Search

Your search keyword '"Wilbers, Ruud H.P."' showing total 25 results
Start Over Author "Wilbers, Ruud H.P."
25 results on '"Wilbers, Ruud H.P."'

5. Plant-based production of a protective vaccine antigen against the bovine parasitic nematode Ostertagia ostertagi

Author

Zwanenburg, Laurens, Borloo, Jimmy, Decorte, Bregt, Bunte, Myrna J.M., Mokhtari, Sanaz, Serna, Sonia, Reichardt, Niels C., Seys, Leen J.M., van Diepen, Angela, Schots, Arjen, Wilbers, Ruud H.P., Hokke, Cornelis H., Claerebout, Edwin, Geldhof, Peter, Zwanenburg, Laurens, Borloo, Jimmy, Decorte, Bregt, Bunte, Myrna J.M., Mokhtari, Sanaz, Serna, Sonia, Reichardt, Niels C., Seys, Leen J.M., van Diepen, Angela, Schots, Arjen, Wilbers, Ruud H.P., Hokke, Cornelis H., Claerebout, Edwin, and Geldhof, Peter

Abstract

The development of effective recombinant vaccines against parasitic nematodes has been challenging and so far mostly unsuccessful. This has also been the case for Ostertagia ostertagi, an economically important abomasal nematode in cattle, applying recombinant versions of the protective native activation-associated secreted proteins (ASP). To gain insight in key elements required to trigger a protective immune response, the protein structure and N-glycosylation of the native ASP and a non-protective Pichia pastoris recombinant ASP were compared. Both antigens had a highly comparable protein structure, but different N-glycan composition. After mimicking the native ASP N-glycosylation via the expression in Nicotiana benthamiana plants, immunisation of calves with these plant-produced recombinants resulted in a significant reduction of 39% in parasite egg output, comparable to the protective efficacy of the native antigen. This study provides a valuable workflow for the development of recombinant vaccines against other parasitic nematodes.

Published
2023

6. Glyco-Engineering Plants to Produce Helminth Glycoproteins as Prospective Biopharmaceuticals: Recent Advances, Challenges and Future Prospects

Author

Van Der Kaaij, Alex, Van Noort, Kim, Nibbering, Pieter, Wilbers, Ruud H.P., and Schots, Arjen

Subjects
carbohydrates (lipids), Life Science, Plant Science, EPS, Laboratory of Nematology, Laboratorium voor Nematologie
Abstract

Glycoproteins are the dominant category among approved biopharmaceuticals, indicating their importance as therapeutic proteins. Glycoproteins are decorated with carbohydrate structures (or glycans) in a process called glycosylation. Glycosylation is a post-translational modification that is present in all kingdoms of life, albeit with differences in core modifications, terminal glycan structures, and incorporation of different sugar residues. Glycans play pivotal roles in many biological processes and can impact the efficacy of therapeutic glycoproteins. The majority of biopharmaceuticals are based on human glycoproteins, but non-human glycoproteins, originating from for instance parasitic worms (helminths), form an untapped pool of potential therapeutics for immune-related diseases and vaccine candidates. The production of sufficient quantities of correctly glycosylated putative therapeutic helminth proteins is often challenging and requires extensive engineering of the glycosylation pathway. Therefore, a flexible glycoprotein production system is required that allows straightforward introduction of heterologous glycosylation machinery composed of glycosyltransferases and glycosidases to obtain desired glycan structures. The glycome of plants creates an ideal starting point for N- and O-glyco-engineering of helminth glycans. Plants are also tolerant toward the introduction of heterologous glycosylation enzymes as well as the obtained glycans. Thus, a potent production platform emerges that enables the production of recombinant helminth proteins with unusual glycans. In this review, we discuss recent advances in plant glyco-engineering of potentially therapeutic helminth glycoproteins, challenges and their future prospects.

Published
2022
Full Text
View/download PDF

7. Helminth Glycans at the Host-Parasite Interface and Their Potential for Developing Novel Therapeutics

Author

Bunte, Myrna J.M., Schots, Arjen, Kammenga, Jan E., Wilbers, Ruud H.P., Bunte, Myrna J.M., Schots, Arjen, Kammenga, Jan E., and Wilbers, Ruud H.P.

Abstract

Helminths are parasitic worms that have successfully co-evolved with their host immune system to sustain long-term infections. Their successful parasitism is mainly facilitated by modulation of the host immune system via the release of excretory-secretory (ES) products covered with glycan motifs such as Lewis X, fucosylated LDN, phosphorylcholine and tyvelose. Evidence is accumulating that these glycans play key roles in different aspects of helminth infection including interactions with immune cells for recognition and evasion of host defences. Moreover, antigenic properties of glycans can be exploited for improving the efficacy of anti-helminthic vaccines. Here, we illustrate that glycans have the potential to open new avenues for the development of novel biopharmaceuticals and effective vaccines based on helminth glycoproteins.

Published
2022

8. The helminth glycoprotein omega‐1 improves metabolic homeostasis in obese mice through type 2 immunity‐independent inhibition of food intake

Author

Zande, Hendrik J.P., van der, Gonzalez, Michael A., Ruiter, Karin, Wilbers, Ruud H.P., García‐Tardón, Noemí, Huizen, Mariska, van, Noort, Kim, van, Pelgrom, Leonard R., Lambooij, Joost M., Zawistowska‐Deniziak, Anna, Otto, Frank, Ozir‐Fazalalikhan, Arifa, Willigen, Danny, van, Welling, Mick, Poles, Jordan, Leeuwen, Fijs, Hokke, Cornelis H., Schots, Arjen, Yazdanbakhsh, Maria, Loke, P., Guigas, Bruno, Zande, Hendrik J.P., van der, Gonzalez, Michael A., Ruiter, Karin, Wilbers, Ruud H.P., García‐Tardón, Noemí, Huizen, Mariska, van, Noort, Kim, van, Pelgrom, Leonard R., Lambooij, Joost M., Zawistowska‐Deniziak, Anna, Otto, Frank, Ozir‐Fazalalikhan, Arifa, Willigen, Danny, van, Welling, Mick, Poles, Jordan, Leeuwen, Fijs, Hokke, Cornelis H., Schots, Arjen, Yazdanbakhsh, Maria, Loke, P., and Guigas, Bruno

Abstract

Type 2 immunity plays an essential role in the maintenance of metabolic homeostasis and its disruption during obesity promotes meta‐inflammation and insulin resistance. Infection with the helminth parasite Schistosoma mansoni and treatment with its soluble egg antigens (SEA) induce a type 2 immune response in metabolic organs and improve insulin sensitivity and glucose tolerance in obese mice, yet, a causal relationship remains unproven. Here, we investigated the effects and underlying mechanisms of the T2 ribonuclease omega‐1 (ω1), one of the major S mansoni immunomodulatory glycoproteins, on metabolic homeostasis. We show that treatment of obese mice with plant‐produced recombinant ω1, harboring similar glycan motifs as present on the native molecule, decreased body fat mass, and improved systemic insulin sensitivity and glucose tolerance in a time‐ and dose‐dependent manner. This effect was associated with an increase in white adipose tissue (WAT) type 2 T helper cells, eosinophils, and alternatively activated macrophages, without affecting type 2 innate lymphoid cells. In contrast to SEA, the metabolic effects of ω1 were still observed in obese STAT6‐deficient mice with impaired type 2 immunity, indicating that its metabolic effects are independent of the type 2 immune response. Instead, we found that ω1 inhibited food intake, without affecting locomotor activity, WAT thermogenic capacity or whole‐body energy expenditure, an effect also occurring in leptin receptor‐deficient obese and hyperphagic db/db mice. Altogether, we demonstrate that while the helminth glycoprotein ω1 can induce type 2 immunity, it improves whole‐body metabolic homeostasis in obese mice by inhibiting food intake via a STAT6‐independent mechanism.

Published
2021

9. β-Hexosaminidases Along the Secretory Pathway of Nicotiana benthamiana Have Distinct Specificities Toward Engineered Helminth N-Glycans on Recombinant Glycoproteins

Author

Alvisi, Nicolò, Noort, Kim, van, Dwiani, Sarlita, Geschiere, Nathan, Sukarta, Octavina, Varossieau, Koen, Nguyen, Dieu-Linh, Strasser, Richard, Hokke, Cornelis H., Schots, Arjen, Wilbers, Ruud H.P., Alvisi, Nicolò, Noort, Kim, van, Dwiani, Sarlita, Geschiere, Nathan, Sukarta, Octavina, Varossieau, Koen, Nguyen, Dieu-Linh, Strasser, Richard, Hokke, Cornelis H., Schots, Arjen, and Wilbers, Ruud H.P.

Abstract

Secretions of parasitic worms (helminths) contain a wide collection of immunomodulatory glycoproteins with the potential to treat inflammatory disorders, like autoimmune diseases. Yet, the identification of single molecules that can be developed into novel biopharmaceuticals is hampered by the limited availability of native parasite-derived proteins. Recently, pioneering work has shown that helminth glycoproteins can be produced transiently in Nicotiana benthamiana plants while simultaneously mimicking their native helminth N-glycan composition by co-expression of desired glycosyltransferases. However, efficient “helminthization” of N-glycans in plants by glyco-engineering seems to be hampered by the undesired truncation of complex N-glycans by β-N-acetyl-hexosaminidases, in particular when aiming for the synthesis of N-glycans with antennary GalNAcβ1-4GlcNAc (LacdiNAc or LDN). In this study, we cloned novel β-hexosaminidase open reading frames from N. benthamiana and characterized the biochemical activity of these enzymes. We identified HEXO2 and HEXO3 as enzymes responsible for the cleavage of antennary GalNAc residues of N-glycans on the model helminth glycoprotein kappa-5. Furthermore, we reveal that each member of the HEXO family has a distinct specificity for N-glycan substrates, where HEXO2 has strict β-galactosaminidase activity, whereas HEXO3 cleaves both GlcNAc and GalNAc. The identification of HEXO2 and HEXO3 as major targets for LDN cleavage will enable a targeted genome editing approach to reduce undesired processing of these N-glycans. Effective knockout of these enzymes could allow the production of therapeutically relevant glycoproteins with tailor-made helminth N-glycans in plants.

Published
2021

10. Tumor Necrosis Factor and Schistosoma mansoni egg antigen omega-1 shape distinct aspects of the early egg-induced granulomatous response

Author

Takaki, Kevin K., Roca, Francisco J., Schramm, Gabriele, Wilbers, Ruud H.P., Ittiprasert, Wannaporn, Brindley, Paul J., Rinaldi, Gabriel, Berriman, Matthew, Ramakrishnan, Lalita, Pagán, Antonio J., Takaki, Kevin K., Roca, Francisco J., Schramm, Gabriele, Wilbers, Ruud H.P., Ittiprasert, Wannaporn, Brindley, Paul J., Rinaldi, Gabriel, Berriman, Matthew, Ramakrishnan, Lalita, and Pagán, Antonio J.

Abstract

Infections by schistosomes result in granulomatous lesions around parasite eggs entrapped within the host tissues. The host and parasite determinants of the Schistosoma mansoni egg-induced granulomatous response are areas of active investigation. Some studies in mice implicate Tumor Necrosis Factor (TNF) produced in response to the infection whereas others fail to find a role for it. In addition, in the mouse model, the S. mansoni secreted egg antigen omega-1 is found to induce granulomas but the underlying mechanism remains unknown. We have recently developed the zebrafish larva as a model to study macrophage recruitment and granuloma formation in response to Schistosoma mansoni eggs. Here we use this model to investigate the mechanisms by which TNF and omega-1 shape the early granulomatous response. We find that TNF, specifically signaling through TNF receptor 1, is not required for macrophage recruitment to the egg and granuloma initiation but does mediate granuloma enlargement. In contrast, omega-1 mediates initial macrophage recruitment, with this chemotactic activity being dependent on its RNase activity. Our findings further the understanding of the role of these host- and parasite-derived factors and show that they impact distinct facets of the granulomatous response to the schistosome egg.

Published
2021

11. Correction: Functional characterization of Schistosoma mansoni fucosyltransferases in Nicotiana benthamiana plants

Author

van Noort, Kim, Nguyen, Dieu Linh, Kriechbaumer, Verena, Hawes, Chris, Hokke, Cornelis H., Schots, Arjen, Wilbers, Ruud H.P., van Noort, Kim, Nguyen, Dieu Linh, Kriechbaumer, Verena, Hawes, Chris, Hokke, Cornelis H., Schots, Arjen, and Wilbers, Ruud H.P.

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2021

12. Functional characterization of Schistosoma mansoni fucosyltransferases in Nicotiana benthamiana plants

Author

Noort, Kim van, Nguyen, Dieu-Linh, Kriechbaumer, Verena, Hawes, Chris, Hokke, Cornelis H., Schots, Arjen, Wilbers, Ruud H.P., Noort, Kim van, Nguyen, Dieu-Linh, Kriechbaumer, Verena, Hawes, Chris, Hokke, Cornelis H., Schots, Arjen, and Wilbers, Ruud H.P.

Abstract

Helminth parasites secrete a wide variety of immunomodulatory proteins and lipids to dampen host immune responses. Many of these immunomodulatory compounds are modified with complex sugar structures (or glycans), which play an important role at the host–parasite interface. As an example, the human blood fluke Schistosoma mansoni produces highly fucosylated glycan structures on glycoproteins and glycolipids. Up to 20 different S. mansoni fucosyltransferase (SmFucT) genes can be found in genome databases, but thus far only one enzyme has been functionally characterized. To unravel the synthesis of highly fucosylated N-glycans by S. mansoni, we examined the ability of ten selected SmFucTs to modify N-glycans upon transient expression in Nicotiana benthamiana plants. All enzymes were localized in the plant Golgi apparatus, which allowed us to identify the SmFucTs involved in core fucosylation and the synthesis of complex antennary glycan motifs. This knowledge provides a starting point for investigations into the role of specific fucosylated glycan motifs of schistosomes in parasite-host interactions. The functionally characterized SmFucTs can also be applied to synthesize complex N-glycan structures on recombinant proteins to study their contribution to immunomodulation. Furthermore, this plant expression system will fuel the development of helminth glycoproteins for pharmaceutical applications or novel anti-helminth vaccines.

Published
2020

13. Functional characterization of Schistosoma mansoni fucosyltransferases in Nicotiana benthamiana plants

Author

Van Noort, Kim, Nguyen, Dieu-Linh, Kriechbaumer, Verena, Hawes, Chris, Hokke, Cornelis H., Schots, Arjen, Wilbers, Ruud H.P., Van Noort, Kim, Nguyen, Dieu-Linh, Kriechbaumer, Verena, Hawes, Chris, Hokke, Cornelis H., Schots, Arjen, and Wilbers, Ruud H.P.

Abstract

Helminth parasites secrete a wide variety of immunomodulatory proteins and lipids to dampen host immune responses. Many of these immunomodulatory compounds are modified with complex sugar structures (or glycans), which play an important role at the host–parasite interface. As an example, the human blood fluke Schistosoma mansoni produces highly fucosylated glycan structures on glycoproteins and glycolipids. Up to 20 different S. mansoni fucosyltransferase (SmFucT) genes can be found in genome databases, but thus far only one enzyme has been functionally characterized. To unravel the synthesis of highly fucosylated N-glycans by S. mansoni, we examined the ability of ten selected SmFucTs to modify N-glycans upon transient expression in Nicotiana benthamiana plants. All enzymes were localized in the plant Golgi apparatus, which allowed us to identify the SmFucTs involved in core fucosylation and the synthesis of complex antennary glycan motifs. This knowledge provides a starting point for investigations into the role of specific fucosylated glycan motifs of schistosomes in parasite-host interactions. The functionally characterized SmFucTs can also be applied to synthesize complex N-glycan structures on recombinant proteins to study their contribution to immunomodulation. Furthermore, this plant expression system will fuel the development of helminth glycoproteins for pharmaceutical applications or novel anti-helminth vaccines.

Published
2020

14. The helminth glycoprotein omega‐1 improves metabolic homeostasis in obese mice through type 2 immunity‐independent inhibition of food intake

Author

Zande, Hendrik J.P., primary, Gonzalez, Michael A., additional, Ruiter, Karin, additional, Wilbers, Ruud H.P., additional, García‐Tardón, Noemí, additional, Huizen, Mariska, additional, Noort, Kim, additional, Pelgrom, Leonard R., additional, Lambooij, Joost M., additional, Zawistowska‐Deniziak, Anna, additional, Otto, Frank, additional, Ozir‐Fazalalikhan, Arifa, additional, Willigen, Danny, additional, Welling, Mick, additional, Poles, Jordan, additional, Leeuwen, Fijs, additional, Hokke, Cornelis H., additional, Schots, Arjen, additional, Yazdanbakhsh, Maria, additional, Loke, P'ng, additional, and Guigas, Bruno, additional

Published
2021
Full Text
View/download PDF

15. Conserved codon adaptation in highly expressed genes is associated with higher regularity in mRNA secondary structures

Author

Sterken, Mark G., primary, Wilbers, Ruud H.P., additional, Prins, Pjotr, additional, Snoek, Basten L., additional, Giambasu, George M., additional, Slootweg, Erik, additional, Holterman, Martijn H.M., additional, Helder, Johannes, additional, Kammenga, Jan E., additional, Schots, Arjen, additional, Bakker, Jaap, additional, and Westerhof, Lotte B., additional

Published
2020
Full Text
View/download PDF

16. Nicotiana benthamianaα-galactosidase A1.1 can functionally complement human α-galactosidase A deficiency associated with Fabry disease

Author

Kytidou, Kassiani, Beekwilder, Jules, Artola, Marta, Meel, Eline, van, Wilbers, Ruud H.P., Moolenaar, Geri F., Goosen, Nora, Ferraz, Maria J., Katzy, Rebecca, Voskamp, Patrick, Florea, Bogdan I., Hokke, Cornelis H., Overkleeft, Herman S., Schots, Arjen, Bosch, Dirk, Pannu, Navraj, Aerts, Johannes M.F.G., Kytidou, Kassiani, Beekwilder, Jules, Artola, Marta, Meel, Eline, van, Wilbers, Ruud H.P., Moolenaar, Geri F., Goosen, Nora, Ferraz, Maria J., Katzy, Rebecca, Voskamp, Patrick, Florea, Bogdan I., Hokke, Cornelis H., Overkleeft, Herman S., Schots, Arjen, Bosch, Dirk, Pannu, Navraj, and Aerts, Johannes M.F.G.

Abstract

α-Galactosidases (EC 3.2.1.22) are retaining glycosidases that cleave terminal α-linked galactose residues from glycoconjugate substrates. α-Galactosidases take part in the turnover of cell wall-associated galactomannans in plants and in the lysosomal degradation of glycosphingolipids in animals. Deficiency of human α-galactosidase A (α-Gal A) causes Fabry disease (FD), a heritable, X-linked lysosomal storage disorder, characterized by accumulation of globotriaosylceramide (Gb3) and globotriaosylsphingosine (lyso-Gb3). Current management of FD involves enzyme-replacement therapy (ERT). An activitybased probe (ABP) covalently labeling the catalytic nucleophile of α-Gal A has been previously designed to study α-galactosidases for use in FD therapy. Here, we report that this ABP labels proteins in Nicotiana benthamiana leaf extracts, enabling the identification and biochemical characterization of an N. benthamiana α-galactosidase we name here A1.1 (gene accession ID GJZM-1660). The transiently overexpressed and purified enzyme was a monomer lacking N-glycans and was active toward 4-methylumbelliferyl-α-D-galactopyranoside substrate (Km = 0.17 mM) over a broad pH range. A1.1 structural analysis by X-ray crystallography revealed marked similarities with human α-Gal A, even including A1.1's ability to hydrolyze Gb3 and lyso-Gb3, which are not endogenous in plants. Of note, A1.1 uptake into FD fibroblasts reduced the elevated lyso-Gb3 levels in these cells, consistent with A1.1 delivery to lysosomes as revealed by confocal microscopy. The ease of production and the features of A1.1, such as stability over a broad pH range, combined with its capacity to degrade glycosphingolipid substrates, warrant further examination of its value as a potential therapeutic agent for ERT-based FD management.

Published
2018

17. Granulocyte-macrophage colony-stimulating factor negatively regulates early IL-10-mediated responses

Author

Wilbers, Ruud H.P., Westerhof, Lotte B., Van Raaij, Debbie R., Bakker, Jaap, Smant, Geert, Schots, Arjen, Wilbers, Ruud H.P., Westerhof, Lotte B., Van Raaij, Debbie R., Bakker, Jaap, Smant, Geert, and Schots, Arjen

Abstract

Aim: Treatment of inflammatory disorders relies on the intervention in immune responses thereby restoring homeostasis. IL-10 is a cytokine with therapeutic potential, but until now has not been as successful as previously anticipated. A reason for this may be that IL-10 responsiveness depends on the environment of the inflamed tissue. In this study we investigated whether GM-CSF is able to influence IL-10-mediated responses. Methodology: Dendritic cells and macrophages were differentiated from mouse bone marrow and treated or depleted from GM-CSF prior to analyze their response to IL-10. Activity was assessed by measuring cytokine expression upon lipopolysaccharide stimulation, IL-10-induced signaling and downstream gene expression. Conclusion: This study describes that GM-CSF negatively regulates IL-10-mediated responses.

Published
2018

18. The helminth glycoprotein omega‐1 improves metabolic homeostasis in obese mice through type 2 immunity‐independent inhibition of food intake.

Author

van der Zande, Hendrik J.P., Gonzalez, Michael A., de Ruiter, Karin, Wilbers, Ruud H.P., García‐Tardón, Noemí, van Huizen, Mariska, van Noort, Kim, Pelgrom, Leonard R., Lambooij, Joost M., Zawistowska‐Deniziak, Anna, Otto, Frank, Ozir‐Fazalalikhan, Arifa, van Willigen, Danny, Welling, Mick, Poles, Jordan, van Leeuwen, Fijs, Hokke, Cornelis H., Schots, Arjen, Yazdanbakhsh, Maria, and Loke, P'ng

Published
2021
Full Text
View/download PDF

19. Feeding preference as a main determinant of microscale patchiness among terrestrial nematodes

Author

Quist, Casper W., Gort, Gerrit, Mulder, Christian, Wilbers, Ruud H.P., Termorshuizen, Aad J., Bakker, Jaap, Helder, Hans, Quist, Casper W., Gort, Gerrit, Mulder, Christian, Wilbers, Ruud H.P., Termorshuizen, Aad J., Bakker, Jaap, and Helder, Hans

Abstract

Soil biota are responsible for essential ecosystem services such as carbon storage, nutrient cycling and water retention. However, assessment of the condition of soil biota is hampered by an overwhelming level of diversity. With representatives in all trophic levels of the food web, nematode communities can be used as bioindicators. Accurate assessment of nematode assemblages requires insight into the distribution of specimens with distinct food preferences. With the availability of taxon-specific quantitative PCR assays, distribution patterns of multiple nematode groups can be investigated simultaneously. Here, microscale patchiness of 45 nematode taxa was studied on 12 sampling sites (each with four adjacent microplots) located on arable fields or semi-natural grasslands (‘system’), and on marine, river clay or sandy soils (‘soil type’). From each microplot, five composite samples were collected. Contrary to our expectations, an increase in the number of cores per composite sample did not result in more accurate measurements, and apparently the levels of microscale patchiness of the taxa are low compared to what has been reported for oligophagous plant-parasites. System and soil type did not affect microscale distribution. To investigate the level of patchiness in more detail, detection probability (DP) and variability of abundances were calculated. Common and widespread bacterivorous and fungivorous taxa had DP ≥ 90%, confirming low level of microscale patchiness. With DPs of 40%–70%, predators and most omnivores showed degrees of local clustering. An overview of mean variabilities of abundances is presented that offers insight into how feeding preferences impact the microscale distribution both between and within trophic groups.

Published
2017

20. Re-evaluation of IL-10 signaling reveals novel insights on the contribution of the intracellular domain of the IL-10R2 chain

Author

Wilbers, Ruud H.P., Raaij, Debbie R., Van, Westerhof, Lotte B., Bakker, Jaap, Smant, Geert, Schots, Arjen, Wilbers, Ruud H.P., Raaij, Debbie R., Van, Westerhof, Lotte B., Bakker, Jaap, Smant, Geert, and Schots, Arjen

Abstract

Interleukin-10 (IL-10) is an anti-inflammatory cytokine that plays a key role in maintainingimmune homeostasis. IL-10-mediated responses are triggered upon binding to a heterodimericreceptor complex consisting of IL-10 receptor (IL-10R)1 and IL-10R2. Engagementof the IL-10R complex activates the intracellular kinases Jak1 and Tyk2, but the exact rolesof IL-10R2 and IL-10R2-associated signaling via Tyk2 remain unclear. To elucidate the contributionof IL-10R2 and its signaling to IL-10 activity, we re-evaluated IL-10-mediatedresponses on bone marrow-derived dendritic cells, macrophages and mast cells. By usingbone marrow from IL-10R-/- mice it was revealed that IL-10-mediated responses depend onboth IL-10R1 and IL-10R2 in all three cell types. On the contrary, bone marrow-derived cellsfrom Tyk2-/- mice showed similar responses to IL-10 as wild-type cells, indicating that signalingvia this IL-10R2-associated kinase only plays a limited role. Tyk2 was shown to controlthe amplitude of STAT3 activation and the up-regulation of downstream SOCS3 expression.SOCS3 up-regulation was found to be cell-type dependent and correlated with the lack ofearly suppression of LPS-induced TNF-α in dendritic cells. Further investigation of the IL-10R complex revealed that both the extracellular and intracellular domains of IL-10R2 influencethe conformation of IL-10R1 and that both domains were required for transducing IL-10 signals. This observation highlights a novel role for the intracellular domain of IL-10R2 inthe molecular mechanisms of IL-10R activation.

Published
2017

21. Production and glyco-engineering of immunomodulatory helminth glycoproteins in plants

Author

Wilbers, Ruud H.P., Westerhof, Lotte B., Van Noort, Kim, Obieglo, Katja, Driessen, Nicole N., Everts, Bart, Gringhuis, Sonja I., Schramm, Gabriele, Goverse, Aska, Smant, Geert, Bakker, Jaap, Smits, Hermelijn H., Yazdanbakhsh, Maria, Schots, Arjen, Hokke, Cornelis H., Wilbers, Ruud H.P., Westerhof, Lotte B., Van Noort, Kim, Obieglo, Katja, Driessen, Nicole N., Everts, Bart, Gringhuis, Sonja I., Schramm, Gabriele, Goverse, Aska, Smant, Geert, Bakker, Jaap, Smits, Hermelijn H., Yazdanbakhsh, Maria, Schots, Arjen, and Hokke, Cornelis H.

Abstract

Helminth parasites control host-immune responses by secreting immunomodulatory glycoproteins. Clinical trials and mouse model studies have demonstrated the potential of helminth-derived glycoproteins for the treatment of immune-related diseases, like allergies and autoimmune diseases. Studies are however hampered by the limited availability of native parasite-derived proteins. Moreover, recombinant protein production systems have thus far been unable to reconstitute helminth-like glycosylation essential for the functionality of some helminth glycoproteins. Here we exploited the flexibility of the N-glycosylation machinery of plants to reconstruct the helminth glycoproteins omega-1 and kappa-5, two major constituents of immunomodulatory Schistosoma mansoni soluble egg antigens. Fine-tuning transient co-expression of specific glycosyltransferases in Nicotiana benthamiana enabled the synthesis of Lewis X (LeX) and LDN/LDN-F glycan motifs as found on natural omega-1 and kappa-5, respectively. In vitro and in vivo evaluation of the introduction of native LeX motifs on plant-produced omega-1 confirmed that LeX on omega-1 contributes to the glycoprotein’s Th2-inducing properties. These data indicate that mimicking the complex carbohydrate structures of helminths in plants is a promising strategy to allow targeted evaluation of therapeutic glycoproteins for the treatment of inflammatory disorders. In addition, our results offer perspectives for the development of effective anti-helminthic vaccines by reconstructing native parasite glycoprotein antigens.

Published
2017

22. Type I interferon is required for T helper (Th) 2 induction by dendritic cells

Author

Webb, Lauren M., Lundie, Rachel J., Borger, Jessica G., Brown, Sheila L., Connor, Lisa M., Cartwright, Adam N.R., Dougall, Annette M., Wilbers, Ruud H.P., Cook, Peter C., Jackson-Jones, Lucy H., Phythian-Adams, Alexander T., Johansson, Cecilia, Davis, Daniel M., Dewals, Benjamin G., Ronchese, Franca, Macdonald, Andrew S., Webb, Lauren M., Lundie, Rachel J., Borger, Jessica G., Brown, Sheila L., Connor, Lisa M., Cartwright, Adam N.R., Dougall, Annette M., Wilbers, Ruud H.P., Cook, Peter C., Jackson-Jones, Lucy H., Phythian-Adams, Alexander T., Johansson, Cecilia, Davis, Daniel M., Dewals, Benjamin G., Ronchese, Franca, and Macdonald, Andrew S.

Abstract

Type 2 inflammation is a defining feature of infection with parasitic worms (helminths), as well as being responsible for widespread suffering in allergies. However, the precise mechanisms involved in T helper (Th) 2 polarization by dendritic cells (DCs) are currently unclear. We have identified a previously unrecognized role for type I IFN (IFN-I) in enabling this process. An IFN-I signature was evident in DCs responding to the helminth Schistosoma mansoni or the allergen house dust mite (HDM). Further, IFN-I signaling was required for optimal DC phenotypic activation in response to helminth antigen (Ag), and efficient migration to, and localization with, T cells in the draining lymph node (dLN). Importantly, DCs generated from Ifnar1-/- mice were incapable of initiating Th2 responses in vivo. These data demonstrate for the first time that the influence of IFN-I is not limited to antiviral or bacterial settings but also has a central role to play in DC initiation of Th2 responses.

Published
2017

23. Schistosome egg antigens, including the glycoprotein IPSE/alpha-1, trigger the development of regulatory B cells

Author

Haeberlein, Simone, Obieglo, Katja, Ozir-Fazalalikhan, Arifa, Chayé, Mathilde A.M., Veninga, Henrike, van der Vlugt, Luciën E.P.M., Voskamp, Astrid, Boon, Louis, den Haan, Joke M.M., Westerhof, Lotte B., Wilbers, Ruud H.P., Schots, Arjen, Schramm, Gabriele, Hokke, Cornelis H., Smits, Hermelijn H., Haeberlein, Simone, Obieglo, Katja, Ozir-Fazalalikhan, Arifa, Chayé, Mathilde A.M., Veninga, Henrike, van der Vlugt, Luciën E.P.M., Voskamp, Astrid, Boon, Louis, den Haan, Joke M.M., Westerhof, Lotte B., Wilbers, Ruud H.P., Schots, Arjen, Schramm, Gabriele, Hokke, Cornelis H., and Smits, Hermelijn H.

Abstract

Infection with the helminth Schistosoma (S.) mansoni drives the development of interleukin (IL)-10-producing regulatory B (Breg) cells in mice and man, which have the capacity to reduce experimental allergic airway inflammation and are thus of high therapeutic interest. However, both the involved antigen and cellular mechanisms that drive Breg cell development remain to be elucidated. Therefore, we investigated whether S. mansoni soluble egg antigens (SEA) directly interact with B cells to enhance their regulatory potential, or act indirectly on B cells via SEA-modulated macrophage subsets. Intraperitoneal injections of S. mansoni eggs or SEA significantly upregulated IL-10 and CD86 expression by marginal zone B cells. Both B cells as well as macrophages of the splenic marginal zone efficiently bound SEA in vivo, but macrophages were dispensable for Breg cell induction as shown by macrophage depletion with clodronate liposomes. SEA was internalized into acidic cell compartments of B cells and induced a 3-fold increase of IL-10, which was dependent on endosomal acidification and further enhanced by CD40 ligation. IPSE/alpha-1, one of the major antigens in SEA, was also capable of inducing IL-10 in naïve B cells, which was reproduced by tobacco plant-derived recombinant IPSE. Other major schistosomal antigens, omega-1 and kappa-5, had no effect. SEA depleted of IPSE/alpha-1 was still able to induce Breg cells indicating that SEA contains more Breg cell-inducing components. Importantly, SEA- and IPSE-induced Breg cells triggered regulatory T cell development in vitro. SEA and recombinant IPSE/alpha-1 also induced IL-10 production in human CD1d+B cells. In conclusion, the mechanism of S. mansoni-induced Breg cell development involves a direct targeting of B cells by SEA components such as the secretory glycoprotein IPSE/alpha-1.

Published
2017

24. Physical Interaction of T Cells with Dendritic Cells Is Not Required for the Immunomodulatory Effects of the Edible Mushroom Agaricus subrufescens

Author

Wilbers, Ruud H.P., Westerhof, Lotte B., Velde, Jan, van de, Smant, Geert, Valkenburg-van Raaij, Debbie, Sonnenberg, Anton S.M., Bakker, Jaap, Schots, Arjen, Wilbers, Ruud H.P., Westerhof, Lotte B., Velde, Jan, van de, Smant, Geert, Valkenburg-van Raaij, Debbie, Sonnenberg, Anton S.M., Bakker, Jaap, and Schots, Arjen

Abstract

Mushrooms are well known for their immunomodulating capacities. However, little is known about how mushroom-stimulated dendritic cells (DCs) affect T cells. Therefore, we investigated the effect of mushroom compounds derived from seven edible mushroom species on DCs, their fate in DCs, and the effect of the mushroom-stimulated DCs on T cells. Each mushroom species stimulated DCs in a different manner as was revealed from the DC’s cytokine response. Assessing DC maturation revealed that only one mushroom species, Agaricus subrufescens, induced complete DC maturation. The other six mushroom species upregulated MHC-II and CD86 expression, but did not significantly affect the expression of CD40 and CD11c. Nevertheless, mushroom compounds of all investigated mushroom species are endocytosed by DCs. Endocytosis is most likely mediated by C-type lectin receptors (CLRs) because CLR binding is Ca2+ dependent, and EGTA reduces TNF-α secretion with more than 90%. Laminarin partly inhibited TNF-α secretion indicating that the CLR dectin-1, among other CLRs, is involved in binding mushroom compounds. Stimulated DCs were shown to stimulate T cells; however, physical contact of DCs and T cells is not required. Because CLRs seem to play a prominent role in DC stimulation, mushrooms may function as a carbohydrate containing adjuvant to be used in conjunction with anti-fungal vaccines.

Published
2016

Catalog

Books, media, physical & digital resources
See catalog results