F.C.M. Smits scite author profile

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.

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Elastin‐Like Polypeptide Based Nanoparticles: Design Rationale Toward Nanomedicine

Smits

Buddingh

Eldijk

et al. 2014

Macromolecular Bioscience

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Elastin-like polypeptides (ELPs) are characterized by a high sequence control, temperature responsiveness and biocompatibility, which make them highly interesting as smart materials for application in nanomedicine. In particular the construction of ELP-based nanoparticles has recently become a focal point of attention in materials research. This review will give an overview of the ELP-based nanoparticles that have been developed until now and their underlying design principles. First a short introduction on ELPs and their stimulus-responsive behavior will be given. This characteristic has been applied for the development of ELP-based block copolymers that can self-assemble into nanoparticles. Both the fully ELP-based as well as several ELP hybrid materials that have been reported to form nanoparticles will be discussed, which is followed by a concise description of the promising biomedical applications reported for this class of materials.

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General Strategy for Ordered Noncovalent Protein Assembly on Well-Defined Nanoscaffolds

et al. 2013

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Here we develop a novel approach allowing the noncovalent assembly of proteins on well-defined nanoscaffolds such as virus particles. The antibody-binding peptide Z33 was genetically fused to the monomeric yellow fluorescent protein and 4-coumarate:CoA-ligase 2. This Z33 "tag" allowed their patterning on the surface of zucchini yellow mosaic virus by means of specific antibodies directed against the coat protein of the virus. The approach was validated by affinity assays and correlative microscopy. The coverage efficiency was ≈ 87%. Fluorescence and enzymatic activity were fully retained after assembly. The principle of using the combination of a scaffold-specific antibody and Z33-fusion proteins can be extended to a wide variety of proteins/enzymes and antigenic scaffolds to support coupling for creating functional "biochips" with optical or catalytic properties.

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Crosslinked ELP-based nanoparticles, using the strain promoted azide–alkyne cycloaddition

Smits

Castelijns

Hest

2015

European Polymer Journal

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Thermodynamic investigation of Z33-antibody interaction leads to selective purification of human antibodies

Eldijk

Smits

Thies

et al. 2014

Journal of Biotechnology

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F.C.M. Smits

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

Elastin‐Like Polypeptide Based Nanoparticles: Design Rationale Toward Nanomedicine

General Strategy for Ordered Noncovalent Protein Assembly on Well-Defined Nanoscaffolds

Crosslinked ELP-based nanoparticles, using the strain promoted azide–alkyne cycloaddition

Thermodynamic investigation of Z33-antibody interaction leads to selective purification of human antibodies

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