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36 results on '"Bakker, Maarten H."'

1. The effect of charge and albumin on cellular uptake of supramolecular polymer nanostructures

Author

Song, Jiankang, Fransen, Peter Paul K.H., Bakker, Maarten H., Wijnands, Sjors P.W., Huang, Jingyi, Guo, Shuaiqi, Dankers, Patricia Y.W., Song, Jiankang, Fransen, Peter Paul K.H., Bakker, Maarten H., Wijnands, Sjors P.W., Huang, Jingyi, Guo, Shuaiqi, and Dankers, Patricia Y.W.

Abstract

Intracellular delivery of functional biomolecules by using supramolecular polymer nanostructures has gained significant interest. Here, various charged supramolecular ureido-pyrimidinone (UPy)-aggregates were designed and formulated via a simple “mix-and-match” method. The cellular internalization of these UPy-aggregates in the presence or absence of serum proteins by phagocytic and non-phagocytic cells, i.e., THP-1 derived macrophages and immortalized human kidney cells (HK-2 cells), was systematically investigated. In the presence of serum proteins the UPy-aggregates were taken up by both types of cells irrespective of the charge properties of the UPy-aggregates, and the UPy-aggregates co-localized with mitochondria of the cells. In the absence of serum proteins only cationic UPy-aggregates could be effectively internalized by THP-1 derived macrophages, and the internalized UPy-aggregates either co-localized with mitochondria or displayed as vesicular structures. While the cationic UPy-aggregates were hardly internalized by HK-2 cells and could only bind to the membrane of HK-2 cells. With adding and increasing the amount of serum albumin in the cell culture medium, the cationic UPy-aggregates were gradually taken up by HK-2 cells without anchoring on the cell membranes. It is proposed that the serum albumin regulates the cellular internalization of UPy-aggregates. These results provide fundamental insights for the fabrication of supramolecular polymer nanostructures for intracellular delivery of therapeutics.

Published
2024

2. Hydrogel-Based Delivery of antimiR-195 Improves Cardiac Efficacy after Ischemic Injury

Author

Onderzoek Molecular Cardiology, Regenerative Medicine and Stem Cells, Circulatory Health, Eding, Joep E.C., Vigil-Garcia, Marta, Vink, Marit, Demkes, Charlotte J., Versteeg, Danielle, Kooijman, Lieneke, Bakker, Maarten H., Schotman, Maaike J.G., Dankers, Patricia Y.W., van Rooij, Eva, Onderzoek Molecular Cardiology, Regenerative Medicine and Stem Cells, Circulatory Health, Eding, Joep E.C., Vigil-Garcia, Marta, Vink, Marit, Demkes, Charlotte J., Versteeg, Danielle, Kooijman, Lieneke, Bakker, Maarten H., Schotman, Maaike J.G., Dankers, Patricia Y.W., and van Rooij, Eva

Published
2024

3. Hydrogel-Based Delivery of antimiR-195 Improves Cardiac Efficacy after Ischemic Injury

Author

Eding, Joep E.C., Vigil-Garcia, Marta, Vink, Marit, Demkes, Charlotte J., Versteeg, Danielle, Kooijman, Lieneke, Bakker, Maarten H., Schotman, Maaike J.G., Dankers, Patricia Y.W., van Rooij, Eva, Eding, Joep E.C., Vigil-Garcia, Marta, Vink, Marit, Demkes, Charlotte J., Versteeg, Danielle, Kooijman, Lieneke, Bakker, Maarten H., Schotman, Maaike J.G., Dankers, Patricia Y.W., and van Rooij, Eva

Abstract

MicroRNAs (miRs) are potent regulators of biology and disease. The miR-15 family is shown to regulate cardiomyocyte proliferation and antimiR-based inhibition induces a cardioprotective effect after myocardial infarction in mice. However, systemic delivery of antimiRs leads to accumulation in kidneys and liver, with relatively poor cardiac exposure. Injectable hydrogels are proposed to serve as sustained-release drug delivery depots and can potentially be used to improve cardiac efficacy of antimiR therapeutics. Here, the effect of a hydrogel-formulated antimiR-195 after myocardial infarction in mice is studied. For this, an injectable, pH-switchable supramolecular hydrogel based on poly(ethylene glycol) (PEG) functionalized with hydrogen bonding ureido-pyrimidinone (UPy) units is used. Intracardiac injections under baseline conditions of this UPy–PEG hydrogelator induce a transient inflammatory response that is no longer present 7 days postinjection. In vitro experiments show that antimiR-195 is released from the gel, and induces microRNA inhibition leading to downstream cardiomyocyte proliferation. In vivo, intramyocardial delivery of antimiR-195 in UPy–PEG enhances cardiac target derepression compared to phosphate-buffered-saline-dissolved antimiR-195, despite a low cardiac retention. After ischemic injury, this translates into a greater therapeutic effect by increasing both target derepression and cardiomyocyte proliferation. Intramyocardial injection of UPy–PEG-formulated antimiR-195 is sufficient to improve cardiac efficacy of antimiR-195.

Published
2024

8. The in-vitro biocompatibility of ureido-pyrimidinone compounds and polymer degradation products

Author

Besseling, Paul J., Mes, Tristan, Bosman, Anton W., Peeters, Joris W., Janssen, Henk M., Bakker, Maarten H., Fledderus, Joost O., Teraa, Martin, Verhaar, Marianne C., Gremmels, Hendrik, Dankers, Patricia Y.W., Besseling, Paul J., Mes, Tristan, Bosman, Anton W., Peeters, Joris W., Janssen, Henk M., Bakker, Maarten H., Fledderus, Joost O., Teraa, Martin, Verhaar, Marianne C., Gremmels, Hendrik, and Dankers, Patricia Y.W.

Abstract

Supramolecular biomaterials based on ureido-pyrimidinone (UPy) moieties are versatile polymer materials as their function can be tailored to the application. These UPy-materials can be designed into polymer coatings, self-healing polymers, hydrogels and elastomers. The biocompatibility of UPy-based materials and their degradation products is a long-term success requirement for many regenerative medicine and biomedical applications. Earlier research has shown that UPy-based materials and polymers display no immediate toxic effects, but in-depth in-vitro studies on potential UPy-polymer degradation products have not been executed. Owing to their resemblance to naturally occurring purines and pyrimidines, UPy-compounds and their degradation products could potentially initiate an immune response or be mutagenic. Accordingly, 11 selected UPy-compounds were synthesized, and their effect on cell viability, wound healing, and their immunogenicity and potential mutagenic potential, were studied. We showed that low molecular weight degradation products of UPy-based biomaterials do not affect cell viability, nor do these interfere with several aspects of endothelial function including proliferation, angiogenic sprouting and cellular migration even in levels exceeding plausibly attainable concentrations. Furthermore, the compounds are neither immunogenic nor mutagenic, showing that UPy-biomaterials exhibit good biocompatibility in vitro, and could in principle be used in humans.

Published
2021

9. The in-vitro biocompatibility of ureido-pyrimidinone compounds and polymer degradation products

Author

Nefro Vasculaire Geneeskunde, MS Nefrologie, Regenerative Medicine and Stem Cells, Zorgeenheid Vaatchirurgie Medisch, Circulatory Health, MMB opleiding Arts microbioloog, Infection & Immunity, Besseling, Paul J., Mes, Tristan, Bosman, Anton W., Peeters, Joris W., Janssen, Henk M., Bakker, Maarten H., Fledderus, Joost O., Teraa, Martin, Verhaar, Marianne C., Gremmels, Hendrik, Dankers, Patricia Y.W., Nefro Vasculaire Geneeskunde, MS Nefrologie, Regenerative Medicine and Stem Cells, Zorgeenheid Vaatchirurgie Medisch, Circulatory Health, MMB opleiding Arts microbioloog, Infection & Immunity, Besseling, Paul J., Mes, Tristan, Bosman, Anton W., Peeters, Joris W., Janssen, Henk M., Bakker, Maarten H., Fledderus, Joost O., Teraa, Martin, Verhaar, Marianne C., Gremmels, Hendrik, and Dankers, Patricia Y.W.

Published
2021

12. Active tracked intramyocardial catheter injections for regenerative therapy with real-time MR guidance : feasibility in the porcine heart

Author

Tseng, Cheyenne C S, Wenker, Steven, Bakker, Maarten H, Kraaijeveld, Adriaan O, Dankers, Patricia Y W, Seevinck, Peter R, Smink, Jouke, Kimmel, Scott, van Slochteren, Frebus J, Chamuleau, Steven A J, Tseng, Cheyenne C S, Wenker, Steven, Bakker, Maarten H, Kraaijeveld, Adriaan O, Dankers, Patricia Y W, Seevinck, Peter R, Smink, Jouke, Kimmel, Scott, van Slochteren, Frebus J, and Chamuleau, Steven A J

Published
2019

13. Injectable supramolecular Ureidopyrimidinone hydrogels provide sustained release of extracellular vesicle therapeutics

Author

Mol, Emma A., Lei, Zhiyong, Roefs, Marieke T., Bakker, Maarten H., Goumans, Marie José, Doevendans, Pieter A., Dankers, Patricia Y.W., Vader, Pieter, Sluijter, Joost P.G., Mol, Emma A., Lei, Zhiyong, Roefs, Marieke T., Bakker, Maarten H., Goumans, Marie José, Doevendans, Pieter A., Dankers, Patricia Y.W., Vader, Pieter, and Sluijter, Joost P.G.

Abstract

Extracellular vesicles (EVs) are small vesicles secreted by cells and have gained increasing interest as both drug delivery vehicles or as cell-free therapeutics for regenerative medicine. To achieve optimal therapeutic effects, strategies are being developed to prolong EV exposure to target organs. One promising approach to achieve this is through EV-loaded injectable hydrogels. In this study, the use of a hydrogel based on ureido-pyrimidinone (UPy) units coupled to poly(ethylene glycol) chains (UPy-hydrogel) is examined as potential delivery platform for EVs. The UPy-hydrogel undergoes a solution-to-gel transition upon switching from a high to neutral pH, allowing immediate gelation upon administration into physiological systems. Here, sustained EV release from the UPy-hydrogel measured over a period of 4 d is shown. Importantly, EVs retain their functional capacity after release. Upon local administration of fluorescently labeled EVs incorporated in a UPy-hydrogel in vivo, EVs are still detected in the UPy-hydrogel after 3 d, whereas in the absence of a hydrogel, EVs are internalized by fat and skin tissue near the injection site. Together, these data demonstrate that UPy-hydrogels provide sustained EV release over time and enhance local EV retention in vivo, which could contribute to improved therapeutic efficacy upon local delivery and translation toward new applications.

Published
2019

14. Active tracked intramyocardial catheter injections for regenerative therapy with real-time MR guidance: feasibility in the porcine heart

Author

Onderzoek Algemene Cardiologie, Team Medisch, Beeldverwerking ISI, Cancer, Circulatory Health, Cardiologie, Regenerative Medicine and Stem Cells, Tseng, Cheyenne C S, Wenker, Steven, Bakker, Maarten H, Kraaijeveld, Adriaan O, Dankers, Patricia Y W, Seevinck, Peter R, Smink, Jouke, Kimmel, Scott, van Slochteren, Frebus J, Chamuleau, Steven A J, Onderzoek Algemene Cardiologie, Team Medisch, Beeldverwerking ISI, Cancer, Circulatory Health, Cardiologie, Regenerative Medicine and Stem Cells, Tseng, Cheyenne C S, Wenker, Steven, Bakker, Maarten H, Kraaijeveld, Adriaan O, Dankers, Patricia Y W, Seevinck, Peter R, Smink, Jouke, Kimmel, Scott, van Slochteren, Frebus J, and Chamuleau, Steven A J

Published
2019

15. Injectable Supramolecular Ureidopyrimidinone Hydrogels Provide Sustained Release of Extracellular Vesicle Therapeutics

Author

Onderzoek Cardiovasculair Reg. Med., Circulatory Health, CDL Nanomedicine, Experimentele Afd. Cardiologie 2, Team Medisch, Regenerative Medicine and Stem Cells, Mol, Emma A, Lei, Zhiyong, Roefs, Marieke T, Bakker, Maarten H, Goumans, Marie-José, Doevendans, Pieter A, Dankers, Patricia Y W, Vader, Pieter, Sluijter, Joost P G, Onderzoek Cardiovasculair Reg. Med., Circulatory Health, CDL Nanomedicine, Experimentele Afd. Cardiologie 2, Team Medisch, Regenerative Medicine and Stem Cells, Mol, Emma A, Lei, Zhiyong, Roefs, Marieke T, Bakker, Maarten H, Goumans, Marie-José, Doevendans, Pieter A, Dankers, Patricia Y W, Vader, Pieter, and Sluijter, Joost P G

Published
2019

18. Active tracked intramyocardial catheter injections for regenerative therapy with real-time MR guidance: feasibility in the porcine heart

Author

Tseng, Cheyenne C.S., primary, Wenker, Steven, additional, Bakker, Maarten H., additional, Kraaijeveld, Adriaan O., additional, Dankers, Patricia Y.W., additional, Seevinck, Peter R., additional, Smink, Jouke, additional, Kimmel, Scott, additional, van Slochteren, Frebus J., additional, and Chamuleau, Steven A.J., additional

Published
2019
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21. Cholesterol modification of an anticancer drug for efficient incorporation into a supramolecular hydrogel system

Author

Bakker, Maarten H., Grillaud, Maxime, Wu, Dan Jing, Fransen, Peter Paul K.H., de Hingh, Ignace H., Dankers, Patricia Y.W., Bakker, Maarten H., Grillaud, Maxime, Wu, Dan Jing, Fransen, Peter Paul K.H., de Hingh, Ignace H., and Dankers, Patricia Y.W.

Abstract

Treatment of cancer in the peritoneal cavity may be improved with macroscale drug delivery systems that offer control over intraperitoneal concentration of chemotherapeutic agents. Currently, suitable drug carriers to facilitate a sustained release of small hydrophilic drugs such as mitomycin C are lacking. For this purpose, a pH-responsive supramolecular hydrogel based on ureido-pyrimidinone (UPy) chemistry is utilized here. In order to provide a sustained release profile, a lipophilicity-increasing cholesterol conjugation strategy is proposed that enhances affinity between the modified drug (mitomycin-PEG24-cholesterol, MPC) and the hydrophobic compartments in the UPy gel. Additional advantages of cholesterol conjugation include improved chemical stability and potency of mitomycin C. In vitro the tunability of the system to obtain optimal effective concentrations over time is demonstrated with a combinatorial treatment of mitomycin C and MPC in one UPy hydrogel delivery system.

Published
2018

22. Controlled Release of RNAi Molecules by Tunable Supramolecular Hydrogel Carriers

Author

Bakker, Maarten H, van Rooij, Eva, Dankers, Patricia Y W, Bakker, Maarten H, van Rooij, Eva, and Dankers, Patricia Y W

Abstract

Local, sustained release and presentation of RNAi therapeutics can be achieved with hydrogel delivery systems. Here we show the development of a supramolecular hydrogel into a local RNAi delivery system. By careful material design, two simple but effective strategies are introduced to obtain controlled release of two classes of RNAi therapeutics, that is, microRNA and antimiR. It was shown that the release of microRNA could be regulated using cholesterol-modification for interaction with the supramolecular hydrogel. Non-modified antimiR release could be controlled via supramolecular introduction of positively charged additive molecules into the supramolecular hydrogel. In this way, either the cholesterol-modification on the drug or the charge introduction into the hydrogel provides handles for controlled RNAi therapy.

Published
2018

23. Controlled Release of RNAi Molecules by Tunable Supramolecular Hydrogel Carriers

Author

Onderzoek Molecular Cardiology, Regenerative Medicine and Stem Cells, Circulatory Health, Bakker, Maarten H., van Rooij, Eva, Dankers, Patricia Y.W., Onderzoek Molecular Cardiology, Regenerative Medicine and Stem Cells, Circulatory Health, Bakker, Maarten H., van Rooij, Eva, and Dankers, Patricia Y.W.

Published
2018

24. MRI Visualization of Injectable Ureidopyrimidinone Hydrogelators by Supramolecular Contrast Agent Labeling

Author

Onderzoek Algemene Cardiologie, Beeldverwerking ISI, Cancer, Circulatory Health, Cardiologie, Team Medisch, Regenerative Medicine and Stem Cells, Bakker, Maarten H., Tseng, Cheyenne C.S., Keizer, Henk M., Seevinck, Peter R., Janssen, Henk M., Van Slochteren, Frebus J., Chamuleau, Steven A.J., Dankers, Patricia Y.W., Onderzoek Algemene Cardiologie, Beeldverwerking ISI, Cancer, Circulatory Health, Cardiologie, Team Medisch, Regenerative Medicine and Stem Cells, Bakker, Maarten H., Tseng, Cheyenne C.S., Keizer, Henk M., Seevinck, Peter R., Janssen, Henk M., Van Slochteren, Frebus J., Chamuleau, Steven A.J., and Dankers, Patricia Y.W.

Published
2018

31. An injectable and drug-loaded supramolecular hydrogel for local catheter injection into the pig heart

Author

Cardiologie, Circulatory Health, Aios en Stafsecr. Cardiologie, Cardiologie Arts-onderzoekers, Pape, A. C H, Bakker, Maarten H., Tseng, Cheyenne C S, Bastings, Maartje M C, Koudstaal, Stefan, Agostoni, Pierfrancesco, Chamuleau, Steven A J, Dankers, Patricia Y W, Cardiologie, Circulatory Health, Aios en Stafsecr. Cardiologie, Cardiologie Arts-onderzoekers, Pape, A. C H, Bakker, Maarten H., Tseng, Cheyenne C S, Bastings, Maartje M C, Koudstaal, Stefan, Agostoni, Pierfrancesco, Chamuleau, Steven A J, and Dankers, Patricia Y W

Published
2015

32. List of Contributors

Author

Acosta, Sergio, Albertazzi, Lorenzo, Anderson, Caleb F., Appel, Eric A., Arslan, Elif, Avolio, Lindsay, Azevedo, Helena S., Bakker, Maarten H., Benvegnu, Thierry, Bhuiyan, Zubair H., Bitton, Ronit, Boekhoven, Job, Brito, Alexandra, Collis, Dominic W.P., Conda-Sheridan, Martin, Cui, Honggang, Dankers, Patricia Y.W., de Torre, Israel González, El Yaagoubi, Marwa, Feiner-Gracia, Natalia, Freeman, Ronit, Gelain, Fabrizio, Grötsch, Raphael K., Guler, Mustafa O., Herrero, Marcos, Jeftić, Jelena, João Conde, Lau, K. H. Aaron, Li, Jie, Lindemann, William R., Löwik, Dennis W.P.M., Mann, Joseph L., Marchini, Amanda, Mata, Alvaro, Smal, Noor, Ochbaum, Guy, Okesola, Babatunde O., O'Malley, Clare, Orsi, Mario, Ortony, Julia H., Ozkan, Alper D., Palmans, Anja R.A., Pashkuleva, Iva, Philipp Seib, F., Pires, Ricardo A., Pugliese, Raffaele, Pujals, Sílvia, Redondo-Gómez, Carlos, Reis, Rui L., Rodríguez-Cabello, Jose C., Salinas, Soraya, Saracino, Gloria A., Sever, Melike, Shuturminska, Kseniya, Sipes, Darren, Stapleton, Lyndsay M., Stephanopoulos, Nicholas, Stupp, Samuel I., Sur, Shantanu, Tansik, Gulistan, Tekinay, Ayse B., Tewari, Kunal M., Thomas Pashuck, E., Xu, Bing, Yergoz, Fatih, and Yu, Anthony C.

Published
2018
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35. The effect of charge and albumin on cellular uptake of supramolecular polymer nanostructures.

Author

Song J, Fransen PKH, Bakker MH, Wijnands SPW, Huang J, Guo S, and Dankers PYW

Subjects
Humans, Pyrimidinones chemistry, Pyrimidinones pharmacology, Macrophages metabolism, Cell Line, Particle Size, THP-1 Cells, Serum Albumin chemistry, Serum Albumin metabolism, Nanostructures chemistry, Polymers chemistry
Abstract

Intracellular delivery of functional biomolecules by using supramolecular polymer nanostructures has gained significant interest. Here, various charged supramolecular ureido-pyrimidinone (UPy)-aggregates were designed and formulated via a simple "mix-and-match" method. The cellular internalization of these UPy-aggregates in the presence or absence of serum proteins by phagocytic and non-phagocytic cells, i.e. , THP-1 derived macrophages and immortalized human kidney cells (HK-2 cells), was systematically investigated. In the presence of serum proteins the UPy-aggregates were taken up by both types of cells irrespective of the charge properties of the UPy-aggregates, and the UPy-aggregates co-localized with mitochondria of the cells. In the absence of serum proteins only cationic UPy-aggregates could be effectively internalized by THP-1 derived macrophages, and the internalized UPy-aggregates either co-localized with mitochondria or displayed as vesicular structures. While the cationic UPy-aggregates were hardly internalized by HK-2 cells and could only bind to the membrane of HK-2 cells. With adding and increasing the amount of serum albumin in the cell culture medium, the cationic UPy-aggregates were gradually taken up by HK-2 cells without anchoring on the cell membranes. It is proposed that the serum albumin regulates the cellular internalization of UPy-aggregates. These results provide fundamental insights for the fabrication of supramolecular polymer nanostructures for intracellular delivery of therapeutics.

Published
2024
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36. Controlled Release of RNAi Molecules by Tunable Supramolecular Hydrogel Carriers.

Author

Bakker MH, van Rooij E, and Dankers PYW

Subjects
Antagomirs metabolism, Cholesterol chemistry, Drug Liberation, Fluorescence Recovery After Photobleaching, HEK293 Cells, Humans, Hydrogen-Ion Concentration, Polyethylene Glycols chemistry, RNA Interference, RNA, Small Interfering metabolism, Rheology, Viscosity, Antagomirs chemistry, Drug Carriers chemistry, Hydrogels chemistry, RNA, Small Interfering chemistry
Abstract

Local, sustained release and presentation of RNAi therapeutics can be achieved with hydrogel delivery systems. Here we show the development of a supramolecular hydrogel into a local RNAi delivery system. By careful material design, two simple but effective strategies are introduced to obtain controlled release of two classes of RNAi therapeutics, that is, microRNA and antimiR. It was shown that the release of microRNA could be regulated using cholesterol-modification for interaction with the supramolecular hydrogel. Non-modified antimiR release could be controlled via supramolecular introduction of positively charged additive molecules into the supramolecular hydrogel. In this way, either the cholesterol-modification on the drug or the charge introduction into the hydrogel provides handles for controlled RNAi therapy., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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