev,2001,52:245~253

17 Fischlechner M,Donath E.Angew Chem Int Ed,2007,46:3184~3193

18 Nguyen H D,Reddy V S,Brooks Iii C L.J Am Chem Soc,2009,131:2606~2614

19 Bourne C R,Katen S P,Fulz M R,Packianathan C,Zlotnick A.Biochemistry,2009,48:1736~1742

20 Olson A J,Hu YHE,Keinan E.Proceedings of the National Academy of Sciences,2007,104:20731~20736

21 Su Z,Wang Q.Angew Chem Int Ed,2010,49:10048~10050

22 Ma Y,Nolte R J M,Cornelissen J J L M.Adv Drug Delivery Rev,2012,64:811~825

23 Grigoryan G,Kim Y H,Acharya R,Axelrod K,Jain R M,Willis L,Drndic M,Kikkawa J M,DeGrado W F.Science,2011,332:1071~1076

24 Ahmed F,Photos P J,Discher D E.Drug Develop Res,2006,67:4~14

25 Discher D E,Eisenberg A.Science,2002,297:967~973

26 LoPresti C,Lomas H,Massignani M,Smart T,Battaglia G.J Mater Chem,2009,19:3576~3590

27 Bromley EHC,Channon K,Moutevelis E,Woolfson D N.ACS Chemical Biology,2008,3:38~50

28 Pokorski J K,Breitenkamp K,Liepold L O,Qazi S,Finn M G.J Am Chem Soc,2011,133:9242~9245

29 Kostiainen M A,Kasyutich O,Cornelissen J J L M,Nolte R J M.Nat Chem,2010,2:394~399

30 Kwak M,Minten I J,Anaya D M,Musser A J,Brasch M,Nolte R J M,Müllen K,Cornelissen J J L M,Herrmann A.J Am Chem Soc,2010,132:7834~7835

31 Liu Xiaoxia(刘晓霞),Jiang Ming(江明).Acta Polymerica Sinica(高分子学报),2011,(9):1007~1019

32 Bunzen J,Iwasa J,Bonakdarzadeh P,Numata E,Rissanen K,Sato S,Fujita M.Angew Chem Int Ed,2012,51:3161~3163

33 Stefankiewicz A R,Sanders J K M.Science,2010,328:1115~1116

34 Deechongkit S,Powers E T,You S L,Kelly J W.J Am Chem Soc,2005,127:8562~8570

35 Dreher M R,Simnick A J,Fischer K,Smith R J,Patel A,Schmidt M,Chilkoti A.J Am Chem Soc,2007,130:687~694

36 Hartgerink J D,Beniash E,Stupp S I.Science,2001,294:1684~1688

37 Hadjichristidis N,Iatrou H,Pitsikalis M,Sakellariou G.Chem Rev,2009,109:5528~5578

38 Sun H,Meng F,Dias A A,Hendriks M,Feijen J,Zhong Z.Biomacromolecules,2011,12:1937~1955

39 Gabrielson NP,Lu H,Yin L,Li D,Wang F,Cheng J.Angew Chem Int Ed,2012,51:1143~1147

40 Garanger E,Lecommandoux S.Angew Chem Int Ed,2012,51:3060~3062

41 Lim Y B,Lee E,Yoon Y R,Lee M S,Lee M.Angew Chem Int Ed,2008,120:4601~4604

42 Xu X,Yuan H,Chang J,He B,Gu Z.Angew Chem Int Ed,2012,51:3130~3133

43 Boato F,Thomas R M,Ghasparian A,Freund-Renard A,Moehle K,Robinson J A.Angew Chem Int Ed,2007,46:9015~9018

44 Schatz C,Louguet S,Le Meins J F,Lecommandoux S.Angew Chem Int Ed,2009,48:2572~2575

45 Liu R,Li D,He B,Xu X,Sheng M,Lai Y,Wang G,Gu Z.J Controlled Release,2011,152:49~56

46 Lee E S,Gao Z,Bae Y H.J Controlled Release,2008,132:164~170

47 Gu Zhongwei(顾忠伟),Luo Kui(罗奎),She Wenchuan(佘汶川),Wu Yao(吴尧),He Bin(何斌). Science China Chemistry(中国科学.化学),2010,53:458~478

48 Luo K,Li C,Wang G,Nie Y,He B,Wu Y,Gu Z W.J Controlled Release,2011,155:77~87

49 Brasch M,de la Escosura As,Ma Y,Uetrecht C,Heck A J R,Torres T,Cornelissen J J L M.J Am Chem Soc,2011,133:6878~6881

50 Cadena-Nava R D,Hu Y,Garmann R F,Ng B,Zelikin A N,Knobler C M,Gelbart W M.The Journal of Physical Chemistry B,2011,115:2386~2391

51 Xu Xianghui(徐翔晖),Li Caixia(李彩侠),Li Haiping(李海平),Liu Rong(刘荣),Jiang Chao(江超),Wu Yao(吴尧),He Bin(何斌),Gu Zhongwei(顾忠伟).Science China Chemistry(中国科学,化学),2011,54:326~333

52 Nam Y S,Shin T,Park H,Magyar A P,Choi K,Fantner G,Nelson K A,Belcher A M.J Am Chem Soc,2010,132:1462~1463

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