Synthesis and Self-Assembly of Well-Defined Elastin-Like Polypeptide–Poly(ethylene glycol) Conjugates

A series of stimulus-responsive elastin-like polypeptide–poly(ethylene glycol) (ELP–PEG) block copolymers was synthesized. The polymeric building blocks were conjugated via the efficient and specific strain-promoted alkyne–azide cycloaddition (SPAAC). For this purpose, ELP and PEG blocks were funct...

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Veröffentlicht in:	Biomacromolecules 2014-07, Vol.15 (7), p.2751-2759
Hauptverfasser:	van Eldijk, Mark B, Smits, Ferdinanda C. M, Vermue, Niek, Debets, Marjoke F, Schoffelen, Sanne, van Hest, Jan C. M
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Chemical modifications Chemical reactions and properties Drug Carriers - chemistry Elastin - biosynthesis Elastin - chemistry Escherichia coli Exact sciences and technology Hydrogen-Ion Concentration Hydrophobic and Hydrophilic Interactions Micelles Organic polymers Peptides - chemistry Phase Transition Physicochemistry of polymers Polyethylene Glycols - chemistry Polymerization
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container_title	Biomacromolecules
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creator	van Eldijk, Mark B Smits, Ferdinanda C. M Vermue, Niek Debets, Marjoke F Schoffelen, Sanne van Hest, Jan C. M
description	A series of stimulus-responsive elastin-like polypeptide–poly(ethylene glycol) (ELP–PEG) block copolymers was synthesized. The polymeric building blocks were conjugated via the efficient and specific strain-promoted alkyne–azide cycloaddition (SPAAC). For this purpose, ELP and PEG blocks were functionalized with azide and cyclooctyne moieties, respectively. Azides were introduced by applying a recently developed pH-controlled diazotransfer reaction on the primary amines present in ELP (N-terminus and lysine side chains). By varying pH, ELP-blocks with one or two azides were obtained, which subsequently allowed us to synthesize both ELP–PEG diblock copolymers and miktoarm star polymers. Triggering the phase transition of the ELP-block resulted in the formation of an amphiphilic block copolymer, which self-assembled into micelles. This is the first example of an ELP-containing hybrid block copolymer in which PEG as the hydrophilic corona-forming domain is combined with a stimulus-responsive ELP-block. The encapsulation of a hydrophobic fluorescent dye was shown to exemplify the potential of the micelles to serve as nanocarriers for hydrophobic drugs, with the PEG corona providing stealth and steric protection of encapsulated materials.
doi_str_mv	10.1021/bm5006195
format	Article
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Triggering the phase transition of the ELP-block resulted in the formation of an amphiphilic block copolymer, which self-assembled into micelles. This is the first example of an ELP-containing hybrid block copolymer in which PEG as the hydrophilic corona-forming domain is combined with a stimulus-responsive ELP-block. 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The encapsulation of a hydrophobic fluorescent dye was shown to exemplify the potential of the micelles to serve as nanocarriers for hydrophobic drugs, with the PEG corona providing stealth and steric protection of encapsulated materials.</description><subject>Applied sciences</subject><subject>Chemical modifications</subject><subject>Chemical reactions and properties</subject><subject>Drug Carriers - chemistry</subject><subject>Elastin - biosynthesis</subject><subject>Elastin - chemistry</subject><subject>Escherichia coli</subject><subject>Exact sciences and technology</subject><subject>Hydrogen-Ion Concentration</subject><subject>Hydrophobic and Hydrophilic Interactions</subject><subject>Micelles</subject><subject>Organic polymers</subject><subject>Peptides - chemistry</subject><subject>Phase Transition</subject><subject>Physicochemistry of polymers</subject><subject>Polyethylene Glycols - chemistry</subject><subject>Polymerization</subject><issn>1525-7797</issn><issn>1526-4602</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqN0b1u2zAQAGCiaNA4boe-QKGlgDMoJUVSEsfAcX4AAwmQFh0Fijw6cijK0UmDtrxD37BPEjlxnAwdOt0d8OEOd0fIV0ZPGE3Yj7KWlKZMyQ9kwmSSxiKlycfnXMZZprJDcoS4ppQqLuQncpgIJaSi-YSsbofQ3QFWGOlgo1vwLj5FhLr0Q9S46Dd4H5-BqwLYaOE1dlWIl9U9RDeNHzaw6SoLfx__bKsZdHeDhwDRyg-m8cfRvAnrfqU7wM_kwGmP8GUXp-TX-eLn_DJeXl9czU-XsRZCdHEJTmhZ5lbzMkltKQRknOZGcMfAZFymNjG5NVQZVYLQdFzcpiZXmrmM5oJPyeyl76ZtHnrArqgrNOMSOkDTY8FkSlmS8Jz_BxWSKcrVlh6_UNM2iC24YtNWtW6HgtFi-4Ji_4LRftu17csa7F6-3nwE33dAo9HetTqYCt9cnirG3jttsFg3fRvGw_1j4BNEZ5qT</recordid><startdate>20140714</startdate><enddate>20140714</enddate><creator>van Eldijk, Mark B</creator><creator>Smits, Ferdinanda C. 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subjects	Applied sciences Chemical modifications Chemical reactions and properties Drug Carriers - chemistry Elastin - biosynthesis Elastin - chemistry Escherichia coli Exact sciences and technology Hydrogen-Ion Concentration Hydrophobic and Hydrophilic Interactions Micelles Organic polymers Peptides - chemistry Phase Transition Physicochemistry of polymers Polyethylene Glycols - chemistry Polymerization
title	Synthesis and Self-Assembly of Well-Defined Elastin-Like Polypeptide–Poly(ethylene glycol) Conjugates
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