Polydiacetylene Micelles in Nanomedicine and Beyond

Edmond Gravel; Céline Demeese; Eric Doris

doi:10.1055/a-2242-0479

Synlett, Table of Contents

Synlett 2024; 35(17): 1954-1964
DOI: 10.1055/a-2242-0479

account

Polydiacetylene Micelles in Nanomedicine and Beyond

Edmond Gravel ∗

,

Céline Demeese

,

Eric Doris ∗

Abstract

All articles of this category

Dedicated to the memory of our former Heads of Department, Dr. Charles Mioskowski (deceased June 2, 2007), and Dr. Bernard Rousseau (deceased April 16, 2021).

Abstract

In this account article, we give an overview of our contribution to the development of stable micellar carriers obtained by self-assembly and photo-polymerization of diacetylenic amphiphiles. The stabilized micelles can be loaded with active substances and used for diagnostic and therapeutic applications, or loaded with a metal catalyst to promote some synthetic transformations in fully aqueous medium.

Table of content

1 Introduction

2 Polydiacetylene Micelles Applied to Nanomedicine

2.1 From Amphiphilic Units to Micelles

2.2 In vivo Behavior of Micelles

2.3 Passive Targeting of Tumors with Micelles

2.4 Drug Delivery with Micelles

2.5 Towards Improved Delivery of Micelles to Tumors Using Sonoporation

2.6 Active Targeting with Micelles

2.7 Behavior of Micelles at the Cellular Level and Potential Cytotoxicity

2.8 Micelles for siRNA Transfection

3 Polydiacetylene Micelles Applied to Catalysis

3.1 Copper Nanoparticles in Micelles

3.2 Copper Salts in Micelles

4 Conclusion

Key words

micelle - nanomedicine - polydiacetylene - catalysis - self-assembly

Full Text

References

References
1 Ogier J, Arnauld T, Doris E. Future Med. Chem. 2009; 1: 693
2 Gravel E, Doris E. Future Med. Chem. 2018; 10: 1137
3 Ogier J, Arnauld T, Carrot G, Lhumeau A, Delbos J.-M, Boursier C, Loreau O, Lefoulon F, Doris E. Org. Biomol. Chem. 2010; 8: 3902
4 Gravel E, Ogier J, Arnauld T, Mackiewicz N, Ducongé F, Doris E. Chem. Eur. J. 2012; 18: 400
5 Wu J. J. Pers. Med. 2021; 11: 771
6 Mackiewicz N, Gravel E, Garofalakis A, Ogier J, John J, Dupont DM, Gombert K, Tavitian B, Doris E, Ducongé F. Small 2011; 7: 2786
7 Theodorou I, Anilkumar P, Lelandais B, Clarisse D, Doerflinger A, Gravel E, Ducongé F, Doris E. Chem. Commun. 2015; 51: 14937
8 Jamgotchian L, Devel L, Thai R, Poupel L, Huby T, Gautier E, Le Goff W, Lesnik P, Gravel E, Doris E. Nanoscale 2023; 15: 18864
9 Porret E, Hoang S, Denis C, Doris E, Hrubý M, Novell A, Gravel E, Truillet C. Nanoscale 2023; 15: 12574
10 Doerflinger A, Quang NN, Gravel E, Pinna G, Vandamme M, Ducongé F, Doris E. Chem. Commun. 2018; 54: 3613
11 Doerflinger A, Quang NN, Gravel E, Ducongé F, Doris E. Int. J. Pharm. 2019; 565: 59
12 Gravel E, Thézé B, Jacques I, Anilkumar P, Gombert K, Ducongé F, Doris E. Nanoscale 2013; 5: 1955
13 Costamagna F, Hillaireau H, Vergnaud J, Clarisse D, Jamgotchian L, Loreau O, Denis S, Gravel E, Doris E, Fattal E. Nanoscale 2020; 12: 245
14 Thielens NM, Belime A, Gravel E, Ancelet S, Caneiro C, Doris E, Ling WL. Int. J. Pharm. 2018; 537: 434
15 Hoang M.-D, Vandamme M, Kratassiouk G, Pinna G, Gravel E, Doris E. Nanoscale Adv. 2019; 1: 4331
16 Anilkumar P, Gravel E, Theodorou I, Gombert K, Thézé B, Ducongé F, Doris E. Adv. Funct. Mater. 2014; 24: 5246
17 Jamgotchian L, Vaillant S, Selingue E, Doerflinger A, Belime A, Vandamme M, Pinna G, Ling WL, Gravel E, Mériaux S, Doris E. Nanoscale 2021; 13: 2373

18a Alliot J, Theodorou I, Nguyen DV, Forier C, Ducongé F, Gravel E, Doris E. Nanoscale 2019; 11: 9756
18b Alliot J, Theodorou I, Ducongé F, Gravel E, Doris E. Chem. Commun. 2019; 55: 14968

19 Banerjee M, Panjikar PC, Bhutia ZT, Bhosle AA, Chatterjee A. Tetrahedron 2021; 88: 132142
20 Clarisse D, Prakash P, Geertsen V, Miserque F, Gravel E, Doris E. Green Chem. 2017; 19: 3112
21 Kumar RA, Jawale DV, Oheix E, Geertsen V, Gravel E, Doris E. Adv. Synth. Catal. 2020; 362: 4425