Your search keyword '"van Schie L"' showing total 13 results

1. Cytokine receptor complex - Crystal form 2

Author

Verstraete, K., primary, van Schie, L., additional, and Savvides, S.N., additional

Published

2014

2. Cytokine receptor complex - Crystal form 1B

Author

Verstraete, K., primary, van Schie, L., additional, and Savvides, S.N., additional

Published

2014

3. OPENPichia: licence-free Komagataella phaffii chassis strains and toolkit for protein expression.

Author

Claes K, Van Herpe D, Vanluchene R, Roels C, Van Moer B, Wyseure E, Vandewalle K, Eeckhaut H, Yilmaz S, Vanmarcke S, Çıtak E, Fijalkowska D, Grootaert H, Lonigro C, Meuris L, Michielsen G, Naessens J, van Schie L, De Rycke R, De Bruyne M, Borghgraef P, and Callewaert N

Subjects

Humans, Food, Recombinant Proteins genetics, Cell Wall, Microbiota, Saccharomycetales

Abstract

The industrial yeast Komagataella phaffii (formerly named Pichia pastoris) is commonly used to synthesize recombinant proteins, many of which are used as human therapeutics or in food. However, the basic strain, named NRRL Y-11430, from which all commercial hosts are derived, is not available without restrictions on its use. Comparative genome sequencing leaves little doubt that NRRL Y-11430 is derived from a K. phaffii type strain deposited in the UC Davis Phaff Yeast Strain Collection in 1954. We analysed four equivalent type strains in several culture collections and identified the NCYC 2543 strain, from which we started to develop an open-access Pichia chassis strain that anyone can use to produce recombinant proteins to industry standards. NRRL Y-11430 is readily transformable, which we found to be due to a HOC1 open-reading-frame truncation that alters cell-wall mannan. We introduced the HOC1 open-reading-frame truncation into NCYC 2543, which increased the transformability and improved secretion of some but not all of our tested proteins. We provide our genome-sequenced type strain, the hoc1 tr derivative that we named OPENPichia as well as a synthetic, modular expression vector toolkit under liberal end-user distribution licences as an unencumbered OPENPichia resource for the microbial biotechnology community., (© 2024. The Author(s).)

Published

2024

4. GlycoVHH: optimal sites for introducing N-glycans on the camelid VHH antibody scaffold and use for macrophage delivery.

Author

van Schie L, Van Breedam W, Roels C, Schepens B, Frank M, Mehdipour AR, Laukens B, Nerinckx W, Santens F, Devos S, Rossey I, Thooft K, Vanmarcke S, Van Hecke A, Saelens X, and Callewaert N

Subjects

Antigens, Epitopes, Macrophages, Single-Domain Antibodies genetics

Abstract

As small and stable high-affinity antigen binders, VHHs boast attractive characteristics both for therapeutic use in various disease indications, and as versatile reagents in research and diagnostics. To further increase the versatility of VHHs, we explored the VHH scaffold in a structure-guided approach to select regions where the introduction of an N-glycosylation N-X-T sequon and its associated glycan should not interfere with protein folding or epitope recognition. We expressed variants of such glycoengineered VHHs in the Pichia pastoris GlycoSwitchM5 strain, allowing us to pinpoint preferred sites at which Man 5 GlcNAc 2 -glycans can be introduced at high site occupancy without affecting antigen binding. A VHH carrying predominantly a Man 5 GlcNAc 2 N-glycan at one of these preferred sites showed highly efficient, glycan-dependent uptake by Mf4/4 macrophages in vitro and by alveolar lung macrophages in vivo , illustrating one potential application of glyco-engineered VHHs: a glycan-based targeting approach for lung macrophage endolysosomal system delivery. The set of optimal artificial VHH N-glycosylation sites identified in this study can serve as a blueprint for targeted glyco-engineering of other VHHs, enabling site-specific functionalization through the rapidly expanding toolbox of synthetic glycobiology.

Published

2023

5. Yeast-produced fructosamine-3-kinase retains mobility after ex vivo intravitreal injection in human and bovine eyes as determined by Fluorescence Correlation Spectroscopy.

Author

Minnaert AK, van Schie L, Grootaert H, Himpe J, Devos S, Weyts W, De Keersmaecker H, Braeckmans K, Van Aken E, Delanghe JR, De Smedt SC, Callewaert N, and Remaut K

Subjects

Animals, Cattle, Humans, Intravitreal Injections, Phosphotransferases (Alcohol Group Acceptor) metabolism, Spectrometry, Fluorescence, Diabetes Mellitus, Saccharomyces cerevisiae

Abstract

Globally, over 2 billion people suffer from vision impairment. Despite complex multifactorial etiology, advanced glycation end products are involved in the pathogenesis of many causative age- and diabetes-related eye diseases. Deglycating enzyme fructosamine-3-kinase (FN3K) was recently proposed as a potential therapeutic, but for further biopharmaceutical development, knowledge on its manufacturability and stability and mobility in the vitreous fluid of the eye is indispensable. We evaluated recombinant production of FN3K in two host systems, and its diffusion behavior in both bovine and human vitreous. Compared to Escherichia coli, intracellular production in Pichia pastoris yielded more and higher purity FN3K. The yeast-produced enzyme was used in a first attempt to use fluorescence correlation spectroscopy to study protein mobility in non-sonicated bovine vitreous, human vitreous, and intact bovine eyes. It was demonstrated that FN3K retained mobility upon intravitreal injection, although a certain delay in diffusion was observed. Alkylation of free cysteines was tolerated both in terms of enzymatic activity and vitreous diffusion. Ex vivo diffusion data gathered and the availability of yeast-produced high purity enzyme now clear the path for in vivo pharmacokinetics studies of FN3K., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

6. An affinity-enhanced, broadly neutralizing heavy chain-only antibody protects against SARS-CoV-2 infection in animal models.

Author

Schepens B, van Schie L, Nerinckx W, Roose K, Van Breedam W, Fijalkowska D, Devos S, Weyts W, De Cae S, Vanmarcke S, Lonigro C, Eeckhaut H, Van Herpe D, Borloo J, Oliveira AF, Catani JPP, Creytens S, De Vlieger D, Michielsen G, Marchan JCZ, Moschonas GD, Rossey I, Sedeyn K, Van Hecke A, Zhang X, Langendries L, Jacobs S, Ter Horst S, Seldeslachts L, Liesenborghs L, Boudewijns R, Thibaut HJ, Dallmeier K, Velde GV, Weynand B, Beer J, Schnepf D, Ohnemus A, Remory I, Foo CS, Abdelnabi R, Maes P, Kaptein SJF, Rocha-Pereira J, Jochmans D, Delang L, Peelman F, Staeheli P, Schwemmle M, Devoogdt N, Tersago D, Germani M, Heads J, Henry A, Popplewell A, Ellis M, Brady K, Turner A, Dombrecht B, Stortelers C, Neyts J, Callewaert N, and Saelens X

Subjects

Animals, Antibodies, Neutralizing, Antibodies, Viral, Humans, Models, Animal, SARS-CoV-2, COVID-19, Spike Glycoprotein, Coronavirus

Abstract

Broadly neutralizing antibodies are an important treatment for individuals with coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Antibody-based therapeutics are also essential for pandemic preparedness against future Sarbecovirus outbreaks. Camelid-derived single domain antibodies (VHHs) exhibit potent antimicrobial activity and are being developed as SARS-CoV-2–neutralizing antibody-like therapeutics. Here, we identified VHHs that neutralize both SARS-CoV-1 and SARS-CoV-2, including now circulating variants. We observed that the VHHs bound to a highly conserved epitope in the receptor binding domain of the viral spike protein that is difficult to access for human antibodies. Structure-guided molecular modeling, combined with rapid yeast-based prototyping, resulted in an affinity enhanced VHH-human immunoglobulin G1 Fc fusion molecule with subnanomolar neutralizing activity. This VHH-Fc fusion protein, produced in and purified from cultured Chinese hamster ovary cells, controlled SARS-CoV-2 replication in prophylactic and therapeutic settings in mice expressing human angiotensin converting enzyme 2 and in hamsters infected with SARS-CoV-2. These data led to affinity-enhanced selection of the VHH, XVR011, a stable anti–COVID-19 biologic that is now being evaluated in the clinic.

Published

2021

7. Exploration of Synergistic Action of Cell Wall-Degrading Enzymes against Mycobacterium tuberculosis.

Author

van Schie L, Borgers K, Michielsen G, Plets E, Vuylsteke M, Tiels P, Festjens N, and Callewaert N

Subjects

Animals, Cell Wall, Humans, Mycolic Acids, Peptidoglycan, Mycobacteriophages, Mycobacterium tuberculosis

Abstract

The major global health threat tuberculosis is caused by Mycobacterium tuberculosis. M. tuberculosis has a complex cell envelope-a partially covalently linked composite of polysaccharides, peptidoglycan, and lipids, including a mycolic acid layer-which conveys pathogenicity but also protects against antibiotics. Given previous successes in treating Gram-positive and -negative infections with cell wall-degrading enzymes, we investigated such an approach for M. tuberculosis. In this study, we aimed to (i) develop an M. tuberculosis microtiter growth inhibition assay that allows undisturbed cell envelope formation to overcome the invalidation of results by typical clumped M. tuberculosis growth in surfactant-free assays, (ii) explore anti-M. tuberculosis potency of cell wall layer-degrading enzymes, and (iii) investigate the concerted action of several such enzymes. We inserted a bacterial luciferase operon in an auxotrophic M. tuberculosis strain to develop a microtiter assay that allows proper evaluation of cell wall-degrading anti-M. tuberculosis enzymes. We assessed growth inhibition by enzymes (recombinant mycobacteriophage mycolic acid esterase [LysB], fungal α-amylase, and human and chicken egg white lysozymes) and combinations thereof in the presence or absence of biopharmaceutically acceptable surfactant. Our biosafety level 2 assay identified both LysB and lysozymes as potent M. tuberculosis inhibitors but only in the presence of surfactant. Moreover, the most potent disruption of the mycolic acid hydrophobic barrier was obtained by the highly synergistic combination of LysB, α-amylase, and polysorbate 80. Synergistically acting cell wall-degrading enzymes are potently inhibiting M. tuberculosis, which sets the scene for the design of specifically tailored antimycobacterial (fusion) enzymes. Airway delivery of protein therapeutics has already been established and should be studied in animal models for active TB.

Published

2021

8. A Potential Role for Fructosamine-3-Kinase in Cataract Treatment.

Author

De Bruyne S, van Schie L, Himpe J, De Somer F, Everaert I, Derave W, Van den Broecke C, Huizing M, Bostan N, Speeckaert M, Callewaert N, Van Aken E, and Delanghe JR

Subjects

Animals, Cataract diagnosis, Cataract etiology, Disease Models, Animal, Dose-Response Relationship, Drug, Enzyme Activation, Eye drug effects, Eye metabolism, Glycation End Products, Advanced administration & dosage, Horses, Humans, Immunohistochemistry, Intravitreal Injections, Lens, Crystalline drug effects, Lens, Crystalline metabolism, Mice, Phosphotransferases (Alcohol Group Acceptor) administration & dosage, Phosphotransferases (Alcohol Group Acceptor) therapeutic use, Cataract drug therapy, Cataract metabolism, Phosphotransferases (Alcohol Group Acceptor) metabolism, Phosphotransferases (Alcohol Group Acceptor) pharmacology

Abstract

Cataracts are the major cause of blindness worldwide, largely resulting from aging and diabetes mellitus. Advanced glycation end products (AGEs) have been identified as major contributors in cataract formation because they alter lens protein structure and stability and induce covalent cross-linking, aggregation, and insolubilization of lens crystallins. We investigated the potential of the deglycating enzyme fructosamine-3-kinase (FN3K) in the disruption of AGEs in cataractous lenses. Macroscopic changes of equine lenses were evaluated after ex vivo intravitreal FN3K injection. The mechanical properties of an equine lens pair were evaluated after treatment with saline and FN3K. AGE-type autofluorescence (AF) was measured to assess the time-dependent effects of FN3K on glycolaldehyde-induced AGE-modified porcine lens fragments and to evaluate its actions on intact lenses after in vivo intravitreal FN3K injection of murine eyes. A potential immune response after injection was evaluated by analysis of IL-2, TNFα, and IFNγ using an ELISA kit. Dose- and time-dependent AF kinetics were analyzed on pooled human lens fragments. Furthermore, AF measurements and a time-lapse of macroscopic changes were performed on intact cataractous human eye lenses after incubation with an FN3K solution. At last, AF measurements were performed on cataractous human eyes after crossover topical treatment with either saline- or FN3K-containing drops. While the lenses of the equine FN3K-treated eyes appeared to be clear, the saline-treated lenses had a yellowish-brown color. Following FN3K treatment, color restoration could be observed within 30 min. The extension rate of the equine FN3K-treated lens was more than twice the extension rate of the saline-treated lens. FN3K treatment induced significant time-dependent decreases in AGE-related AF values in the AGE-modified porcine lens fragments. Furthermore, in vivo intravitreal FN3K injection of murine eyes significantly reduced AF values of the lenses. Treatment did not provoke a systemic immune response in mice. AF kinetics of FN3K-treated cataractous human lens suspensions revealed dose- and time-dependent decreases. Incubation of cataractous human eye lenses with FN3K resulted in a macroscopic lighter color of the cortex and a decrease in AF values. At last, crossover topical treatment of intact human eyes revealed a decrease in AF values during FN3K treatment, while showing no notable changes with saline. Our study suggests, for the first time, a potential additional role of FN3K as an alternative treatment for AGE-related cataracts.

Published

2021

9. Development of a Counterselectable Transposon To Create Markerless Knockouts from an 18,432-Clone Ordered Mycobacterium bovis Bacillus Calmette-Guérin Mutant Resource.

Author

Borgers K, Vandewalle K, Van Hecke A, Michielsen G, Plets E, van Schie L, Vanmarcke S, Schindfessel L, Festjens N, and Callewaert N

Abstract

Mutant resources are essential to improve our understanding of the biology of slow-growing mycobacteria, which include the causative agents of tuberculosis in various species, including humans. The generation of deletion mutants in slow-growing mycobacteria in a gene-by-gene approach in order to make genome-wide ordered mutant resources is still a laborious and costly approach, despite the recent development of improved methods. On the other hand, transposon mutagenesis in combination with Cartesian pooling-coordinate sequencing (CP-CSeq) allows the creation of large archived Mycobacterium transposon insertion libraries. However, such mutants contain selection marker genes with a risk of polar gene effects, which are undesired both for research and for use of these mutants as live attenuated vaccines. In this paper, a derivative of the Himar1 transposon is described which allows the generation of clean, markerless knockouts from archived transposon libraries. By incorporating FRT sites for FlpE/ FRT -mediated recombination and I-SceI sites for ISceIM-based transposon removal, we enable two thoroughly experimentally validated possibilities to create unmarked mutants from such marked transposon mutants. The FRT approach is highly efficient but leaves an FRT scar in the genome, whereas the I-SceI -mediated approach can create mutants without any heterologous DNA in the genome. The combined use of CP-CSeq and this optimized transposon was applied in the BCG Danish 1331 vaccine strain (WHO reference 07/270), creating the largest ordered, characterized resource of mutants in a member of the Mycobacterium tuberculosis complex (18,432 clones, mutating 83% of the nonessential M. tuberculosis homologues), from which markerless knockouts can be easily generated. IMPORTANCE While speeding up research for many fields of biology (e.g., yeast, plant, and Caenorhabditis elegans ), genome-wide ordered mutant collections are still elusive in mycobacterial research. We developed methods to generate such resources in a time- and cost-effective manner and developed a newly engineered transposon from which unmarked mutants can be efficiently generated. Our library in the WHO reference vaccine strain of Mycobacterium bovis BCG Danish targets 83% of all nonessential genes and was made publicly available via the BCCM/ITM Mycobacteria Collection. This resource will speed up Mycobacterium research (e.g., drug resistance research and vaccine development) and paves the way to similar genome-wide mutant collections in other strains of the Mycobacterium tuberculosis complex. The stretch to a full collection of mutants in all nonessential genes is now much shorter, with just 17% remaining genes to be targeted using gene-by-gene approaches, for which highly effective methods have recently also been described., (Copyright © 2020 Borgers et al.)

Published

2020

10. Structural Basis for Potent Neutralization of Betacoronaviruses by Single-Domain Camelid Antibodies.

Author

Wrapp D, De Vlieger D, Corbett KS, Torres GM, Wang N, Van Breedam W, Roose K, van Schie L, Hoffmann M, Pöhlmann S, Graham BS, Callewaert N, Schepens B, Saelens X, and McLellan JS

Published

2020

11. Adherence to guidelines to prevent cardiovascular diseases: The LifeLines cohort study.

Author

Balder JW, Scholtens S, de Vries JK, van Schie LM, Boekholdt SM, Hovingh GK, Kamphuisen PW, and Kuivenhoven JA

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Diabetes Mellitus drug therapy, Female, Humans, Male, Middle Aged, Netherlands, Practice Guidelines as Topic, Primary Prevention statistics & numerical data, Prospective Studies, Secondary Prevention statistics & numerical data, Young Adult, Cardiovascular Diseases prevention & control, Guideline Adherence statistics & numerical data, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use

Abstract

Background: Cardiovascular disease (CVD) is the leading cause of death worldwide. While there is indisputable evidence that statin treatment reduces the burden of CVD, undertreatment remains a concern for primary and secondary prevention. The aim of this study was to assess the use of lipid-lowering drugs (LLD) among 70,292 individuals in the Netherlands as a proxy of adherence to the national guideline for prevention and treatment of CVD., Methods: LifeLines is a population-based prospective cohort study in the three Northern provinces of the Netherlands. At baseline, all participants completed questionnaires, and underwent a physical examination and lab testing. The national guidelines were used to assess how many participants were eligible for LLD prescription and we analysed how many indeed reported LLD use., Results: For primary prevention, 77% (2515 of 3268) of those eligible for LLD treatment did not report using these drugs, while for secondary prevention this was 31% (403 of 1302). Patients with diabetes mellitus were treated best (67%) for primary prevention. Notably, of the patients with stroke, only 47% (182 of 386) reported LLD treatment., Conclusion: Despite clear guidelines and multiple national initiatives to improve CVD risk management, adherence to guidelines for the treatment of CVD in the Netherlands remains a major challenge. This study calls out for improving public awareness of CVD and to improve primary and secondary prevention to prevent unnecessary CVD-related morbidity and mortality.

Published

2015

12. Structural basis of the proinflammatory signaling complex mediated by TSLP.

Author

Verstraete K, van Schie L, Vyncke L, Bloch Y, Tavernier J, Pauwels E, Peelman F, and Savvides SN

Subjects

Amino Acid Sequence, Animals, Binding Sites, Crystallography, X-Ray, Cytokines immunology, Cytokines metabolism, Humans, Interleukin-2 metabolism, Interleukin-2 physiology, Mice, Models, Immunological, Molecular Sequence Data, Protein Structure, Tertiary, Receptors, Interleukin-7 metabolism, Receptors, Interleukin-7 physiology, Thymic Stromal Lymphopoietin, Cytokines chemistry, Signal Transduction immunology

Abstract

Thymic stromal lymphopoietin (TSLP), a cytokine produced by epithelial cells at barrier surfaces, is pivotal for the development of widespread chronic inflammatory disorders such as asthma and atopic dermatitis. The structure of the mouse TSLP-mediated signaling complex reveals how TSLP establishes extensive interfaces with its cognate receptor (TSLPR) and the shared interleukin 7 receptor α-chain (IL-7Rα) to evoke membrane-proximal receptor-receptor contacts poised for intracellular signaling. Binding of TSLP to TSLPR is a mechanistic prerequisite for recruitment of IL-7Rα to the high-affinity ternary complex, which we propose is coupled to a structural switch in TSLP at the crossroads of the cytokine-receptor interfaces. Functional interrogation of TSLP-receptor interfaces points to putative interaction hotspots that could be exploited for antagonist design. Finally, we derive the structural rationale for the functional duality of IL-7Rα and establish a consensus for the geometry of ternary complexes mediated by interleukin 2 (IL-2)-family cytokines.

Published

2014

13. Rehabilitation potential of elderly patients with major amputations.

Author

Harris KA, van Schie L, Carroll SE, Deathe A, Maryniak O, Meads GE, and Sweeney JP

Subjects

Activities of Daily Living, Age Factors, Aged, Amputation, Surgical mortality, Amputation, Surgical statistics & numerical data, Chi-Square Distribution, Humans, Leg, Middle Aged, Ontario, Retrospective Studies, Amputation, Surgical rehabilitation

Abstract

This study was undertaken to determine the rehabilitation potential of patients undergoing amputation for vascular disease. A total of 101 patients were studied with a mean age of 69 +/- 14 years, 26 of whom were over age 80. Operative indications were gangrene or ulceration in 80% with rest pain in 20%. Eighteen patients were bilateral amputees. Fifty per cent of the patient population had previous vascular operations. The operative mortality was 13% and was not affected by the age of the patients or the presence of diabetes. Most operative deaths were due to cardiac or septic respiratory complications. Twenty-four of 88 surviving patients were not considered candidates for rehabilitation and the major determining factor was the occurrence of a remote or perioperative stroke. None of these 24 patients was discharged from institutional care. Sixty-four patients were considered rehabilitation candidates with equal distribution in all age groups. Ninety-five per cent of these patients were discharged home with 80% of those patients over 80 being discharged. Eighty-seven per cent of the elderly rehabilitation candidates were fitted with prostheses which compares favourably to other age groups. Seventy-three per cent of the elderly reached their rehabilitation goals (most frequently ambulation with the aid of a walker) which is only slightly less than the younger amputation group. From this study we conclude that amputations which are done for ease of nursing care and patient comfort in debilitated patients have a high mortality rate and rehabilitation goals are unlikely to be met. We have demonstrated high success rates with rehabilitation including patients over age 80. The majority of these patients may be discharged home after a period of aggressive rehabilitation.

Published

1991