Your search keyword '"Trilling, Anke K."' showing total 7 results

1. Orientation of llama antibodies strongly increases sensitivity of biosensors.

Author

Trilling, Anke K., Hesselink, Thamara, Houwelingen, Adèle van, Cordewener, Jan H.G., Jongsma, Maarten A., Schoffelen, Sanne, Hest, Jan C.M. van, Zuilhof, Han, and Beekwilder, Jules

Subjects

*DIAGNOSIS of foot & mouth disease, *LLAMAS, *IMMUNOGLOBULINS, *BIOSENSORS, *SURFACE plasmon resonance

Abstract

Abstract: Sensitivity of biosensors depends on the orientation of bio-receptors on the sensor surface. The objective of this study was to organize bio-receptors on surfaces in a way that their analyte binding site is exposed to the analyte solution. VHH proteins recognizing foot-and-mouth disease virus (FMDV) were used for making biosensors, and azides were introduced in the VHH to function as bioorthogonal reactive groups. The importance of the orientation of bio-receptors was addressed by comparing sensors with randomly oriented VHH (with multiple exposed azide groups) to sensors with uniformly oriented VHH (with only a single azide group). A surface plasmon resonance (SPR) chip exposing cyclooctyne was reacted to azide functionalized VHH domains, using click chemistry. Comparison between randomly and uniformly oriented bio-receptors showed up to 800-fold increase in biosensor sensitivity. This technique may increase the containment of infectious diseases such as FMDV as its strongly enhanced sensitivity may facilitate early diagnostics. [Copyright &y& Elsevier]

Published

2014

2. Antibody orientation on biosensor surfaces: a minireview.

Author

Trilling, Anke K., Beekwilder, Jules, and Zuilhof, Han

Subjects

*IMMUNOGLOBULINS, *BIOSENSORS, *ENCAPSULATION (Catalysis), *COVALENT bonds, *CHEMICAL modification of proteins

Abstract

Detection elements play a key role in analyte recognition in biosensors. Therefore, detection elements with high analyte specificity and binding strength are required. While antibodies (Abs) have been increasingly used as detection elements in biosensors, a key challenge remains – the immobilization on the biosensor surface. This minireview highlights recent approaches to immobilize and study Abs on surfaces. We first introduce Ab species used as detection elements, and discuss techniques recently used to elucidate Ab orientation by determination of layer thickness or surface topology. Then, several immobilization methods will be presented: non-covalent and covalent surface attachment, yielding oriented or random coupled Abs. Finally, protein modification methods applicable for oriented Ab immobilization are reviewed with an eye to future application. [ABSTRACT FROM AUTHOR]

Published

2013

3. The effect of uniform capture molecule orientation on biosensor sensitivity: Dependence on analyte properties

Author

Trilling, Anke K., Harmsen, Michiel M., Ruigrok, Vincent J.B., Zuilhof, Han, and Beekwilder, Jules

Subjects

*BIOSENSORS, *BIOMOLECULES, *IMMUNOGLOBULINS, *MYCOBACTERIUM tuberculosis, *FOOT & mouth disease, *HEAT shock proteins

Abstract

Abstract: Uniform orientation of capture molecules on biosensors has been reported to increase sensitivity. Here it is investigated which analyte properties contribute to sensitivity by orientation. Orientation of capture molecules on biosensors was investigated using variable domains of llama heavy-chain antibodies (VHHs) as capture molecule, and a surface plasmon resonance (SPR) chip as biosensor. Two VHHs were tested in this study: one recognizing foot-and-mouth disease virus (FMDV) and another recognizing the 16kDa heat-shock protein of Mycobacterium tuberculosis. SPR chips with randomly immobilized biotinylated VHHs were compared to streptavidin-coated SPR chips, on which similar quantities of oriented biotinylated VHHs were non-covalently immobilized. Analytes that differ in molecular weight, epitope number and epitope affinity were compared using the FMDV-recognizing VHH. When binding of intact FMDV particles (146S; 8200kDa) or pentameric FMDV coat protein aggregates (12S; 282kDa) was detected, a modest (1–2-fold) increase in sensitivity was observed. When a 26-residue peptide (3kDa) containing the epitope for VHH recognition was tested, much larger effects of capture molecule orientation (14-fold) on signal were observed. A 20–227-fold improvement was also observed when the epitope peptide was covalently linked to bovine serum albumin (67kDa) or R-phycoerythrin (240kDa). The results indicate that orientation of the capture molecule hardly affects high-affinity interactions, while it leads to strong improvements in sensitivity for lower-affinity interactions. [Copyright &y& Elsevier]

Published

2013

4. A Broad Set of Different Llama Antibodies Specific for a 16 kDa Heat Shock Protein of Mycobacterium tuberculosis.

Author

Trilling, Anke K., de Ronde, Hans, Noteboom, Linda, van Houwelingen, Adèle, Roelse, Margriet, Srivastava, Saurabh K., Haasnoot, Willem, Jongsma, Maarten A., Kolk, Arend, Zuilhof, Han, and Beekwilder, Jules

Subjects

*TUBERCULOSIS, *MYCOBACTERIAL diseases, *MYCOBACTERIA, *HEAT shock proteins, *MYCOBACTERIUM

Abstract

Background Recombinant antibodies are powerful tools in engineering of novel diagnostics. Due to the small size and stable nature of llama antibody domains selected antibodies can serve as a detection reagent in multiplexed and sensitive assays for M. tuberculosis. Methodology/Principal Findings Antibodies for Mycobacterium tuberculosis (M. tb) recognition were raised in Alpaca, and, by phage display, recombinant variable domains of heavy-chain antibodies (VHH) binding to M. tuberculosis antigens were isolated. Two phage display selection strategies were followed: one direct selection using semi-purified protein antigen, and a depletion strategy with lysates, aiming to avoid cross-reaction to other mycobacteria. Both panning methods selected a set of binders with widely differing complementarity determining regions. Selected recombinant VHHs were produced in E. coli and shown to bind immobilized lysate in direct Enzymelinked Immunosorbent Assay (ELISA) tests and soluble antigen by surface plasmon resonance (SPR) analysis. All tested VHHs were specific for tuberculosis-causing mycobacteria (M. tuberculosis, M. bovis) and exclusively recognized an immunodominant 16 kDa heat shock protein (hsp). The highest affinity VHH had a dissociation constant (KD) of 4×10-10 M. Conclusions/Significance A broad set of different llama antibodies specific for 16 kDa heat shock protein of M. tuberculosis is available. This protein is highly stable and abundant in M. tuberculosis. The VHH that detect this protein are applied in a robust SPR sensor for identification of tuberculosis-causing mycobacteria. [ABSTRACT FROM AUTHOR]

Published

2011

5. Covalent Attachment of 1-Alkenes to Oxidized Platinum Surfaces.

Author

Alonso, Jose Maria, Fabre, Bruno, Trilling, Anke K., Scheres, Luc, Franssen, Maurice C. R., and Han Zuilhof

Subjects

*ALKENES, *OXIDIZING agents, *PLATINUM surfaces, *METALLIC surfaces, *FUNCTIONAL groups, *X-ray photoelectron spectroscopy

Abstract

We report the formation of covalently bound alkyl layers onto oxidized Pt (PtOx) substrates by reaction with 1-alkenes as a novel way to bind organic molecules to metal surfaces. The organic layers were characterized by static contact angle, infrared reflection absorption spectroscopy (IRRAS), X-ray photoelectron spectroscopy (XPS), and atomic force microscopy (AFM). The grafted alkyl layers display a hydrolytic stability that is comparable to that of alkyl thiols on Au. PtOx-alkene attachment is compatible with terminal ester moieties enabling further anchoring of functional groups, such as redox-active ferrocene, and thus has great potential to extend monolayer chemistry on noble metals. [ABSTRACT FROM AUTHOR]

Published

2015

6. Direct Creation of Biopatterns via a Combination of Laser-Based Techniques and Click Chemistry.

Author

Chatzipetrou, Marianneza, Massaouti, Maria, Tsekenis, George, Trilling, Anke K., van Andel, Esther, Scheres, Luc, Smulders, Maarten M. J., Zuilhof, Han, and Zergioti, Ioanna

Subjects

*APTAMERS, *PEPTIDE synthesis, *PEPTIDE spectra, *SYNTHETIC antibodies, *CLICK chemistry

Abstract

In this paper, we present the immobilization of thiol-modified aptamers on alkyne- or alkene-terminated silicon nitride surfaces by laser-induced click chemistry reactions. The aptamers are printed onto the surface by laser-induced forward transfer (LIFT), which also induces the covalent bonding of the aptamers by thiol-ene or thiol-yne reactions that occur upon UV irradiation of the thiol-modified aptamers with ns laser pulses. This combination of LIFT and laser-induced click chemistry allows the creation of high-resolution patterns without the need for masks. Whereas the click chemistry already takes place during the printing process (single-step process) by the laser pulse used for the printing process, further irradiation of the LIFT-printed aptamers by laser pulses (two-step process) leads to a further increase in the immobilization efficiency. [ABSTRACT FROM AUTHOR]

Published

2017

7. 16 kDa Heat Shock Protein from Heat-Inactivated Mycobacterium tuberculosis Is a Homodimer – Suitability for Diagnostic Applications with Specific Llama VHH Monoclonals

Author

Srivastava, Saurabh K., Ruigrok, Vincent J. B., Thompson, Natalie J., Trilling, Anke K., Heck, Albert J. R., van Rijn, Cees, Beekwilder, Jules, and Jongsma, Maarten A.

Subjects

*HEAT shock proteins, *MYCOBACTERIUM tuberculosis, *LLAMAS, *MONOCLONAL antibodies, *ENZYME-linked immunosorbent assay, *ELECTROSPRAY ionization mass spectrometry, *PROTEIN structure

Abstract

Background: The 16 kDa heat shock protein (HSP) is an immuno-dominant antigen, used in diagnosis of infectious Mycobacterium tuberculosis (M.tb.) causing tuberculosis (TB). Its use in serum-based diagnostics is limited, but for the direct identification of M.tb. bacteria in sputum or cultures it may represent a useful tool. Recently, a broad set of twelve 16 kDa specific heavy chain llama antibodies (VHH) has been isolated, and their utility for diagnostic applications was explored. Methodology/Principal Findings: To identify the epitopes recognized by the nine (randomly selected from a set of twelve 16 kDa specific VHH antibodies) distinct VHH antibodies, 14 overlapping linear epitopes (each 20 amino acid long) were characterized using direct and sandwich ELISA techniques. Seven out of 14 epitopes were recognized by 8 out of 9 VHH antibodies. The two highest affinity binders B-F10 and A-23 were found to bind distinct epitopes. Sandwich ELISA and SPR experiments showed that only B-F10 was suitable as secondary antibody with both B-F10 and A-23 as anchoring antibodies. To explain this behavior, the epitopes were matched to the putative 3D structure model. Electrospray ionization time-of-flight mass spectrometry and size exclusion chromatography were used to determine the higher order conformation. A homodimer model best explained the differential immunological reactivity of A-23 and B-F10 against heat-treated M.tb. lysates. Conclusions/Significance: The concentrations of secreted antigens of M.tb. in sputum are too low for immunological detection and existing kits are only used for identifying M.tb. in cultures. Here we describe how specific combinations of VHH domains could be used to detect the intracellular HSP antigen. Linked to methods of pre-concentrating M.tb. cells prior to lysis, HSP detection may enable the development of protein-based diagnostics of sputum samples and earlier diagnosis of diseases. [ABSTRACT FROM AUTHOR]

Published

2013