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1. Internalization and Transport of PEGylated Lipid-Based Mixed Micelles across Caco-2 Cells Mediated by Scavenger Receptor B1

Author

Xiangjie Su, Mercedes Ramírez-Escudero, Feilong Sun, Joep B. van den Dikkenberg, Mies J. van Steenbergen, Roland J. Pieters, Bert J. C. Janssen, Peter M. van Hasselt, Wim E. Hennink, and Cornelus F. van Nostrum

Subjects
vitamin K, mixed micelles, PEGylation, scavenger receptor B1, epithelial transport, Pharmacy and materia medica, RS1-441
Abstract

The aim of this study was to get insight into the internalization and transport of PEGylat-ed mixed micelles loaded by vitamin K, as mediated by Scavenger Receptor B1 (SR-B1) that is abundantly expressed by intestinal epithelium cells as well as by differentiated Caco-2 cells. Inhibition of SR-B1 reduced endocytosis and transport of vitamin-K-loaded 0%, 30% and 50% PEGylated mixed micelles and decreased colocalization of the micelles with SR-B1. Confocal fluorescence microscopy, fluorescence-activated cell sorting (FACS) analysis, and surface plasmon resonance (SPR) were used to study the interaction between the mixed micelles of different compositions (varying vitamin K loading and PEG content) and SR-B1. Interaction of PEGylated micelles was independent of the vitamin K content, indicating that the PEG shell prevented vitamin K exposure at the surface of the micelles and binding with the receptor and that the PEG took over the micelles’ ability to bind to the receptor. Molecular docking calculations corroborated the dual binding of both vita-min K and PEG with the binding domain of SR-B1. In conclusion, the improved colloidal stability of PEGylated mixed micelles did not compromise their cellular uptake and transport due to the affinity of PEG for SR-B1. SR-B1 is able to interact with PEGylated nanoparticles and mediates their subsequent internalization and transport.

Published
2021
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2. Shelf-Life Evaluation and Lyophilization of PBCA-Based Polymeric Microbubbles

Author

Tarun Ojha, Vertika Pathak, Natascha Drude, Marek Weiler, Dirk Rommel, Stephan Rütten, Bertram Geinitz, Mies J. van Steenbergen, Gert Storm, Fabian Kiessling, and Twan Lammers

Subjects
PBCA, microbubbles, ultrasound, lyophilization, storage stability, drug retention, Pharmacy and materia medica, RS1-441
Abstract

Poly(n-butyl cyanoacrylate) microbubbles (PBCA-MB) are extensively employed for functional and molecular ultrasound (US) imaging, as well as for US-mediated drug delivery. To facilitate the use of PBCA-MB as a commercial platform for biomedical applications, it is important to systematically study and improve their stability and shelf-life. In this context, lyophilization (freeze drying) is widely used to increase shelf-life and promote product development. Here, we set out to analyze the stability of standard and rhodamine-B loaded PBCA-MB at three different temperatures (4 °C, 25 °C, and 37 °C), for a period of time of up to 20 weeks. In addition, using sucrose, glucose, polyvinylpyrrolidone (PVP), and polyethylene glycol (PEG) as cryoprotectants, we investigated if PBCA-MB can be lyophilized without affecting their size, concentration, US signal generation properties, and dye retention. Stability assessment showed that PBCA-MB remain largely intact for three and four weeks at 4 °C and 25 °C, respectively, while they disintegrate within one to two weeks at 37 °C, thereby compromising their acoustic properties. Lyophilization analyses demonstrated that PBCA-MB can be efficiently freeze-dried with 5% sucrose and 5% PVP, without changing their size, concentration, and US signal generation properties. Experiments involving rhodamine-B loaded MB indicated that significant dye leakage from the polymeric shell takes place within two to four weeks in case of non-lyophilized PBCA-MB. Lyophilization of rhodamine-loaded PBCA-MB with sucrose and PVP showed that the presence of the dye does not affect the efficiency of freeze-drying, and that the dye is efficiently retained upon MB lyophilization. These findings contribute to the development of PBCA-MB as pharmaceutical products for preclinical and clinical applications.

Published
2019
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3. Shrinkable Hydrogels through Host–Guest Interactions: A Robust Approach to Obtain Tubular Cell‐Laden Scaffolds with Small Diameters.

Author

Iudin, Dmitrii, Steenbergen, Mies J., Masereeuw, Rosalinde, Ravensteijn, Bas G. P., and Vermonden, Tina

Abstract

The availability of realistic in vitro models is crucial for tissue engineering, disease modeling, and drug screening assays. However, reproducing the complex shapes and intricate structures of naturally occurring tissues or organs in the presence of functional cells remains a challenge. For example, it is still not trivial to obtain cell‐laden tubular structures on a micrometer scale present in the nephrons of the human kidney. Here, a unique hydrogel‐based shrinking approach making use of host–guest interactions to decrease the diameters of the preformed hydrogel tubules seeded with cells is proposed as a tool to overcome the abovementioned challenge. The hydrogels are composed of covalently crosslinked methacrylated hyaluronic acid and methacrylated dextran modified with either cyclodextrin or adamantane groups that can form dynamic bonds. The hydrogels are initially formed in the presence of small‐molecule competitors that block any interpolymer host–guest interactions, and the shrinking process is triggered by the release of these competitor molecules. The high shrinking efficiency with a shrinking factor up to eight times in volume and robust cytocompatibility make the host‐guest‐based shrinking approach an appealing tool to obtain hydrogel tubular in vitro models with the desired dimensions on demand. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Covalent Grafting of Functionalized MEW Fibers to Silk Fibroin Hydrogels to Obtain Reinforced Tissue Engineered Constructs

Author

Afd Pharmaceutics, Equine Musculoskeletal Biology, CS_Locomotion, Locomotion - Equine Sciences, Viola, Martina, Ainsworth, Madison J, Mihajlovic, Marko, Cedillo-Servin, Gerardo, van Steenbergen, Mies J, van Rijen, Mattie, de Ruijter, Mylène, Castilho, Miguel, Malda, Jos, Vermonden, Tina, Afd Pharmaceutics, Equine Musculoskeletal Biology, CS_Locomotion, Locomotion - Equine Sciences, Viola, Martina, Ainsworth, Madison J, Mihajlovic, Marko, Cedillo-Servin, Gerardo, van Steenbergen, Mies J, van Rijen, Mattie, de Ruijter, Mylène, Castilho, Miguel, Malda, Jos, and Vermonden, Tina

Published
2024

5. Covalent Grafting of Functionalized MEW Fibers to Silk Fibroin Hydrogels to Obtain Reinforced Tissue Engineered Constructs

Author

Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Viola, Martina, Ainsworth, Madison J., Mihajlovic, Marko, Cedillo-Servin, Gerardo, van Steenbergen, Mies J., van Rijen, Mattie, de Ruijter, Mylène, Castilho, Miguel, Malda, Jos, Vermonden, Tina, Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Viola, Martina, Ainsworth, Madison J., Mihajlovic, Marko, Cedillo-Servin, Gerardo, van Steenbergen, Mies J., van Rijen, Mattie, de Ruijter, Mylène, Castilho, Miguel, Malda, Jos, and Vermonden, Tina

Published
2024

9. Mechanistic Study on the Degradation of Hydrolysable Core-Crosslinked Polymeric Micelles

Author

Hebels, Erik R., primary, van Steenbergen, Mies J., additional, Haegebaert, Ragna, additional, Seinen, Cornelis W., additional, Mesquita, Barbara S., additional, van den Dikkenberg, Antoinette, additional, Remaut, Katrien, additional, Rijcken, Cristianne J. F., additional, van Ravensteijn, Bas G. P., additional, Hennink, Wim E., additional, and Vermonden, Tina, additional

Published
2023
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11. Mechanistic Study on the Degradation of Hydrolysable Core-Crosslinked Polymeric Micelles

Author

Hebels, Erik R, van Steenbergen, Mies J, Haegebaert, Ragna, Seinen, Cornelis W, Mesquita, Barbara S, van den Dikkenberg, Antoinette, Remaut, Katrien, Rijcken, Cristianne J F, van Ravensteijn, Bas G P, Hennink, Wim E, Vermonden, Tina, Hebels, Erik R, van Steenbergen, Mies J, Haegebaert, Ragna, Seinen, Cornelis W, Mesquita, Barbara S, van den Dikkenberg, Antoinette, Remaut, Katrien, Rijcken, Cristianne J F, van Ravensteijn, Bas G P, Hennink, Wim E, and Vermonden, Tina

Abstract

Core-crosslinked polymeric micelles (CCPMs) are an attractive class of nanocarriers for drug delivery. Two crosslinking approaches to form CCPMs exist: either via a low-molecular-weight crosslinking agent to connect homogeneous polymer chains with reactive handles or via cross-reactive handles on polymers to link them to each other (complementary polymers). Previously, CCPMs based on methoxy poly(ethylene glycol)- b-poly[ N-(2-hydroxypropyl) methacrylamide-lactate] (mPEG- b-PHPMAmLac n ) modified with thioesters were crosslinked via native chemical ligation (NCL, a reaction between a cysteine residue and thioester resulting in an amide bond) using a bifunctional cysteine containing crosslinker. These CCPMs are degradable under physiological conditions due to hydrolysis of the ester groups present in the crosslinks. The rapid onset of degradation observed previously, as measured by the light scattering intensity, questions the effectiveness of crosslinking via a bifunctional agent. Particularly due to the possibility of intrachain crosslinks that can occur using such a small crosslinker, we investigated the degradation mechanism of CCPMs generated via both approaches using various analytical techniques. CCPMs based on complementary polymers degraded slower at pH 7.4 and 37 °C than CCPMs with a crosslinker (the half-life of the light scattering intensity was approximately 170 h versus 80 h, respectively). Through comparative analysis of the degradation profiles of the two different CCPMs, we conclude that partially ineffective intrachain crosslinks are likely formed using the small crosslinker, which contributed to more rapid CCPM degradation. Overall, this study shows that the type of crosslinking approach can significantly affect degradation kinetics, and this should be taken into consideration when developing new degradable CCPM platforms.

Published
2023

12. Mechanistic Study on the Degradation of Hydrolysable Core-Crosslinked Polymeric Micelles

Author

Afd Pharmaceutics, Sub Drug delivery, Pharmaceutics, Hebels, Erik R, van Steenbergen, Mies J, Haegebaert, Ragna, Seinen, Cornelis W, Mesquita, Barbara S, van den Dikkenberg, Antoinette, Remaut, Katrien, Rijcken, Cristianne J F, van Ravensteijn, Bas G P, Hennink, Wim E, Vermonden, Tina, Afd Pharmaceutics, Sub Drug delivery, Pharmaceutics, Hebels, Erik R, van Steenbergen, Mies J, Haegebaert, Ragna, Seinen, Cornelis W, Mesquita, Barbara S, van den Dikkenberg, Antoinette, Remaut, Katrien, Rijcken, Cristianne J F, van Ravensteijn, Bas G P, Hennink, Wim E, and Vermonden, Tina

Published
2023

17. Tuning the size of all-HPMA polymeric micelles fabricated by solvent extraction

Author

Wang, Yan, Thies-Weesie, Dominique M E, Bosman, Esmeralda D C, van Steenbergen, Mies J, van den Dikkenberg, Joep, Shi, Yang, Lammers, Twan, van Nostrum, Cornelus F, Hennink, Wim E, Wang, Yan, Thies-Weesie, Dominique M E, Bosman, Esmeralda D C, van Steenbergen, Mies J, van den Dikkenberg, Joep, Shi, Yang, Lammers, Twan, van Nostrum, Cornelus F, and Hennink, Wim E

Abstract

The size of polymeric micelles crucially affects their tumor accumulation, penetration and antitumor efficacy. In the present study, micelles were formed based on amphiphilic poly(N-2-hydroxypropyl methacrylamide)-block-poly(N-2-benzoyloxypropyl methacrylamide) (p(HPMAm)-b-p(HPMAm-Bz)) via the solvent extraction method, and factors impacting micelle size were systematically studied, including the molecular weight of the polymers, homopolymer content, and processing methods (i.e., batch process versus continuous microfluidics). The formation of core-shell structured micelles was demonstrated by light scattering, sedimentation velocity and electron microscopy analysis. Micellar size and aggregation number increased with decreasing the molecular weight ratio of the hydrophilic/hydrophobic block. The presence of hydrophobic p(HPMAm-Bz) homopolymer and high copolymer concentration increased micelle size, while the presence of hydrophilic p(HPMAm) homopolymer did not affect micellar size. Regarding processing conditions, it was found that the use of tetrahydrofuran and acetone as solvents for the polymers resulted in larger micelles, likely due to their relatively high water-solvent interaction parameters as compared to other solvents tested, i.e., dimethylformamide, dimethylacetamide, and dimethyl sulfoxide. Among the latter, only dimethylformamide led to micelles with a narrow polydispersity. Addition of dimethylformamide to an aqueous solvent and faster mixing of two solvents using microfluidics favored the formation of smaller micelles. In conclusion, our results show that the size of all-HPMA polymeric micelles can be easily tailored from 40 to 120 nm by varying the formulation properties and processing parameters.

Published
2022

18. Tuning the size of all-HPMA polymeric micelles fabricated by solvent extraction

Author

Afd Pharmaceutics, Sub Physical and Colloid Chemistry, Pharmaceutics, Wang, Yan, Thies-Weesie, Dominique M E, Bosman, Esmeralda D C, van Steenbergen, Mies J, van den Dikkenberg, Joep, Shi, Yang, Lammers, Twan, van Nostrum, Cornelus F, Hennink, Wim E, Afd Pharmaceutics, Sub Physical and Colloid Chemistry, Pharmaceutics, Wang, Yan, Thies-Weesie, Dominique M E, Bosman, Esmeralda D C, van Steenbergen, Mies J, van den Dikkenberg, Joep, Shi, Yang, Lammers, Twan, van Nostrum, Cornelus F, and Hennink, Wim E

Published
2022

20. Dithiolane-Crosslinked Poly(ε-caprolactone)-Based Micelles: Impact of Monomer Sequence, Nature of Monomer, and Reducing Agent on the Dynamic Crosslinking Properties

Author

Liu, Yanna, Van Steenbergen, Mies J., Zhong, Zhiyuan, Oliveira, Sabrina, Hennink, Wim E., Van Nostrum, Cornelus F., Afd Pharmaceutics, and Afd Pharmaceutics

Subjects
Polymers and Plastics, Reducing agent, Sequence (biology), 02 engineering and technology, macromolecular substances, 010402 general chemistry, 01 natural sciences, Micelle, Article, Dithiolane, Inorganic Chemistry, chemistry.chemical_compound, Polymer chemistry, Copolymer, Materials Chemistry, chemistry.chemical_classification, Organic Chemistry, technology, industry, and agriculture, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Monomer, chemistry, 0210 nano-technology, Caprolactone
Abstract

Dithiolanes are used to obtain dynamic and reversible crosslinks between polymer chains. Copolymers of two different dithiolane-containing cyclic carbonate monomers and ϵ-caprolactone (CL) were synthesized by ring-opening polymerization using a methoxy-poly(ethylene glycol) (mPEG) initiator and different catalysts (diphenyl phosphate (DPP), methanesulfonic acid (MSA), 1,5,7-triazabicyclo[4.4.0]dec-5-ene (TBD), or Sn(Oct)2). Each catalyst required a different temperature, which had a pronounced influence on the reactivity ratio of the monomers and occurrence of transesterification reactions and, therefore, the monomer sequence. Self-crosslinkable copolymers were obtained when the dithiolane units were connected closely to the polymer backbone, whereas the presence of a linker unit between the dithiolane and the backbone prevented self-crosslinking. The former amphiphilic PEGylated block copolymers formed micelles by nanoprecipitation in the aqueous environment and crosslinked spontaneously by disulfide exchange during subsequent dialysis. These dithiolane-crosslinked micelles showed reduction-responsive dissociation in the presence of 10 mM glutathione, making them promising drug delivery systems for the intracellularly triggered cargo release.

Published
2020

22. Internalization and transport of PEGylated lipid-based mixed micelles across Caco-2 cells mediated by scavenger receptor B1

Author

Su, Xiangjie, Ramírez-Escudero, Mercedes, Sun, Feilong, van den Dikkenberg, Joep B., van Steenbergen, Mies J., Pieters, Roland J., Janssen, Bert J.C., van Hasselt, Peter M., Hennink, Wim E., van Nostrum, Cornelus F., Afd Pharmaceutics, Sub Crystal and Structural Chemistry, Afd Chemical Biology and Drug Discovery, Sub Structural Biochemistry, Pharmaceutics, Chemical Biology and Drug Discovery, Afd Pharmaceutics, Sub Crystal and Structural Chemistry, Afd Chemical Biology and Drug Discovery, Sub Structural Biochemistry, Pharmaceutics, and Chemical Biology and Drug Discovery

Subjects
Vitamin K, vitamin K, mixed micelles, PEGylation, scavenger receptor B1, epithelial transport, Chemistry, media_common.quotation_subject, Pharmaceutical Science, Endocytosis, Micelle, Article, RS1-441, Pharmacy and materia medica, Scavenger receptor B1, PEG ratio, Biophysics, Fluorescence microscope, Mixed micelles, Surface plasmon resonance, Scavenger receptor, Internalization, Epithelial transport, media_common
Abstract

The aim of this study was to get insight into the internalization and transport of PEGylat-ed mixed micelles loaded by vitamin K, as mediated by Scavenger Receptor B1 (SR-B1) that is abundantly expressed by intestinal epithelium cells as well as by differentiated Caco-2 cells. Inhibition of SR-B1 reduced endocytosis and transport of vitamin-K-loaded 0%, 30% and 50% PEGylated mixed micelles and decreased colocalization of the micelles with SR-B1. Confocal fluorescence microscopy, fluorescence-activated cell sorting (FACS) analysis, and surface plasmon resonance (SPR) were used to study the interaction between the mixed micelles of different compositions (varying vitamin K loading and PEG content) and SR-B1. Interaction of PEGylated micelles was independent of the vitamin K content, indicating that the PEG shell prevented vitamin K exposure at the surface of the micelles and binding with the receptor and that the PEG took over the micelles’ ability to bind to the receptor. Molecular docking calculations corroborated the dual binding of both vita-min K and PEG with the binding domain of SR-B1. In conclusion, the improved colloidal stability of PEGylated mixed micelles did not compromise their cellular uptake and transport due to the affinity of PEG for SR-B1. SR-B1 is able to interact with PEGylated nanoparticles and mediates their subsequent internalization and transport.

Published
2021

24. Lyophilization stabilizes clinical-stage core-crosslinked polymeric micelles to overcome cold chain supply challenges

Author

Claudio Colombo, Eva Miriam Buhl, Mies J. van Steenbergen, Cristianne J.F. Rijcken, Tarun Ojha, Ruchi Bansal, Hiltrud Königs-Werner, Yang Shi, Mahsa Bagheri, Jan Wit, Michiel van Geijn, Gert Storm, Wim E. Hennink, Twan Lammers, Qizhi Hu, Afd Pharmaceutics, Pharmaceutics, TechMed Centre, Medical Cell Biophysics, and Biomaterials Science and Technology

Subjects
0106 biological sciences, Sucrose, Cryoprotectant, Polymers, Kinetics, Dispersity, UT-Hybrid-D, lyophilization, 01 natural sciences, Applied Microbiology and Biotechnology, Article, chemistry.chemical_compound, Refrigeration, 010608 biotechnology, Humans, Micelles, polymeric micelles, Aqueous solution, Chemistry, tumor targeting, 010401 analytical chemistry, General Medicine, Trehalose, nanomedicine, 0104 chemical sciences, Freeze Drying, Chemical engineering, Drug delivery, drug delivery, Nanomedicine, Molecular Medicine, Critical quality attributes
Abstract

Background CriPec technology enables the generation of drug-entrapped biodegradable core-crosslinked polymeric micelles (CCPM) with high drug loading capacity, tailorable size, and drug release kinetics. Docetaxel (DTX)-entrapped CCPM, also referred to as CPC634, have demonstrated favorable pharmacokinetics, tolerability, and enhanced tumor uptake in patients. Clinical efficacy evaluation is ongoing. CPC634 is currently stored (shelf life > 5 years) and shipped as a frozen aqueous dispersion at temperatures below -60°C, in order to prevent premature release of DTX and hydrolysis of the core-crosslinks. Consequently, like other aqueous nanomedicine formulations, CPC634 relies on cold chain supply, which is unfavorable for commercialization. Lyophilization can help to bypass this issue. Methods and results Freeze-drying methodology for CCPM was developed by employing CPC634 as a model formulation, and sucrose and trehalose as cryoprotectants. We studied the residual moisture content and reconstitution behavior of the CPC634 freeze-dried cake, as well as the size, polydispersity index, morphology, drug retention, and release kinetics of reconstituted CPC634. Subsequently, the freeze-drying methodology was validated in an industrial setting, yielding a CPC634 freeze-dried cake with a moisture content of less than 0.1 wt%. It was found that trehalose-cryoprotected CPC634 could be rapidly reconstituted in less than 5 min at room temperature. Critical quality attributes such as size, morphology, drug retention, and release kinetics of trehalose-cryoprotected freeze-dried CPC634 upon reconstitution were identical to those of non-freeze-dried CPC634. Conclusion Our findings provide proof-of-concept for the lyophilization of drug-containing CCPM and our methodology is readily translatable to large-scale manufacturing for future commercialization.

Published
2021

25. Internalization and Transport of PEGylated Lipid-Based Mixed Micelles across Caco-2 Cells Mediated by Scavenger Receptor B1

Author

Su, Xiangjie, primary, Ramírez-Escudero, Mercedes, additional, Sun, Feilong, additional, van den Dikkenberg, Joep B., additional, van Steenbergen, Mies J., additional, Pieters, Roland J., additional, Janssen, Bert J. C., additional, van Hasselt, Peter M., additional, Hennink, Wim E., additional, and van Nostrum, Cornelus F., additional

Published
2021
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27. Post-loading of proangiogenic growth factors in PLGA microspheres

Author

Scheiner, Karina C, Maas-Bakker, Roel F, van Steenbergen, Mies J, Schwendeman, Steven P, Hennink, Wim E, Kok, Robbert J, Afd Pharmaceutics, Pharmaceutics, Afd Pharmaceutics, and Pharmaceutics

Subjects
medicine.medical_treatment, Drug Compounding, Therapeutic angiogenesis, Neovascularization, Physiologic, Pharmaceutical Science, Biocompatible Materials, 02 engineering and technology, Fibroblast growth factor, 030226 pharmacology & pharmacy, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Polylactic Acid-Polyglycolic Acid Copolymer, Somatomedins, medicine, Humans, Controlled release, Implants, Post-loading, Drug Carriers, Vascular Endothelial Growth Factors, Growth factor, Biomaterial, PLGA, General Medicine, 021001 nanoscience & nanotechnology, In vitro, Microspheres, Recombinant Proteins, Endothelial stem cell, Vascular endothelial growth factor, Fibroblast Growth Factors, Drug Liberation, chemistry, Delayed-Action Preparations, Biophysics, Angiogenesis Inducing Agents, 0210 nano-technology, Growth factors, Biotechnology
Abstract

Active self-encapsulation (ASE) is a recently developed post-loading method based on absorption of (positively charged) proteins in microporous PLGA microspheres loaded with negatively charged polysaccharides (trapping agents). The aim of this study was to investigate ASE for simultaneous loading and controlled release of multiple growth factors. For this purpose, vascular endothelial growth factor (VEGF), fibroblast growth factor (FGF) and insulin-like growth factor (IGF) were loaded in microspheres containing high molecular weight dextran sulfate (HDS) as trapping agent; loading was performed in a concentrated growth factor solution of low ionic strength and of pH 5 under conditions at which the proteins are positively charged. Subsequent pore closure was induced by incubation of the growth factor-loaded microspheres at 42.5 °C, i.e. above the Tg of (hydrated) PLGA (~30 °C). A 1:1:1 combination of VEGF, FGF and IGF was loaded with high loading (4.3%) and loading efficiency (91%). The in vitro release kinetics and bioactivity of loaded growth factors were studied for 4 weeks using ELISA and an endothelial cell proliferation assay, respectively. While IGF was released quickly, VEGF and FGF were continuously released for 4 weeks in their bioactive form, whereby a growth factor combination had a synergistic angiogenic effect. Therefore, ASE is a suitable method for co-loading growth factors which can provide sustained release profiles of bioactive growth factors, which is attractive for vascularization of biomaterial implants.

Published
2021

28. Lyophilization stabilizes clinical-stage core-crosslinked polymeric micelles to overcome cold chain supply challenges

Author

Ojha, Tarun, Hu, Qizhi, Colombo, Claudio, Wit, Jan, van Geijn, Michiel, van Steenbergen, Mies J, Bagheri, Mahsa, Königs-Werner, Hiltrud, Buhl, Eva Miriam, Bansal, Ruchi, Shi, Yang, Hennink, Wim E, Storm, Gert, Rijcken, Cristianne J F, Lammers, Twan, Ojha, Tarun, Hu, Qizhi, Colombo, Claudio, Wit, Jan, van Geijn, Michiel, van Steenbergen, Mies J, Bagheri, Mahsa, Königs-Werner, Hiltrud, Buhl, Eva Miriam, Bansal, Ruchi, Shi, Yang, Hennink, Wim E, Storm, Gert, Rijcken, Cristianne J F, and Lammers, Twan

Abstract

BACKGROUND: CriPec technology enables the generation of drug-entrapped biodegradable core-crosslinked polymeric micelles (CCPM) with high drug loading capacity, tailorable size, and drug release kinetics. Docetaxel (DTX)-entrapped CCPM, also referred to as CPC634, have demonstrated favorable pharmacokinetics, tolerability, and enhanced tumor uptake in patients. Clinical efficacy evaluation is ongoing. CPC634 is currently stored (shelf life > 5 years) and shipped as a frozen aqueous dispersion at temperatures below -60°C, in order to prevent premature release of DTX and hydrolysis of the core-crosslinks. Consequently, like other aqueous nanomedicine formulations, CPC634 relies on cold chain supply, which is unfavorable for commercialization. Lyophilization can help to bypass this issue.METHODS AND RESULTS: Freeze-drying methodology for CCPM was developed by employing CPC634 as a model formulation, and sucrose and trehalose as cryoprotectants. We studied the residual moisture content and reconstitution behavior of the CPC634 freeze-dried cake, as well as the size, polydispersity index, morphology, drug retention, and release kinetics of reconstituted CPC634. Subsequently, the freeze-drying methodology was validated in an industrial setting, yielding a CPC634 freeze-dried cake with a moisture content of less than 0.1 wt%. It was found that trehalose-cryoprotected CPC634 could be rapidly reconstituted in less than 5 min at room temperature. Critical quality attributes such as size, morphology, drug retention, and release kinetics of trehalose-cryoprotected freeze-dried CPC634 upon reconstitution were identical to those of non-freeze-dried CPC634.CONCLUSION: Our findings provide proof-of-concept for the lyophilization of drug-containing CCPM and our methodology is readily translatable to large-scale manufacturing for future commercialization.

Published
2021

29. Internalization and transport of PEGylated lipid-based mixed micelles across Caco-2 cells mediated by scavenger receptor B1

Author

Afd Pharmaceutics, Sub Crystal and Structural Chemistry, Afd Chemical Biology and Drug Discovery, Sub Structural Biochemistry, Pharmaceutics, Chemical Biology and Drug Discovery, Su, Xiangjie, Ramírez-Escudero, Mercedes, Sun, Feilong, van den Dikkenberg, Joep B., van Steenbergen, Mies J., Pieters, Roland J., Janssen, Bert J.C., van Hasselt, Peter M., Hennink, Wim E., van Nostrum, Cornelus F., Afd Pharmaceutics, Sub Crystal and Structural Chemistry, Afd Chemical Biology and Drug Discovery, Sub Structural Biochemistry, Pharmaceutics, Chemical Biology and Drug Discovery, Su, Xiangjie, Ramírez-Escudero, Mercedes, Sun, Feilong, van den Dikkenberg, Joep B., van Steenbergen, Mies J., Pieters, Roland J., Janssen, Bert J.C., van Hasselt, Peter M., Hennink, Wim E., and van Nostrum, Cornelus F.

Published
2021

30. Lyophilization stabilizes clinical-stage core-crosslinked polymeric micelles to overcome cold chain supply challenges

Author

Afd Pharmaceutics, Pharmaceutics, Ojha, Tarun, Hu, Qizhi, Colombo, Claudio, Wit, Jan, van Geijn, Michiel, van Steenbergen, Mies J, Bagheri, Mahsa, Königs-Werner, Hiltrud, Buhl, Eva Miriam, Bansal, Ruchi, Shi, Yang, Hennink, Wim E, Storm, Gert, Rijcken, Cristianne J F, Lammers, Twan, Afd Pharmaceutics, Pharmaceutics, Ojha, Tarun, Hu, Qizhi, Colombo, Claudio, Wit, Jan, van Geijn, Michiel, van Steenbergen, Mies J, Bagheri, Mahsa, Königs-Werner, Hiltrud, Buhl, Eva Miriam, Bansal, Ruchi, Shi, Yang, Hennink, Wim E, Storm, Gert, Rijcken, Cristianne J F, and Lammers, Twan

Published
2021

31. Post-loading of proangiogenic growth factors in PLGA microspheres

Author

Afd Pharmaceutics, Pharmaceutics, Scheiner, Karina C, Maas-Bakker, Roel F, van Steenbergen, Mies J, Schwendeman, Steven P, Hennink, Wim E, Kok, Robbert J, Afd Pharmaceutics, Pharmaceutics, Scheiner, Karina C, Maas-Bakker, Roel F, van Steenbergen, Mies J, Schwendeman, Steven P, Hennink, Wim E, and Kok, Robbert J

Published
2021

32. Internalization and transport of PEGylated lipid-based mixed micelles across Caco-2 cells mediated by scavenger receptor B1

Author

Metabole ziekten patientenzorg, Child Health, Infection & Immunity, Su, Xiangjie, Ramírez-Escudero, Mercedes, Sun, Feilong, van den Dikkenberg, Joep B., van Steenbergen, Mies J., Pieters, Roland J., Janssen, Bert J.C., van Hasselt, Peter M., Hennink, Wim E., van Nostrum, Cornelus F., Metabole ziekten patientenzorg, Child Health, Infection & Immunity, Su, Xiangjie, Ramírez-Escudero, Mercedes, Sun, Feilong, van den Dikkenberg, Joep B., van Steenbergen, Mies J., Pieters, Roland J., Janssen, Bert J.C., van Hasselt, Peter M., Hennink, Wim E., and van Nostrum, Cornelus F.

Published
2021

36. Folate decorated polymeric micelles for targeted delivery of the kinase inhibitor dactolisib to cancer cells

Author

Shi, Haili, van Steenbergen, Mies J., Lou, Bo, Liu, Yanna, Hennink, Wim E., Kok, Robbert J., Afd Pharmaceutics, Pharmaceutics, Afd Pharmaceutics, and Pharmaceutics

Subjects
Folate, Lung Neoplasms, Cell Survival, Drug Compounding, Acrylic Resins, Pharmaceutical Science, Antineoplastic Agents, 02 engineering and technology, macromolecular substances, Conjugated system, 030226 pharmacology & pharmacy, Micelle, Polyethylene Glycols, 03 medical and health sciences, chemistry.chemical_compound, Folic Acid, 0302 clinical medicine, Drug Stability, Amphiphile, Dactolisib, Humans, Signal transduction inhibitor, Micelles, Phosphoinositide-3 Kinase Inhibitors, Cancer, Drug Carriers, Targeted drug delivery, TOR Serine-Threonine Kinases, Imidazoles, technology, industry, and agriculture, 021001 nanoscience & nanotechnology, Combinatorial chemistry, Coordination chemistry, Drug Liberation, chemistry, A549 Cells, Folate receptor, Quinolines, Polymeric micelles, Nanocarriers, 0210 nano-technology, Ethylene glycol, Linker, Folic Acid Transporters, Signal Transduction
Abstract

One of the main challenges in clinical translation of polymeric micelles is retention of the drug in the nanocarrier system upon its systemic administration. Core crosslinking and coupling of the drug to the micellar backbone are common strategies to overcome these issues. In the present study, polymeric micelles were prepared for tumor cell targeting of the kinase inhibitor dactolisib which inhibits both the mammalian Target of Rapamycin (mTOR) kinase and phosphatidylinositol-3-kinase (PI3K). We employed platinum(II)-based linker chemistry to couple dactolisib to the core of poly(ethylene glycol)-b-poly(acrylic acid) (PEG-b-PAA) polymeric micelles. The formed dactolisib-PEG-PAA unimers are amphiphilic and self-assemble in an aqueous milieu into core–shell polymeric micelles. Folate was conjugated onto the surface of the micelles to yield folate-decorated polymeric micelles which can target folate receptor over-expressing tumor cells. Fluorescently labeled polymeric micelles were prepared using a lissamine-platinum complex linked in a similar manner as dactolisib. Dactolisib polymeric micelles showed good colloidal stability in water and released the coupled drug in buffers containing chloride or glutathione. Folate decorated micelles were avidly internalized by folate-receptor-positive KB cells and displayed targeted cellular cytotoxicity at 50–75 nM IC50. In conclusion, we have prepared a novel type of folate-receptor targeted polymeric micelles in which platinum(II) linker chemistry modulates drug retention and sustained release of the coupled inhibitor dactolisib.

Published
2020

37. Conversion of an Injectable MMP-Degradable Hydrogel into Core-Cross-Linked Micelles

Author

Najafi, Marzieh, Asadi, Hamed, Van Den Dikkenberg, Joep, Van Steenbergen, Mies J., Fens, Marcel H.A.M., Hennink, Wim E., Vermonden, Tina, Afd Pharmaceutics, and Pharmaceutics

Subjects
Biomaterials, Polymers and Plastics, Materials Chemistry, Bioengineering
Abstract

In this study, a new type of injectable hydrogel called "HyMic" that can convert into core cross-linked (CCL) micelles upon exposure to matrix metalloproteinases (MMP's), was designed and developed for drug delivery applications. HyMic is composed of CCL micelles connected via an enzyme cleavable linker. To this end, two complementary ABA block copolymers with polyethylene glycol (PEG) as B block were synthesized using atom transfer radical polymerization (ATRP). The A blocks were composed of a random copolymer of N-isopropylacrylamide (NIPAM) and either N-(2-hydroxypropyl)methacrylamide-cysteine (HPMA-Cys) or N-(2-hydroxypropyl) methacrylamide-ethylthioglycolate succinic acid (HPMA-ETSA). Mixing the aqueous solutions of the obtained polymers and rising the temperature above the cloud point of the PNIPAM block resulted in the self-assembly of these polymers into flower-like micelles composed of a hydrophilic PEG shell and hydrophobic core. The micellar core was cross-linked by native chemical ligation between the cysteine (in HPMA-Cys) and thioester (in HPMA-ETSA) functionalities. A slight excess of thioester to cysteine groups (molar ratio 3:2) was used to allow further chemical reactions exploiting the unreacted thioester groups. The obtained micelles displayed a Z-average diameter of 80 ± 1 nm (PDI 0.1), and ζ-potential of -4.2 ± 0.4 mV and were linked using two types of pentablock copolymers of P(NIPAM-co-HPMA-Cys)-PEG-peptide-PEG-P(NIPAM-co-HPMA-Cys) (Pep-NC) to yield hydrogels. The pentablock copolymers were synthesized using a PEG-peptide-PEG ATRP macroinitiator and the peptide midblock (lysine-glycine-proline-glutamine-isoleucine-phenylalanine-glycine-glutamine-lysine (Lys-Gly-Pro-Gln-Gly-Ile-Phe-Gly-Gln-Lys)) consisted of either l- or d-amino acids (l-Pep-NC or d-Pep-NC), of which the l-amino acid sequence is a substrate for matrix metalloproteases 2 and 9 (MMPs 2 and 9). Upon mixing of the CCL micelles and the linker (l/d-Pep-NC), the cysteine functionalities of the l/d-Pep-NC reacted with remaining thioester moieties in the micellar core via native chemical ligation yielding a hydrogel within 160 min as demonstrated by rheological measurements. As anticipated, the gel cross-linked with l-Pep-NC was degraded in 7-45 days upon exposure to metalloproteases in a concentration-dependent manner, while the gel cross-linked with the d-Pep-NC remained intact even after 2 months. Dynamic light scattering analysis of the release medium revealed the presence of nanoparticles with a Z-average diameter of ∼120 nm (PDI < 0.3) and ζ-potential of ∼-3 mV, indicating release of core cross-linked micelles upon HyMic exposure to metalloproteases. An in vitro study demonstrated that the released CCL micelles were taken up by HeLa cells. Therefore, HyMic as an injectable and enzyme degradable hydrogel displaying controlled and on-demand release of CCL micelles has potential for intracellular drug delivery in tissues with upregulation of MMPs, for example, in cancer tissues.

Published
2020

39. Phenylglyoxaldehyde-Functionalized Polymeric Sorbents for Urea Removal from Aqueous Solutions

Author

Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, van Nostrum, Cornelus F, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, and van Nostrum, Cornelus F

Abstract

For realization of a wearable artificial kidney based on regeneration of a small volume of dialysate, efficient urea removal from dialysate is a major challenge. Here a potentially suitable polymeric sorbent based on phenylglyoxaldehyde (PGA), able to covalently bind urea under physiological conditions, is described. Sorbent beads containing PGA groups were obtained by suspension polymerization of either styrene or vinylphenylethan-1-one (VPE), followed by modification of the aromatic groups of poly(styrene) and poly(VPE) into PGA. It was found that PGA-functionalized sorbent beads had maximum urea binding capacities of 1.4-2.2 mmol/g and removed ∼0.6 mmol urea/g in 8 h at 37 °C under static conditions from urea-enriched phosphate-buffered saline, conditions representative of dialysate regeneration. This means that the daily urea production of a dialysis patient can be removed with a few hundred grams of this sorbent which, is an important step forward in the development of a wearable artificial kidney.

Published
2020

41. Conversion of an Injectable MMP-Degradable Hydrogel into Core-Cross-Linked Micelles

Author

Afd Pharmaceutics, Pharmaceutics, Najafi, Marzieh, Asadi, Hamed, Van Den Dikkenberg, Joep, Van Steenbergen, Mies J., Fens, Marcel H.A.M., Hennink, Wim E., Vermonden, Tina, Afd Pharmaceutics, Pharmaceutics, Najafi, Marzieh, Asadi, Hamed, Van Den Dikkenberg, Joep, Van Steenbergen, Mies J., Fens, Marcel H.A.M., Hennink, Wim E., and Vermonden, Tina

Published
2020

42. Phenylglyoxaldehyde-Functionalized Polymeric Sorbents for Urea Removal from Aqueous Solutions

Author

Afd Pharmaceutics, Sub Organic Chemistry and Catalysis, Sub NMR Spectroscopy, Sub Inorganic Chemistry and Catalysis, Sub General Pharmaceutics, Pharmaceutics, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, van Nostrum, Cornelus F, Afd Pharmaceutics, Sub Organic Chemistry and Catalysis, Sub NMR Spectroscopy, Sub Inorganic Chemistry and Catalysis, Sub General Pharmaceutics, Pharmaceutics, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, and van Nostrum, Cornelus F

Published
2020

43. Biotin-decorated all-HPMA polymeric micelles for paclitaxel delivery

Author

Afd Pharmaceutics, Pharmaceutics, Wang, Yan, van Steenbergen, Mies J, Beztsinna, Nataliia, Shi, Yang, Lammers, Twan, van Nostrum, Cornelus F, Hennink, Wim E, Afd Pharmaceutics, Pharmaceutics, Wang, Yan, van Steenbergen, Mies J, Beztsinna, Nataliia, Shi, Yang, Lammers, Twan, van Nostrum, Cornelus F, and Hennink, Wim E

Published
2020

44. Phenylglyoxaldehyde-Functionalized Polymeric Sorbents for Urea Removal from Aqueous Solutions

Author

Pharmaceutics, Afd Pharmaceutics, Sub Organic Chemistry and Catalysis, Sub NMR Spectroscopy, Sub Inorganic Chemistry and Catalysis, Sub General Pharmaceutics, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, van Nostrum, Cornelus F, Pharmaceutics, Afd Pharmaceutics, Sub Organic Chemistry and Catalysis, Sub NMR Spectroscopy, Sub Inorganic Chemistry and Catalysis, Sub General Pharmaceutics, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, and van Nostrum, Cornelus F

Published
2020

45. Phenylglyoxaldehyde-Functionalized Polymeric Sorbents for Urea Removal from Aqueous Solutions

Author

Nefro Vasculaire Geneeskunde, Circulatory Health, Regenerative Medicine and Stem Cells, MS Nefrologie, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, van Nostrum, Cornelus F, Nefro Vasculaire Geneeskunde, Circulatory Health, Regenerative Medicine and Stem Cells, MS Nefrologie, Jong, Jacobus A W, Guo, Yong, Veenhoven, Cas, Moret, Marc-Etienne, van der Zwan, Johan, Lucini Paioni, Alessandra, Baldus, Marc, Scheiner, Karina C, Dalebout, Remco, van Steenbergen, Mies J, Verhaar, Marianne C, Smakman, Robert, Hennink, Wim E, Gerritsen, Karin G F, and van Nostrum, Cornelus F

Published
2020

48. Lyophilization stabilizes clinical‐stage core‐crosslinked polymeric micelles to overcome cold chain supply challenges

Author

Ojha, Tarun, primary, Hu, Qizhi, additional, Colombo, Claudio, additional, Wit, Jan, additional, Geijn, Michiel, additional, Steenbergen, Mies J., additional, Bagheri, Mahsa, additional, Königs‐Werner, Hiltrud, additional, Buhl, Eva Miriam, additional, Bansal, Ruchi, additional, Shi, Yang, additional, Hennink, Wim E., additional, Storm, Gert, additional, Rijcken, Cristianne J. F., additional, and Lammers, Twan, additional

Published
2021
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49. Linear rheology of water-soluble reversible neodymium(III) coordination polymers

Author

Vermonden, Tina, Steenbergen, Mies J. van, Besseling, Nicolas A.M., Hennink, Wim E., Sudholter, Ernst J. R., Stuart, Martien A. Cohen, and Marcelis, Antonius T.M.

Subjects
Polymers -- Chemical properties, Neodymium -- Chemical properties, Chemistry
Abstract

A study is conducted on the rheology of reversible coordination polymer networks in aqueous solution. It is concluded that the system mainly has linear chains by the formation of alternatively rings and connecting ligands.

Published
2004

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