Your search keyword '"Beeren, I.M.J."' showing total 8 results

1. Single-cell analysis reveals that stochasticity and paracrine signaling control interferon-alpha production by plasmacytoid dendritic cells

Author

Wimmers, F., Subedi, Nikita, Buuringen, Nicole van, Heister, Daan, Vivie, Judith, Reinieren-Beeren, I.M.J., Woestenenk, R.M., Dolstra, H., Piruska, A., Jacobs, J.F.M., Figdor, C.G., Vries, I.J.M. de, Huck, W.T.S., Tel, J., Wimmers, F., Subedi, Nikita, Buuringen, Nicole van, Heister, Daan, Vivie, Judith, Reinieren-Beeren, I.M.J., Woestenenk, R.M., Dolstra, H., Piruska, A., Jacobs, J.F.M., Figdor, C.G., Vries, I.J.M. de, Huck, W.T.S., and Tel, J.

Abstract

Contains fulltext : 194897.pdf (publisher's version ) (Open Access)

Published

2018

2. Survival of metastatic melanoma patients after dendritic cell vaccination correlates with expression of leukocyte phosphatidylethanolamine-binding protein 1/Raf kinase inhibitory protein

Author

Buschow, S.I., Ramazzotti, M., Reinieren-Beeren, I.M.J., Heinzerling, L.M., Westdorp, H., Stefanini, I., Beltrame, L., Hato, S.V., Ellebaek, E., Gross, S., Nguyen, V.A., Weinlich, G., Ragoussis, J., Baban, D., Schuler-Thurner, B., Svane, I.M., Romani, N., Austyn, J.M., Vries, I.J.M. de, Schuler, G., Cavalieri, D., Figdor, C.G., Buschow, S.I., Ramazzotti, M., Reinieren-Beeren, I.M.J., Heinzerling, L.M., Westdorp, H., Stefanini, I., Beltrame, L., Hato, S.V., Ellebaek, E., Gross, S., Nguyen, V.A., Weinlich, G., Ragoussis, J., Baban, D., Schuler-Thurner, B., Svane, I.M., Romani, N., Austyn, J.M., Vries, I.J.M. de, Schuler, G., Cavalieri, D., and Figdor, C.G.

Abstract

Item does not contain fulltext, Immunotherapy for metastatic melanoma offers great promise but, to date, only a subset of patients have responded. There is an urgent need to identify ways of allocating patients to the most beneficial therapy, to increase survival and decrease therapy-associated morbidity and costs. Blood-based biomarkers are of particular interest because of their straightforward implementation in routine clinical care. We sought to identify markers for dendritic cell (DC) vaccine-based immunotherapy against metastatic melanoma through gene expression analysis of peripheral blood mononuclear cells. A large-scale microarray analysis of 74 samples from two treatment centers, taken directly after the first round of DC vaccination, was performed. We found that phosphatidylethanolamine binding protein 1 (PEBP1)/Raf Kinase inhibitory protein (RKIP) expression can be used to identify a significant proportion of patients who performed poorly after DC vaccination. This result was validated by q-PCR analysis on blood samples from a second cohort of 95 patients treated with DC vaccination in four different centers. We conclude that low PEBP1 expression correlates with poor overall survival after DC vaccination. Intriguingly, this was only the case for expression of PEBP1 after, but not prior to, DC vaccination. Moreover, the change in PEBP1 expression upon vaccination correlated well with survival. Further analyses revealed that PEBP1 expression positively correlated with genes involved in T cell responses but inversely correlated with genes associated with myeloid cells and aberrant inflammation including STAT3, NOTCH1, and MAPK1. Concordantly, PEBP1 inversely correlated with the myeloid/lymphoid-ratio and was suppressed in patients suffering from chronic inflammatory disease.

Published

2017

3. N-glycan mediated adhesion strengthening during pathogen-receptor binding revealed by cell-cell force spectroscopy

Author

Riet, J. te, Joosten, B.H., Reinieren-Beeren, I.M.J., Figdor, C.G., Cambi, A., Riet, J. te, Joosten, B.H., Reinieren-Beeren, I.M.J., Figdor, C.G., and Cambi, A.

Abstract

Contains fulltext : 176896.pdf (publisher's version ) (Open Access), Glycan-protein lateral interactions have gained increased attention as important modulators of receptor function, by regulating surface residence time and endocytosis of membrane glycoproteins. The pathogen-recognition receptor DC-SIGN is highly expressed at the membrane of antigen-presenting dendritic cells, where it is organized in nanoclusters and binds to different viruses, bacteria and fungi. We recently demonstrated that DC-SIGN N-glycans spatially restrict receptor diffusion within the plasma membrane, favoring its internalization through clathrin-coated pits. Here, we investigated the involvement of the N-glycans of DC-SIGN expressing cells on pathogen binding strengthening when interacting with Candida fungal cells by using atomic force microscope (AFM)-assisted single cell-pathogen adhesion measurements. The use of DC-SIGN mutants lacking the N-glycans as well as blocking glycan-mediated lateral interactions strongly impaired cell stiffening during pathogen binding. Our findings demonstrate for the first time the direct involvement of the cell membrane glycans in strengthening cell-pathogen interactions. This study, therefore, puts forward a possible role for the glycocalyx as extracellular cytoskeleton contributing, possibly in connection with the intracellular actin cytoskeleton, to optimize strengthening of cell-pathogen interactions in the presence of mechanical forces.

Published

2017

4. Harnessing RNA sequencing for global, unbiased evaluation of two new adjuvants for dendritic-cell immunotherapy

Author

Mathan, T.S.M., Textor, J.C., Sköld, A.E., Reinieren-Beeren, I.M.J., Oorschot, T.G.M. van, Bruning, M., Figdor, C.G., Buschow, S.I., Bakdash, G., Vries, I.J.M. de, Mathan, T.S.M., Textor, J.C., Sköld, A.E., Reinieren-Beeren, I.M.J., Oorschot, T.G.M. van, Bruning, M., Figdor, C.G., Buschow, S.I., Bakdash, G., and Vries, I.J.M. de

Abstract

Contains fulltext : 175043.pdf (Publisher’s version ) (Open Access), Effective stimulation of immune cells is crucial for the success of cancer immunotherapies. Current approaches to evaluate the efficiency of stimuli are mainly defined by known flow cytometry-based cell activation or cell maturation markers. This method however does not give a complete overview of the achieved activation state and may leave important side effects unnoticed. Here, we used an unbiased RNA sequencing (RNA-seq)-based approach to compare the capacity of four clinical-grade dendritic cell (DC) activation stimuli used to prepare DC-vaccines composed of various types of DC subsets; the already clinically applied GM-CSF and Fruhsommer meningoencephalitis (FSME) prophylactic vaccine and the novel clinical grade adjuvants protamine-RNA complexes (pRNA) and CpG-P. We found that GM-CSF and pRNA had similar effects on their target cells, whereas pRNA and CpG-P induced stronger type I interferon (IFN) expression than FSME. In general, the pathways most affected by all stimuli were related to immune activity and cell migration. GM-CSF stimulation, however, also induced a significant increase of genes related to nonsense-mediated decay, indicating a possible deleterious effect of this stimulus. Taken together, the two novel stimuli appear to be promising alternatives. Our study demonstrates how RNA-seq based investigation of changes in a large number of genes and gene groups can be exploited for fast and unbiased, global evaluation of clinical-grade stimuli, as opposed to the general limited evaluation of a pre-specified set of genes, by which one might miss important biological effects that are detrimental for vaccine efficacy.

Published

2017

5. AFM force spectroscopy reveals how subtle structural differences affect the interaction strength between Candida albicans and DC-SIGN

Author

Riet, J. te, Reinieren-Beeren, I.M.J., Figdor, C.G., and Cambi, A.

Subjects

Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2]

Abstract

Item does not contain fulltext The fungus Candida albicans is the most common cause of mycotic infections in immunocompromised hosts. Little is known about the initial interactions between Candida and immune cell receptors, such as the C-type lectin dendritic cell-specific intracellular cell adhesion molecule-3 (ICAM-3)-grabbing non-integrin (DC-SIGN), because a detailed characterization at the structural level is lacking. DC-SIGN recognizes specific Candida-associated molecular patterns, that is, mannan structures present in the cell wall of Candida. The molecular recognition mechanism is however poorly understood. We postulated that small differences in mannan-branching may result in considerable differences in the binding affinity. Here, we exploit atomic force microscope-based dynamic force spectroscopy with single Candida cells to gain better insight in the carbohydrate recognition capacity of DC-SIGN. We demonstrate that slight differences in the N-mannan structure of Candida, that is, the absence or presence of a phosphomannan side chain, results in differences in the recognition by DC-SIGN as follows: (i) it contributes to the compliance of the outer cell wall of Candida, and (ii) its presence results in a higher binding energy of 1.6 kB T. The single-bond affinity of tetrameric DC-SIGN for wild-type C. albicans is ~10.7 kB T and a dissociation constant kD of 23 muM, which is relatively strong compared with other carbohydrate-protein interactions described in the literature. In conclusion, this study shows that DC-SIGN specifically recognizes mannan patterns on C. albicans with high affinity. Knowledge on the binding pocket of DC-SIGN and its pathogenic ligands will lead to a better understanding of how fungal-associated carbohydrate structures are recognized by receptors of the immune system and can ultimately contribute to the development of new anti-fungal drugs.

Published

2015

6. Changes in membrane sphingolipid composition modulate dynamics and adhesion of integrin nanoclusters

Author

Eich, C., Manzo, C., Keijzer, S. de, Bakker, G.J., Beeren, I.M.J., Garcia-Parajo, M.F., Cambi, A., Eich, C., Manzo, C., Keijzer, S. de, Bakker, G.J., Beeren, I.M.J., Garcia-Parajo, M.F., and Cambi, A.

Abstract

Contains fulltext : 172105.pdf (publisher's version ) (Open Access), Sphingolipids are essential constituents of the plasma membrane (PM) and play an important role in signal transduction by modulating clustering and dynamics of membrane receptors. Changes in lipid composition are therefore likely to influence receptor organisation and function, but how this precisely occurs is difficult to address given the intricacy of the PM lipid-network. Here, we combined biochemical assays and single molecule dynamic approaches to demonstrate that the local lipid environment regulates adhesion of integrin receptors by impacting on their lateral mobility. Induction of sphingomyelinase (SMase) activity reduced sphingomyelin (SM) levels by conversion to ceramide (Cer), resulting in impaired integrin adhesion and reduced integrin mobility. Dual-colour imaging of cortical actin in combination with single molecule tracking of integrins showed that this reduced mobility results from increased coupling to the actin cytoskeleton brought about by Cer formation. As such, our data emphasizes a critical role for the PM local lipid composition in regulating the lateral mobility of integrins and their ability to dynamically increase receptor density for efficient ligand binding in the process of cell adhesion.

Published

2016

7. Proteome Based Construction of the Lymphocyte Function-Associated Antigen 1 (LFA-1) Interactome in Human Dendritic Cells

Author

Eich, C., Lasonder, E., Cruz, L.J., Reinieren-Beeren, I.M.J., Cambi, A., Figdor, C.G., Buschow, S.I., Eich, C., Lasonder, E., Cruz, L.J., Reinieren-Beeren, I.M.J., Cambi, A., Figdor, C.G., and Buschow, S.I.

Abstract

Contains fulltext : 171295.PDF (publisher's version ) (Open Access), The beta2-integrin lymphocyte function-associated antigen 1 (LFA-1) plays an important role in the migration, adhesion and intercellular communication of dendritic cells (DCs). During the differentiation of human DCs from monocyte precursors, LFA-1 ligand binding capacity is completely lost, even though its expression levels were remained constant. Yet LFA-1-mediated adhesive capacity on DCs can be regained by exposing DCs to the chemokine CCL21, suggesting a high degree of regulation of LFA-1 activity during the course of DC differentiation. The molecular mechanisms underlying this regulation of LFA-1 function in DCs, however, remain elusive. To get more insight we attempted to identify specific LFA-1 binding partners that may play a role in regulating LFA-1 activity in DCs. We used highly sensitive label free quantitative mass-spectrometry to identify proteins co-immunoprecipitated (co-IP) with LFA-1 from ex vivo generated DCs. Among the potential binding partners we identified not only established components of integrin signalling pathways and cytoskeletal proteins, but also several novel LFA-1 binding partners including CD13, galectin-3, thrombospondin-1 and CD44. Further comparison to the LFA-1 interaction partners in monocytes indicated that DC differentiation was accompanied by an overall increase in LFA-1 associated proteins, in particular cytoskeletal, signalling and plasma membrane (PM) proteins. The here presented LFA-1 interactome composed of 78 proteins thus represents a valuable resource of potential regulators of LFA-1 function during the DC lifecycle.

Published

2016

8. Semaphorin 7A Promotes Chemokine-Driven Dendritic Cell Migration

Author

Rijn, A. van, Paulis, L.E.M., Riet, J. te, Vasaturo, A., Reinieren-Beeren, I.M.J., Schaaf, A. van der, Kuipers, A.J., Schulte, L.P., Jongbloets, B.C., Pasterkamp, R.J., Figdor, C.G., Spriel, A.B. van, Buschow, S.I., Rijn, A. van, Paulis, L.E.M., Riet, J. te, Vasaturo, A., Reinieren-Beeren, I.M.J., Schaaf, A. van der, Kuipers, A.J., Schulte, L.P., Jongbloets, B.C., Pasterkamp, R.J., Figdor, C.G., Spriel, A.B. van, and Buschow, S.I.

Abstract

Contains fulltext : 167539.pdf (publisher's version ) (Closed access), Dendritic cell (DC) migration is essential for efficient host defense against pathogens and cancer, as well as for the efficacy of DC-based immunotherapies. However, the molecules that induce the migratory phenotype of DCs are poorly defined. Based on a large-scale proteome analysis of maturing DCs, we identified the GPI-anchored protein semaphorin 7A (Sema7A) as being highly expressed on activated primary myeloid and plasmacytoid DCs in human and mouse. We demonstrate that Sema7A deficiency results in impaired chemokine CCL21-driven DC migration in vivo. Impaired formation of actin-based protrusions, resulting in slower three-dimensional migration, was identified as the mechanism underlying the DC migration defect. Furthermore, we show, by atomic force microscopy, that Sema7A decreases adhesion strength to extracellular matrix while increasing the connectivity of adhesion receptors to the actin cytoskeleton. This study demonstrates that Sema7A controls the assembly of actin-based protrusions that drive DC migration in response to CCL21.

Published

2016