[en] Polymer micelles have emerged as promising carriers for controlled release applications, however, several limitations of micelle-based drug delivery have also been reported. To address these issues, we have synthesized a functional biodegradable and cytocompatible block copolymer based on methoxypoly (ethyleneglycol)-b-poly(ε-caprolactone-co-α-azido-ε-caprolactone) (mPEG-b-poly(εCL-co-αN3εCL)) as a precursor of reduction sensitive core-crosslinked micelles. The synthesized polymer was formulated as micelles using a dialysis method and loaded with the anti-inflammatory and anti-cancer drug metho- trexate (MTX). The micellar cores were subsequently crosslinked at their pendent azides by a redox- responsive bis(alkyne). The size distributions and morphology of the polymer micelles were assessed using dynamic light scattering (DLS) and transmission electron microscopy, and drug release assays were performed under simplified (serum free) physiological and reductive conditions. Cellular uptake studies in human breast cancer cells were performed using Oregon-green loaded core-crosslinked micelles. The MTX-loaded core-crosslinked micelles were assessed for their effects on metabolic activity in human breast cancer (MCF-7) cells by evaluating the reduction of the dye MTT 3-(4,5-dimethylthiazol-2-yl)-2,5- diphenyltetrazolium bromide. The apoptosis inducing potential of MTX-loaded core-crosslinked micelles was analysed using Hoechst/propidium iodide (PI) and annexin-V/PI assays. The data from these experi- ments indicated that drug release from these cross-linked micelles can be controlled and that the redox- responsive micelles are more effective carriers for MTX than non-crosslinked analogues and the free drug in the cell-lines tested.
Research Center/Unit :
CESAM - Complex and Entangled Systems from Atoms to Materials - ULiège Center for Education and Research on Macromolecules (CERM)
Disciplines :
Chemistry Materials science & engineering
Author, co-author :
Gulfam, Muhammad ; University of Liège - ULiège > Complex and Entangled Systems from Atoms to Materials (CESAM), Center for Education and Research on Macromolecules (CERM)
Matini, Teresa; University of Nottingham, School of Pharmacy, UK
Monteiro, Patrícia F; University of Nottingham, School of Pharmacy, UK
Riva, Raphaël ; University of Liège - ULiège > Complex and Entangled Systems from Atoms to Materials (CESAM), Center for Education and Research on Macromolecules (CERM)
Collins, Hilary; University of Nottingham, School of Pharmacy, UK
Spriggs, Keith; University of Nottingham, School of Pharmacy, UK
Howdle, Steven M.; University of Nottingham, School of Chemistry, UK
Jérôme, Christine ; University of Liège - ULiège > Complex and Entangled Systems from Atoms to Materials (CESAM), Center for Education and Research on Macromolecules (CERM)
Alexander, Cameron; University of Nottingham, School of Pharmacy, UK
Language :
English
Title :
Bioreducible cross-linked core polymer micelles enhance in vitro activity of methotrexate in breast cancer cells
Publication date :
01 March 2017
Journal title :
Biomaterials Science
ISSN :
2047-4830
eISSN :
2047-4849
Publisher :
Royal Society of Chemistry, Cambridge, United Kingdom
Volume :
5
Issue :
3
Pages :
532-550
Peer reviewed :
Peer Reviewed verified by ORBi
Funders :
EACEA - European Education and Culture Executive Agency BELSPO - Service Public Fédéral de Programmation Politique scientifique EPSRC - Engineering and Physical Sciences Research Council CAPES - Coordenação de Aperfeicoamento de Pessoal de Nível Superior
Funding text :
The authors are grateful to the European Commission,
Education, Audiovisual and Cultural Executive Agency,
(EACEA) for an Erasmus Mundus grant to MG under the
NanoFar Joint Doctoral Program. We also thank the CAPES
(Brazilian Government) for a PhD scholarship (PM) and the
Engineering and Physical Sciences Research Council (EPSRC)
for financial support (Leadership Fellowship and Grant EP/
H005625/1 to CA) and Doctoral Prize Fellowship to TM. CERM
thanks the IAP VII-05 (FS2)° for supporting this research. We
gratefully acknowledge Christy Grainger-Boultby, Tom Booth
and Paul Cooling for expert technical assistance.
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