Jasper van Weerd scite author profile

The polymer polydimethylsiloxane (PDMS) is widely used to build microfluidic devices compatible with cell culture. Whilst convenient in manufacture, PDMS has the disadvantage that it can absorb small molecules such as drugs. In microfluidic devices like “Organs-on-Chip”, designed to examine cell behavior and test the effects of drugs, this might impact drug bioavailability. Here we developed an assay to compare the absorption of a test set of four cardiac drugs by PDMS based on measuring the residual non-absorbed compound by High Pressure Liquid Chromatography (HPLC). We showed that absorption was variable and time dependent and not determined exclusively by hydrophobicity as claimed previously. We demonstrated that two commercially available lipophilic coatings and the presence of cells affected absorption. The use of lipophilic coatings may be useful in preventing small molecule absorption by PDMS.

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About supramolecular systems for dynamically probing cells

Brinkmann

Cavatorta

Sankaran

et al. 2014

Chem. Soc. Rev.

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This article reviews the state of the art in the development of strategies for generating supramolecular systems for dynamic cell studies. Dynamic systems are crucial to further our understanding of cell biology and are consequently at the heart of many medical applications. Increasing interest has therefore been focused recently on rendering systems bioactive and dynamic that can subsequently be employed to engage with cells. Different approaches using supramolecular chemistry are reviewed with particular emphasis on their application in cell studies. We conclude with an outlook on future challenges for dynamic cell research and applications.

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Supported Lipid Bilayers for the Generation of Dynamic Cell–Material Interfaces

Weerd

Karperien

Jonkheijm

2015

Adv Healthcare Materials

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Supported lipid bilayers (SLB) offer unique possibilities for studying cellular membranes and have been used as a synthetic architecture to interact with cells. Here, the state-of-the-art in SLB-based technology is presented. The fabrication, analysis, characteristics and modification of SLBs are described in great detail. Numerous strategies to form SLBs on different substrates, and the means to patteren them, are described. The use of SLBs as model membranes for the study of membrane organization and membrane processes in vitro is highlighted. In addition, the use of SLBs as a substratum for cell analysis is presented, with discrimination between cell-cell and cell-extracellular matrix (ECM) mimicry. The study is concluded with a discussion of the potential for in vivo applications of SLBs.

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A Supramolecular Host–Guest Carrier System for Growth Factors Employing V_HH Fragments

Cabanas‐Danés

Rodrigues²,

Landman³

et al. 2014

J. Am. Chem. Soc.

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A supramolecular strategy is presented for the assembly of growth factors employing His6-tagged single-domain antibodies (VHH). A combination of orthogonal supramolecular interactions of β-cyclodextrin (βCD)-adamantyl (Ad) host-guest and N-nitrilotriacetic acid (NTA)-histidine (His) interactions was employed to generate reversible and homogeneous layers of growth factors. A single-domain antibody V(H)H fragment was identified to bind to the human bone morphogenetic protein-6 (hBMP6) growth factor and could be recombinantly expressed in E. coli. The V(H)H fragment was equipped with a C-terminal hexahistidine (His6) tether to facilitate the assembly on βCD surfaces using a linker that contains an Ad group to bind to the βCD receptors and an NTA moiety to interact with the His6-tag upon cocomplexation of Ni(2+) ions. After exploring the thermodynamic and kinetic stability of the V(H)H assemblies on βCD surfaces using a variety of experimental techniques including microcontact printing (μCP), surface plasmon resonance (SPR), microscale thermophoresis (MST), and theoretical models for determining the thermodynamic behavior of the system, hBMP6 was assembled onto the V(H)H-functionalized surfaces. After analyzing the immobilized hBMP6 using immunostaining, the biological activity of hBMP6 was demonstrated in cell differentiation experiments. Early osteogenic differentiation was analyzed in terms of alkaline phosphatase (ALP) activity of KS483-4C3 mouse progenitor cells, and the results indicated that the reversibly immobilized growth factors were functionally delivered to the cells. In conclusion, the supramolecular strategy used here offers the necessary affinity, reversibility, and temporal control to promote biological function of the growth factors that were delivered by this strategy.

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On-Chip Electrophoresis in Supported Lipid Bilayer Membranes Achieved Using Low Potentials

Weerd

Krabbenborg

Eijkel³

et al. 2013

J. Am. Chem. Soc.

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A micro supported lipid bilayer (SLB) electrophoresis method was developed, which functions at low potentials and appreciable operating times. To this end, (hydroxymethyl)-ferrocene (FcCH2OH) was employed to provide an electrochemical reaction at the anode and cathode at low applied potential to avoid electrolysis of water. The addition of FcCH2OH did not alter the SLB characteristics or affect biomolecule function, and pH and temperature variations and bubble formation were eliminated. Applying potentials of 0.25–1.2 V during flow gave homogeneous electrical fields and a fast, reversible, and strong build-up of a charged dye-modified lipid in the direction of the oppositely charged electrode. Moreover, streptavidin mobility could be modulated. This method paves the way for further development of analytical devices.

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Jasper van Weerd

Small molecule absorption by PDMS in the context of drug response bioassays

About supramolecular systems for dynamically probing cells

Supported Lipid Bilayers for the Generation of Dynamic Cell–Material Interfaces

A Supramolecular Host–Guest Carrier System for Growth Factors Employing V_HH Fragments

On-Chip Electrophoresis in Supported Lipid Bilayer Membranes Achieved Using Low Potentials

Contact Info

Product

Resources

About

Jasper van Weerd

Small molecule absorption by PDMS in the context of drug response bioassays

About supramolecular systems for dynamically probing cells

Supported Lipid Bilayers for the Generation of Dynamic Cell–Material Interfaces

A Supramolecular Host–Guest Carrier System for Growth Factors Employing VHH Fragments

On-Chip Electrophoresis in Supported Lipid Bilayer Membranes Achieved Using Low Potentials

Contact Info

Product

Resources

About

A Supramolecular Host–Guest Carrier System for Growth Factors Employing V_HH Fragments