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2. Influence of microbiota-associated metabolic reprogramming on clinical outcome in patients with melanoma from the randomized adjuvant dendritic cell-based MIND-DC trial

Author

Silva, Carolina Alves Costa, Piccinno, Gianmarco, Suissa, Deborah, Bourgin, Melanie, Schreibelt, G., Durand, Sylvere, Bol, K.F., Vries, I.J.M. de, Silva, Carolina Alves Costa, Piccinno, Gianmarco, Suissa, Deborah, Bourgin, Melanie, Schreibelt, G., Durand, Sylvere, Bol, K.F., and Vries, I.J.M. de

Abstract

Contains fulltext : 304967.pdf (Publisher’s version ) (Open Access)

Published
2024

4. Human Dendritic Cell Subset Isolation by Magnetic Bead Sorting: A Protocol to Efficiently Obtain Pure Populations.

Author

Flórez-Grau, G., Cuenca Escalona, J., Lacasta-Mambo, H., Roelofs, D., Bödder, J., Beuk, R., Schreibelt, G., Vries, I.J.M. de, Flórez-Grau, G., Cuenca Escalona, J., Lacasta-Mambo, H., Roelofs, D., Bödder, J., Beuk, R., Schreibelt, G., and Vries, I.J.M. de

Abstract

Contains fulltext : 299981.pdf (Publisher’s version ) (Open Access), Dendritic cells have been investigated for cell-based immunotherapy for various applications. The low abundance of dendritic cells in blood hampers their clinical application, resulting in the use of monocyte-derived dendritic cells as an alternative cell type. Limited knowledge is available regarding blood-circulating human dendritic cells, which can be divided into three subsets: type 2 conventional dendritic cells, type 1 conventional dendritic cells, and plasmacytoid dendritic cells. These subsets exhibit unique and desirable features for dendritic cell-based therapies. To enable efficient and reliable human research on dendritic cell subsets, we developed an efficient isolation protocol for the three human dendritic cell subsets, resulting in pure populations. The sequential steps include peripheral blood mononuclear cell isolation, magnetic-microbead lineage depletion (CD14, CD56, CD3, and CD19), and individual magnetic-microbead isolation of the three human dendritic cell subsets.

Published
2023

5. Guidelines for mouse and human DC generation.

Author

Lutz, M.B., Ali, S., Audiger, C., Autenrieth, S.E., Berod, L., Bigley, V., Cyran, L., Dalod, M., Dörrie, J., Dudziak, D., Flórez-Grau, G., Giusiano, L., Godoy, G.J., Heuer, M., Krug, A.B., Lehmann, Christine, Mayer, C.T., Naik, S.H., Scheu, S., Schreibelt, G., Segura, E., Seré, K., Sparwasser, T., Tel, J., Xu, H., Zenke, M., Lutz, M.B., Ali, S., Audiger, C., Autenrieth, S.E., Berod, L., Bigley, V., Cyran, L., Dalod, M., Dörrie, J., Dudziak, D., Flórez-Grau, G., Giusiano, L., Godoy, G.J., Heuer, M., Krug, A.B., Lehmann, Christine, Mayer, C.T., Naik, S.H., Scheu, S., Schreibelt, G., Segura, E., Seré, K., Sparwasser, T., Tel, J., Xu, H., and Zenke, M.

Abstract

Contains fulltext : 300053.pdf (Publisher’s version ) (Open Access), This article is part of the Dendritic Cell Guidelines article series, which provides a collection of state-of-the-art protocols for the preparation, phenotype analysis by flow cytometry, generation, fluorescence microscopy, and functional characterization of mouse and human dendritic cells (DC) from lymphoid organs and various non-lymphoid tissues. This article provides protocols with top ticks and pitfalls for preparation and successful generation of mouse and human DC from different cellular sources, such as murine BM and HoxB8 cells, as well as human CD34(+) cells from cord blood, BM, and peripheral blood or peripheral blood monocytes. We describe murine cDC1, cDC2, and pDC generation with Flt3L and the generation of BM-derived DC with GM-CSF. Protocols for human DC generation focus on CD34(+) cell culture on OP9 cell layers for cDC1, cDC2, cDC3, and pDC subset generation and DC generation from peripheral blood monocytes (MoDC). Additional protocols include enrichment of murine DC subsets, CRISPR/Cas9 editing, and clinical grade human DC generation. While all protocols were written by experienced scientists who routinely use them in their work, this article was also peer-reviewed by leading experts and approved by all co-authors, making it an essential resource for basic and clinical DC immunologists., 01 november 2023

Published
2023

6. Dendritic Cell-Based Cancer Vaccines

Author

Westdorp, H., Bol, K. F., Coşkuntürk, M., Schreibelt, G., de Vries, I. J. M., Figdor, C. G., Britten, Cedrik Michael, editor, Kreiter, Sebastian, editor, Diken, Mustafa, editor, and Rammensee, Hans-Georg, editor

Published
2014
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8. Immunological responses to adjuvant vaccination with combined CD1c(+) myeloid and plasmacytoid dendritic cells in stage III melanoma patients

Author

Bloemendal, M., Bol, K.F., Boudewijns, S, Gorris, M.A.J., Wilt, J.H.W. de, Croockewit, S., Rossum, M.M. van, Goede, A.L. de, Koornstra, R.H., Figdor, C.G., Gerritsen, W.R., Schreibelt, G., Vries, I.J.M. de, Bloemendal, M., Bol, K.F., Boudewijns, S, Gorris, M.A.J., Wilt, J.H.W. de, Croockewit, S., Rossum, M.M. van, Goede, A.L. de, Koornstra, R.H., Figdor, C.G., Gerritsen, W.R., Schreibelt, G., and Vries, I.J.M. de

Abstract

Contains fulltext : 242757.pdf (Publisher’s version ) (Open Access)

Published
2022

9. Trial watch: Dendritic cell (DC)-based immunotherapy for cancer

Author

Laureano, R.S., Sprooten, J., Vanmeerbeerk, I., Borras, D.M., Govaerts, J., Naulaerts, S., Berneman, Z.N., Beuselinck, B., Bol, K.F., Borst, J., Coosemans, A., Datsi, A., Fučíková, J., Kinget, L., Neyns, B., Schreibelt, G., Smits, E., Sorg, R.V., Spisek, R., Thielemans, K., Tuyaerts, S., Vleeschouwer, S. De, Vries, I.J.M. de, Xiao, Y., Garg, A.D., Laureano, R.S., Sprooten, J., Vanmeerbeerk, I., Borras, D.M., Govaerts, J., Naulaerts, S., Berneman, Z.N., Beuselinck, B., Bol, K.F., Borst, J., Coosemans, A., Datsi, A., Fučíková, J., Kinget, L., Neyns, B., Schreibelt, G., Smits, E., Sorg, R.V., Spisek, R., Thielemans, K., Tuyaerts, S., Vleeschouwer, S. De, Vries, I.J.M. de, Xiao, Y., and Garg, A.D.

Abstract

Contains fulltext : 283345.pdf (Publisher’s version ) (Open Access), Dendritic cell (DC)-based vaccination for cancer treatment has seen considerable development over recent decades. However, this field is currently in a state of flux toward niche-applications, owing to recent paradigm-shifts in immuno-oncology mobilized by T cell-targeting immunotherapies. DC vaccines are typically generated using autologous (patient-derived) DCs exposed to tumor-associated or -specific antigens (TAAs or TSAs), in the presence of immunostimulatory molecules to induce DC maturation, followed by reinfusion into patients. Accordingly, DC vaccines can induce TAA/TSA-specific CD8(+)/CD4(+) T cell responses. Yet, DC vaccination still shows suboptimal anti-tumor efficacy in the clinic. Extensive efforts are ongoing to improve the immunogenicity and efficacy of DC vaccines, often by employing combinatorial chemo-immunotherapy regimens. In this Trial Watch, we summarize the recent preclinical and clinical developments in this field and discuss the ongoing trends and future perspectives of DC-based immunotherapy for oncological indications.

Published
2022

10. Blood-Brain Barrier Permeability and Monocyte Infiltration in Experimental Allergic Encephalomyelitis

Author

Floris, S., Blezer, E. L. A., and Schreibelt, G.

Abstract

Enhanced cerebrovascular permeability and cellular infiltration mark the onset of early multiple sclerosis lesions. So far, the precise sequence of these events and their role in lesion formation and disease progression remain unknown. Here we provide quantitative evidence that blood-brain barrier leakage is an early event and precedes massive cellular infiltration in the development of acute experimental allergic encephalomyelitis (EAE), the animal correlate of multiple sclerosis. Cerebrovascular leakage and monocytes infiltrates were separately monitored by quantitative "in vivo" MRI during the course of the disease. Magnetic resonance enhancement of the contrast agent gadolinium diethylenetriaminepentaacetate (Gd-DTPA), reflecting vascular leakage, occurred concomitantly with the onset of neurological signs and was already at a maximal level at this stage of the disease. Immunohistochemical analysis also confirmed the presence of the serum-derived proteins such as fibrinogen around the brain vessels early in the disease, whereas no cellular infiltrates could be detected. MRI further demonstrated that Gd-DTPA leakage clearly preceded monocyte infiltration as imaged by the contrast agent based on ultra small particles of iron oxide (USPIO), which was maximal only during full-blown EAE. Ultrastructural and immunohistochemical investigation revealed that USPIOs were present in newly infiltrated macrophages within the inflammatory lesions. To validate the use of USPIOs as a non-invasive tool to evaluate therapeutic strategies, EAE animals were treated with the immunomodulator 3-hydroxy-3-methylglutaryl Coenzyme A reductase inhibitor, lovastatin, which ameliorated clinical scores. MRI showed that the USPIO load in the brain was significantly diminished in lovastatin-treated animals. Data indicate that cerebrovascular leakage and monocytic trafficking into the brain are two distinct processes in the development of inflammatory lesions during multiple sclerosis, which can be monitored on-line with MRI using USPIOs and Gd-DTPA as contrast agents. These studies also implicate that USPIOs are a valuable tool to visualize monocyte infiltration "in vivo" and quantitatively assess the efficacy of new therapeutics like lovastatin.

Published
2004

11. Human type 1 and type 2 conventional dendritic cells express indoleamine 2,3-dioxygenase 1 with functional effects on T cell priming

Author

Sittig, S.P., Beek, J.J.P. van, Flórez-Grau, G., Weiden, J., Buschow, S.I., Net, M.C. van der, Slooten, R. van, Verbeek, M.M., Geurtz, P.B., Textor, J.C., Figdor, C.G., Vries, I.J.M. de, Schreibelt, G., Sittig, S.P., Beek, J.J.P. van, Flórez-Grau, G., Weiden, J., Buschow, S.I., Net, M.C. van der, Slooten, R. van, Verbeek, M.M., Geurtz, P.B., Textor, J.C., Figdor, C.G., Vries, I.J.M. de, and Schreibelt, G.

Abstract

Contains fulltext : 235435.pdf (Publisher’s version ) (Open Access), Dendritic cells (DCs) are key regulators of the immune system that shape T cell responses. Regulation of T cell induction by DCs may occur via the intracellular enzyme indoleamine 2,3-dioxygenase 1 (IDO), which catalyzes conversion of the essential amino acid tryptophan into kynurenine. Here, we examined the role of IDO in human peripheral blood plasmacytoid DCs (pDCs), and type 1 and type 2 conventional DCs (cDC1s and cDC2s). Our data demonstrate that under homeostatic conditions, IDO is selectively expressed by cDC1s. IFN-γ or TLR ligation further increases IDO expression in cDC1s and induces modest expression of the enzyme in cDC2s, but not pDCs. IDO expressed by conventional DCs is functionally active as measured by kynurenine production. Furthermore, IDO activity in TLR-stimulated cDC1s and cDC2s inhibits T cell proliferation in settings were DC-T cell cell-cell contact does not play a role. Selective inhibition of IDO1 with epacadostat, an inhibitor currently tested in clinical trials, rescued T cell proliferation without affecting DC maturation status or their ability to cross-present soluble antigen. Our findings provide new insights into the functional specialization of human blood DC subsets and suggest a possible synergistic enhancement of therapeutic efficacy by combining DC-based cancer vaccines with IDO inhibition.

Published
2021

12. Towards better immunotherapeutic management of cutaneous and uveal melanoma

Author

Vries, I.J.M. de, Gerritsen, W.R., Bol, K.F., Schreibelt, G., Willigen, W.W. van, Vries, I.J.M. de, Gerritsen, W.R., Bol, K.F., Schreibelt, G., and Willigen, W.W. van

Abstract

Radboud University, 14 januari 2021, Promotores : Vries, I.J.M. de, Gerritsen, W.R. Co-promotores : Bol, K.F., Schreibelt, G., Contains fulltext : 228319.pdf (publisher's version ) (Open Access)

Published
2021

13. Challenges of Neoantigen Targeting in Lynch Syndrome and Constitutional Mismatch Repair Deficiency Syndrome

Author

Abidi, A., Gorris, M.A.J., Brennan, E., Jongmans, M.C.J., Weijers, D.D., Kuiper, R.P., Voer, R.M. de, Hoogerbrugge, N., Schreibelt, G., Vries, I.J.M. de, Abidi, A., Gorris, M.A.J., Brennan, E., Jongmans, M.C.J., Weijers, D.D., Kuiper, R.P., Voer, R.M. de, Hoogerbrugge, N., Schreibelt, G., and Vries, I.J.M. de

Abstract

Contains fulltext : 234983.pdf (Publisher’s version ) (Open Access), Lynch syndrome (LS) and constitutional mismatch repair deficiency (CMMRD) are hereditary disorders characterised by a highly increased risk of cancer development. This is due to germline aberrations in the mismatch repair (MMR) genes, which results in a high mutational load in tumours of these patients, including insertions and deletions in genes bearing microsatellites. This generates microsatellite instability and cause reading frameshifts in coding regions that could lead to the generation of neoantigens and opens up avenues for neoantigen targeting immune therapies prophylactically and therapeutically. However, major obstacles need to be overcome, such as the heterogeneity in tumour formation within and between LS and CMMRD patients, which results in considerable variability in the genes targeted by mutations, hence challenging the choice of suitable neoantigens. The machine-learning methods such as NetMHC and MHCflurry that predict neoantigen- human leukocyte antigen (HLA) binding affinity provide little information on other aspects of neoantigen presentation. Immune escape mechanisms that allow MMR-deficient cells to evade surveillance combined with the resistance to immune checkpoint therapy make the neoantigen targeting regimen challenging. Studies to delineate shared neoantigen profiles across patient cohorts, precise HLA binding algorithms, additional therapies to counter immune evasion and evaluation of biomarkers that predict the response of these patients to immune checkpoint therapy are warranted.

Published
2021

15. Harnessing the cDC1-NK Cross-Talk in the Tumor Microenvironment to Battle Cancer

Author

Bödder, J., Zahan, T., Slooten, R. van, Schreibelt, G., Vries, I.J.M. de, Flórez-Grau, G., Bödder, J., Zahan, T., Slooten, R. van, Schreibelt, G., Vries, I.J.M. de, and Flórez-Grau, G.

Abstract

Contains fulltext : 244726.pdf (Publisher’s version ) (Open Access), Immunotherapeutic approaches have revolutionized the treatment of several diseases such as cancer. The main goal of immunotherapy for cancer is to modulate the anti-tumor immune responses by favoring the recognition and destruction of tumor cells. Recently, a better understanding of the suppressive effect of the tumor microenvironment (TME) on immune cells, indicates that restoring the suppressive effect of the TME is crucial for an efficient immunotherapy. Natural killer (NK) cells and dendritic cells (DCs) are cell types that are currently administered to cancer patients. NK cells are used because of their ability to kill tumor cells directly via cytotoxic granzymes. DCs are employed to enhance anti-tumor T cell responses based on their ability to present antigens and induce tumor-antigen specific CD8(+) T cell responses. In preclinical models, a particular DC subset, conventional type 1 DCs (cDC1s) is shown to be specialized in cross-presenting extracellular antigens to CD8(+) T cells. This feature makes them a promising DC subset for cancer treatment. Within the TME, cDC1s show a bidirectional cross-talk with NK cells, resulting in a higher cDC1 recruitment, differentiation, and maturation as well as activation and stimulation of NK cells. Consequently, the presence of cDC1s and NK cells within the TME might be of utmost importance for the success of immunotherapy. In this review, we discuss the function of cDC1s and NK cells, their bidirectional cross-talk and potential strategies that could improve cancer immunotherapy.

Published
2020

16. Response and survival of metastatic melanoma patients treated with immune checkpoint inhibition for recurrent disease on adjuvant dendritic cell vaccination

Author

Willigen, W.W. van, Bloemendal, M., Boers-Sonderen, M.J., Groot, J.W.B. de, Koornstra, R.H., Veldt, A.A.M. van der, Schreibelt, G., Gerritsen, W.R., Vries, I.J.M. de, Bol, K.F., Willigen, W.W. van, Bloemendal, M., Boers-Sonderen, M.J., Groot, J.W.B. de, Koornstra, R.H., Veldt, A.A.M. van der, Schreibelt, G., Gerritsen, W.R., Vries, I.J.M. de, and Bol, K.F.

Abstract

Contains fulltext : 222179.pdf (publisher's version ) (Open Access)

Published
2020

18. High Health-Related Quality of Life During Dendritic Cell Vaccination Therapy in Patients With Castration-Resistant Prostate Cancer

Author

Westdorp, H., Creemers, J.H.A., Oort, I.M. van, Mehra, N., Hins-de Bree, S.M., Figdor, C.G., Witjes, J.A., Schreibelt, G., Vries, I.J.M. de, Gerritsen, W.R., Ottevanger, P.B., Westdorp, H., Creemers, J.H.A., Oort, I.M. van, Mehra, N., Hins-de Bree, S.M., Figdor, C.G., Witjes, J.A., Schreibelt, G., Vries, I.J.M. de, Gerritsen, W.R., and Ottevanger, P.B.

Abstract

Contains fulltext : 229158.pdf (publisher's version ) (Open Access), BACKGROUND: Maintaining health-related quality of life (HRQoL) is highly desirable during systemic therapies for patients with castration-resistant prostate cancer (CRPC). Patient-reported outcome measures (PROs) were studied in our phase IIa trial on cellular-based immunotherapy with dendritic cells (DC). METHODS: We treated 21 chemo-naive asymptomatic or minimally symptomatic patients with CRPC with maximally three cycles of DC vaccinations (ClinicalTrials.gov, NCT02692976). Here, we report the impact of DC vaccination on HRQoL. PROs were assessed using the EORTC-QLQ-C30, the EORTC-QLQ-PR25, Checklist Individual Strength (CIS20-R), and Beck Depression Inventory Primary Care questionnaires. Short-term and long-term vaccine-related effects on HRQoL were studied. RESULTS: Questionnaires were collected at baseline (n=20), week 6 (n=19), week 12 (n=18), week 24 (n=13), week 50 (n=8) and week 100 (n=2). No clinically relevant differences in symptom-related outcome, functioning-related outcome, and Global Health Status were observed directly after the first cycle of DC vaccinations (week 6) and at follow-up (week 12) compared to baseline. HRQoL remained high throughout the vaccination cycle and six weeks afterward. In radiographic non-progressive patients, who continued DC vaccination, high HRQoL scores were observed up to one and two years after study enrolment. CONCLUSIONS: Patients with asymptomatic or minimally symptomatic CRPC show high HRQoL throughout DC-based immunotherapy. This is a clinically relevant finding in this older-aged patient population with advanced prostate cancer.

Published
2020

19. Reinforcing the immune system against cancer

Author

Vries, I.J.M. de, Schreibelt, G., Oort, I.M. van, Westdorp, H., Vries, I.J.M. de, Schreibelt, G., Oort, I.M. van, and Westdorp, H.

Abstract

Radboud University, 20 augustus 2020, Promotor : Vries, I.J.M. de Co-promotores : Schreibelt, G., Oort, I.M. van, Contains fulltext : 217496.pdf (publisher's version ) (Open Access)

Published
2020

20. Autologous monocyte-derived DC vaccination combined with cisplatin in stage III and IV melanoma patients: a prospective, randomized phase 2 trial

Author

Boudewijns, S, Bloemendal, M., Haas, N. de, Westdorp, H., Bol, K.F., Schreibelt, G., Aarntzen, E.H.J.G., Lesterhuis, W.J., Gorris, M.A.J., Croockewit, A.J., Woude, L.L. van der, Rossum, M.M. van, Welzen, M.E., Goede, A.L. de, Hato, S.V., Graaf, W.T.A. van der, Punt, C.J.A., Koornstra, R.H., Gerritsen, W.R., Figdor, C.G., Vries, I.J.M. de, Boudewijns, S, Bloemendal, M., Haas, N. de, Westdorp, H., Bol, K.F., Schreibelt, G., Aarntzen, E.H.J.G., Lesterhuis, W.J., Gorris, M.A.J., Croockewit, A.J., Woude, L.L. van der, Rossum, M.M. van, Welzen, M.E., Goede, A.L. de, Hato, S.V., Graaf, W.T.A. van der, Punt, C.J.A., Koornstra, R.H., Gerritsen, W.R., Figdor, C.G., and Vries, I.J.M. de

Abstract

Contains fulltext : 219652.pdf (Publisher’s version ) (Open Access), BACKGROUND: Autologous dendritic cell (DC) vaccines can induce tumor-specific T cells, but their effect can be counteracted by immunosuppressive mechanisms. Cisplatin has shown immunomodulatory effects in vivo which may enhance efficacy of DC vaccination. METHODS: This is a prospective, randomized, open-label phase 2 study (NCT02285413) including stage III and IV melanoma patients receiving 3 biweekly vaccinations of gp100 and tyrosinase mRNA-loaded monocyte-derived DCs with or without cisplatin. Primary objectives were to study immunogenicity and feasibility, and secondary objectives were to assess toxicity and survival. RESULTS: Twenty-two stage III and 32 stage IV melanoma patients were analyzed. Antigen-specific CD8(+) T cells were found in 44% versus 67% and functional T cell responses in 28% versus 19% of skin-test infiltrating lymphocytes in patients receiving DC vaccination with and without cisplatin, respectively. Four patients stopped cisplatin because of toxicity and continued DC monotherapy. No therapy-related grade 3 or 4 adverse events occurred due to DC monotherapy. During combination therapy, one therapy-related grade 3 adverse event, decompensated heart failure due to fluid overload, occurred. The clinical outcome parameters did not clearly suggest significant differences. CONCLUSIONS: Combination of DC vaccination and cisplatin in melanoma patients is feasible and safe, but does not seem to result in more tumor-specific T cell responses or improved clinical outcome, when compared to DC vaccination monotherapy.

Published
2020

21. Response and survival of metastatic melanoma patients treated with immune checkpoint inhibition for recurrent disease on adjuvant dendritic cell vaccination

Author

van Willigen, W.W., Bloemendal, M., Boers-Sonderen, MJ, de Groot, J.W.H., Koornstra, R.H., Veldt, A.A.M. (Astrid) van der, Haanen, J.B. (John), Boudewijns, S., Schreibelt, G, Gerritsen, W.R. (Winald), Vries, I.J.M. (Jolanda) de, Bol, KF, van Willigen, W.W., Bloemendal, M., Boers-Sonderen, MJ, de Groot, J.W.H., Koornstra, R.H., Veldt, A.A.M. (Astrid) van der, Haanen, J.B. (John), Boudewijns, S., Schreibelt, G, Gerritsen, W.R. (Winald), Vries, I.J.M. (Jolanda) de, and Bol, KF

Abstract

Vaccination with autologous dendritic cells (DC) loaded ex vivo with melanoma-associated antigens is currently being tested as an adjuvant treatment modality for resected locoregional metastatic (stage III) melanoma. Based on its mechanism of action, DC vaccination might potentiate the clinical efficacy of concurrent or sequential immune checkpoint inhibition (ICI). The purpose of this study was to determine the efficacy of ICI administered following recurrent disease during, or after, adjuvant DC vaccination. To this end, we retrospectively analyzed clinical responses of 51 melanoma patients with either irresectable stage III or stage IV disease treated with first- or second-line ICI following recurrence on adjuvant DC vaccination. Patients were analyzed according to the form of ICI administered: PD-1 inhibition monotherapy (nivolumab or pembrolizumab), ipilimumab monotherapy or combined treatment with ipilimumab and nivolumab. Treatment with first- or second-line PD-1 inhibition monotherapy after recurrence on adjuvant DC vaccination resulted in a response rate of 52%. In patients treated with ipilimumab monotherapy and ipilimumab-nivolumab response rates were 35% and 75%, respectively. In conclusion, ICI is effective in melanoma patients with recurrent disease on adjuvant DC vaccination.

Published
2020
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22. What does cell therapy manufacturing cost? A framework and methodology to facilitate academic and other small-scale cell therapy manufacturing costings.

Author

Ham, R.M.T. Ten, Hövels, A.M., Hoekman, J., Frederix, G.W., Leufkens, H.G., Klungel, O.H., Jedema, I., Veld, S.A.J., Nikolic, T., Pel, M. van, Zwaginga, J.J., Lin, F., Goede, A.L. de, Schreibelt, G., Budde, S.M.S., Vries, I.J.M. de, Wilkie, G.M., Dolstra, H., Ovelgönne, H., Meij, P., Mountford, J.C., Turner, M.L., Hoefnagel, M.H.N., Ham, R.M.T. Ten, Hövels, A.M., Hoekman, J., Frederix, G.W., Leufkens, H.G., Klungel, O.H., Jedema, I., Veld, S.A.J., Nikolic, T., Pel, M. van, Zwaginga, J.J., Lin, F., Goede, A.L. de, Schreibelt, G., Budde, S.M.S., Vries, I.J.M. de, Wilkie, G.M., Dolstra, H., Ovelgönne, H., Meij, P., Mountford, J.C., Turner, M.L., and Hoefnagel, M.H.N.

Abstract

01 juli 2020, Contains fulltext : 220591.pdf (Publisher’s version ) (Open Access), BACKGROUND AIMS: Recent technical and clinical advances with cell-based therapies (CBTs) hold great promise in the treatment of patients with rare diseases and those with high unmet medical need. Currently the majority of CBTs are developed and manufactured in specialized academic facilities. Due to small scale, unique characteristics and specific supply chain, CBT manufacturing is considered costly compared to more conventional medicinal products. As a result, biomedical researchers and clinicians are increasingly faced with cost considerations in CBT development. The objective of this research was to develop a costing framework and methodology for academic and other small-scale facilities that manufacture cell-based therapies. METHODS: We conducted an international multi-center costing study in four facilities in Europe using eight CBTs as case studies. This study includes costs from cell or tissue procurement to release of final product for clinical use. First, via interviews with research scientists, clinicians, biomedical scientists, pharmacists and technicians, we designed a high-level costing framework. Next, we developed a more detailed uniform methodology to allocate cost items. Costs were divided into steps (tissue procurement, manufacturing and fill-finish). The steps were each subdivided into cost categories (materials, equipment, personnel and facility), and each category was broken down into facility running (fixed) costs and operational (variable) costs. The methodology was tested via the case studies and validated in developer interviews. Costs are expressed in 2018 euros (€). RESULTS: The framework and methodology were applicable across facilities and proved sensitive to differences in product and facility characteristics. Case study cost estimates ranged between €23 033 and €190 799 Euros per batch, with batch yield varying between 1 and 88 doses. The cost estimations revealed hidden costs to developers and provided insights into cost drivers to he

Published
2020

23. Response and survival of metastatic melanoma patients treated with immune checkpoint inhibition for recurrent disease on adjuvant dendritic cell vaccination

Author

van Willigen, WW, Bloemendal, M, Boers-Sonderen, MJ, de Groot, Jan-Willem B, Koornstra, RH, Veldt, Astrid, Haanen, J, Boudewijns, S, Schreibelt, G, Gerritsen, WR, de Vries, IJM, Bol, KF, van Willigen, WW, Bloemendal, M, Boers-Sonderen, MJ, de Groot, Jan-Willem B, Koornstra, RH, Veldt, Astrid, Haanen, J, Boudewijns, S, Schreibelt, G, Gerritsen, WR, de Vries, IJM, and Bol, KF

Published
2020

25. 1078MO MIND-DC: A randomized phase III trial to assess the efficacy of adjuvant dendritic cell vaccination in comparison to placebo in stage IIIB and IIIC melanoma patients

Author

Bol, K., primary, Bloemendal, M., additional, van Willigen, W., additional, Schreibelt, G., additional, Bree, S. Hins-de, additional, de Goede, A., additional, Van der Veldt, A.A.M., additional, Figdor, C., additional, de Groot, J.W.B., additional, de Wilt, J., additional, Textor, J., additional, Gerritsen, W.R., additional, and De Vries, J., additional

Published
2020
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27. The clinical application of cancer immunotherapy based on naturally circulating dendritic cells

Author

Bol, K.F., Schreibelt, G., Rabold, K., Wculek, S.K., Schwarze, J.K., Dzionek, A., Teijeira, A., Kandalaft, L.E., Romero, P., Coukos, G., Neyns, B., Sancho, D., Melero, I., Vries, I.J.M. de, Bol, K.F., Schreibelt, G., Rabold, K., Wculek, S.K., Schwarze, J.K., Dzionek, A., Teijeira, A., Kandalaft, L.E., Romero, P., Coukos, G., Neyns, B., Sancho, D., Melero, I., and Vries, I.J.M. de

Abstract

Contains fulltext : 207097.pdf (publisher's version ) (Open Access), Dendritic cells (DCs) can initiate and direct adaptive immune responses. This ability is exploitable in DC vaccination strategies, in which DCs are educated ex vivo to present tumor antigens and are administered into the patient with the aim to induce a tumor-specific immune response. DC vaccination remains a promising approach with the potential to further improve cancer immunotherapy with little or no evidence of treatment-limiting toxicity. However, evidence for objective clinical antitumor activity of DC vaccination is currently limited, hampering the clinical implementation. One possible explanation for this is that the most commonly used monocyte-derived DCs may not be the best source for DC-based immunotherapy. The novel approach to use naturally circulating DCs may be an attractive alternative. In contrast to monocyte-derived DCs, naturally circulating DCs are relatively scarce but do not require extensive culture periods. Thereby, their functional capabilities are preserved, the reproducibility of clinical applications is increased, and the cells are not dysfunctional before injection. In human blood, at least three DC subsets can be distinguished, plasmacytoid DCs, CD141(+) and CD1c(+) myeloid/conventional DCs, each with distinct functional characteristics. In completed clinical trials, either CD1c(+) myeloid DCs or plasmacytoid DCs were administered and showed encouraging immunological and clinical outcomes. Currently, also the combination of CD1c(+) myeloid and plasmacytoid DCs as well as the intratumoral use of CD1c(+) myeloid DCs is under investigation in the clinic. Isolation and culture strategies for CD141(+) myeloid DCs are being developed. Here, we summarize and discuss recent clinical developments and future prospects of natural DC-based immunotherapy.

Published
2019

28. Blood-derived dendritic cell vaccinations induce immune responses that correlate with clinical outcome in patients with chemo-naive castration-resistant prostate cancer

Author

Westdorp, H., Creemers, J.H.A., Oort, I.M. van, Schreibelt, G., Gorris, M.A.J., Mehra, N., Simons, M., Goede, A.L. de, Rossum, M.M. van, Croockewit, A.J., Figdor, C.G., Witjes, J.A., Aarntzen, E.H.J.G., Mus, R.D.M., Bruning, M., Petry, K., Gotthardt, M., Barentsz, J.O., Vries, I.J.M. de, Gerritsen, W.R., Westdorp, H., Creemers, J.H.A., Oort, I.M. van, Schreibelt, G., Gorris, M.A.J., Mehra, N., Simons, M., Goede, A.L. de, Rossum, M.M. van, Croockewit, A.J., Figdor, C.G., Witjes, J.A., Aarntzen, E.H.J.G., Mus, R.D.M., Bruning, M., Petry, K., Gotthardt, M., Barentsz, J.O., Vries, I.J.M. de, and Gerritsen, W.R.

Abstract

Contains fulltext : 215390.pdf (publisher's version ) (Open Access), BACKGROUND: Clinical benefit of cellular immunotherapy has been shown in patients with castration-resistant prostate cancer (CRPC). We investigated the immunological response and clinical outcome of vaccination with blood-derived CD1c(+) myeloid dendritic cells (mDCs; cDC2) and plasmacytoid DCs (pDCs). METHODS: In this randomized phase IIa trial, 21 chemo-naive CRPC patients received maximally 9 vaccinations with mature mDCs, pDCs or a combination of mDCs plus pDCs. DCs were stimulated with protamine/mRNA and loaded with tumor-associated antigens NY-ESO-1, MAGE-C2 and MUC1. Primary endpoint was the immunological response after DC vaccination, which was monitored in peripheral blood and in T cell cultures of biopsies of post-treatment delayed-type hypersensitivity-skin tests. Main secondary endpoints were safety, feasibility, radiological PFS (rPFS) and overall survival. Radiological responses were assessed by MRIs and contrast-enhanced (68)Ga-prostate-specific membrane antigen PET/CT, according to RECIST 1.1, PCWG2 criteria and immune-related response criteria. RESULTS: Both tetramer/dextramer-positive (dm(+)) and IFN-gamma-producing (IFN-gamma(+)) antigen specific T cells were detected more frequently in skin biopsies of patients with radiological non-progressive disease (5/13 patients; 38%) compared to patients with progressive disease (0/8 patients; 0%). In these patients with vaccination enhanced dm(+) and IFN-gamma(+) antigen-specific T cells median rPFS was 18.8 months (n = 5) vs. 5.1 months (n = 16) in patients without IFN-gamma-producing antigen-specific T cells (p = 0.02). The overall median rPFS was 9.5 months. All DC vaccines were well tolerated with grade 1-2 toxicity. CONCLUSIONS: Immunotherapy with blood-derived DC subsets was feasible and safe and induced functional antigen-specific T cells. The presence of functional antigen-specific T cells correlated with an improved clinical outcome. TRIAL REGISTRATION: ClinicalTrials.gov identifier NCT02692976, r

Published
2019

29. Novel strategies in dendritic-cell based immunotherapy - Focusing on adjuvant treatment in stage III melanoma

Author

Vries, I.J.M. de, Gerritsen, W.R., Bol, K.F., Schreibelt, G., Bloemendal, M., Vries, I.J.M. de, Gerritsen, W.R., Bol, K.F., Schreibelt, G., and Bloemendal, M.

Abstract

Radboud University, 10 september 2019, Promotores : Vries, I.J.M. de, Gerritsen, W.R. Co-promotores : Bol, K.F., Schreibelt, G., Contains fulltext : 206302.pdf (publisher's version ) (Open Access)

Published
2019

30. Natural dendritic cell vaccinations generate immune responses that correlate with clinical outcome in patients with chemo-naive castration-resistant prostate cancer

Author

Creemers, J., primary, Westdorp, H., additional, van Oort, I., additional, Schreibelt, G., additional, Gorris, M., additional, Mehra, N., additional, Simons, M., additional, de Goede, A., additional, van Rossum, M., additional, Croockewit, S., additional, Figdor, C., additional, Witjes, J.A., additional, Aarntzen, E., additional, Mus, R., additional, Gotthardt, M., additional, Barentsz, J., additional, de Vries, J., additional, and Gerritsen, W.R., additional

Published
2019
Full Text
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31. BDCA1+CD14+ Immunosuppressive Cells in Cancer, a Potential Target?

Author

Ee, T.J. van, Acker, H.H. Van, Oorschot, T.G.M. van, Tendeloo, V.F. Van, Smits, E.L.J., Bakdash, G., Schreibelt, G., de Vries, I.J., Ee, T.J. van, Acker, H.H. Van, Oorschot, T.G.M. van, Tendeloo, V.F. Van, Smits, E.L.J., Bakdash, G., Schreibelt, G., and de Vries, I.J.

Abstract

Contains fulltext : 196561.pdf (publisher's version ) (Open Access), Dendritic cell (DC) vaccines show promising effects in cancer immunotherapy. However, their efficacy is affected by a number of factors, including (1) the quality of the DC vaccine and (2) tumor immune evasion. The recently characterized BDCA1+CD14+ immunosuppressive cells combine both aspects; their presence in DC vaccines may directly hamper vaccine efficacy, whereas, in patients, BDCA1+CD14+ cells may suppress the induced immune response in an antigen-specific manner systemically and at the tumor site. We hypothesize that BDCA1+CD14+ cells are present in a broad spectrum of cancers and demand further investigation to reveal treatment opportunities and/or improvement for DC vaccines. In this review, we summarize the findings on BDCA1+CD14+ cells in solid cancers. In addition, we evaluate the presence of BDCA1+CD14+ cells in leukemic cancers. Preliminary results suggest that the presence of BDCA1+CD14+ cells correlates with clinical features of acute and chronic myeloid leukemia. Future research focusing on the differentiation from monocytes towards BDCA1+CD14+ cells could reveal more about their cell biology and clinical significance. Targeting these cells in cancer patients may improve the outcome of cancer immunotherapy.

Published
2018

32. Immune Curbing of Cancer Stem Cells by CTLs Directed to NANOG

Author

Wefers, C., Schreibelt, G., Massuger, L.F.A.G., Vries, I.J.M. de, Torensma, R., Wefers, C., Schreibelt, G., Massuger, L.F.A.G., Vries, I.J.M. de, and Torensma, R.

Abstract

Contains fulltext : 196226.pdf (publisher's version ) (Open Access), Cancer stem cells (CSCs) have been identified as the source of tumor growth and disease recurrence. Eradication of CSCs is thus essential to achieve durable responses, but CSCs are resistant to current anti-tumor therapies. Novel therapeutic approaches that specifically target CSCs will, therefore, be crucial to improve patient outcome. Immunotherapies, which boost the body's own immune system to eliminate cancerous cells, could be an alternative approach to target CSCs. Vaccines of dendritic cells (DCs) loaded with tumor antigens can evoke highly specific anti-tumor T cell responses. Importantly, DC vaccination also promotes immunological memory formation, paving the way for long-term cancer control. Here, we propose a DC vaccination that specifically targets CSCs. DCs loaded with NANOG peptides, a protein required for maintaining stem cell properties, could evoke a potent anti-tumor immune response against CSCs. We hypothesize that the resulting immunological memory will also control newly formed CSCs, thereby preventing disease recurrence.

Published
2018

33. Dendritic Cell Cancer Therapy: Vaccinating the Right Patient at the Right Time

Author

Willigen, W.W. van, Bloemendal, M., Gerritsen, W.R., Schreibelt, G., Vries, I.J.M. de, Bol, K.F., Willigen, W.W. van, Bloemendal, M., Gerritsen, W.R., Schreibelt, G., Vries, I.J.M. de, and Bol, K.F.

Abstract

Contains fulltext : 200038.pdf (publisher's version ) (Open Access), Immune checkpoint inhibitors propelled the field of oncology with clinical responses in many different tumor types. Superior overall survival over chemotherapy has been reported in various metastatic cancers. Furthermore, prolonged disease-free and overall survival have been reported in the adjuvant treatment of stage III melanoma. Unfortunately, a substantial portion of patients do not obtain a durable response. Therefore, additional strategies for the treatment of cancer are still warranted. One of the numerous options is dendritic cell vaccination, which employs the central role of dendritic cells in activating the innate and adaptive immune system. Over the years, dendritic cell vaccination was shown to be able to induce an immunologic response, to increase the number of tumor infiltrating lymphocytes and to provide overall survival benefit for at least a selection of patients in phase II studies. However, with the success of immune checkpoint inhibition in several malignancies and considering the plethora of other treatment modalities being developed, it is of utmost importance to delineate the position of dendritic cell therapy in the treatment landscape of cancer. In this review, we address some key questions regarding the integration of dendritic cell vaccination in future cancer treatment paradigms.

Published
2018

34. Development of an RNA-based kit for easy generation of TCR-engineered lymphocytes to control T-cell assay performance

Author

Bidmon, Nicole, Kind, Sonja, Welters, Marij J.P., Joseph-Pietras, Deborah, Laske, Karoline, Maurer, Dominik, Schreibelt, G., Britten, Cedrik M., Burg, Sjoerd H. van der, Bidmon, Nicole, Kind, Sonja, Welters, Marij J.P., Joseph-Pietras, Deborah, Laske, Karoline, Maurer, Dominik, Schreibelt, G., Britten, Cedrik M., and Burg, Sjoerd H. van der

Abstract

Contains fulltext : 192578.pdf (Publisher’s version ) (Open Access)

Published
2018

35. PTEN Hamartoma Tumor Syndrome and Immune Dysregulation

Author

Eissing, M.L.L.G., Ripken, L.S., Schreibelt, G., Westdorp, H., Ligtenberg, M.J., Netea-Maier, R.T., Netea, M.G., Vries, I.J.M. de, Hoogerbrugge, N., Eissing, M.L.L.G., Ripken, L.S., Schreibelt, G., Westdorp, H., Ligtenberg, M.J., Netea-Maier, R.T., Netea, M.G., Vries, I.J.M. de, and Hoogerbrugge, N.

Abstract

Contains fulltext : 200303.pdf (publisher's version ) (Open Access), Carriers of a pathogenic germline mutations in the PTEN gene, a well-known tumor suppressor gene, are at increased risk of multiple benign and malignant tumors, e.g. breast, thyroid, endometrial and colon cancer. This is called PTEN Hamartomous Tumor Syndrome (PHTS). PHTS patients may also have an increased risk of immunological dysregulation, such as autoimmunity and immune deficiencies. The effects of PTEN on the immune system have been studied in murine knockout models demonstrating that loss of PTEN function leads to dysregulation of the immune response. This results in susceptibility to autoimmunity, impaired B cell class switching with subsequent hypogammaglobulinemia. Additionally, a decreased ability of dendritic cells to prime CD8(+) T cells was observed, leading to impaired tumor eradication. Immune dysfunction in PHTS patients has not yet been extensively studied but might be a manageable contributing factor to the increased cancer risk in PHTS.

Published
2018

36. Naturally produced type I IFNs enhance human myeloid dendritic cell maturation and IL-12p70 production and mediate elevated effector functions in innate and adaptive immune cells

Author

Skold, A.E., Mathan, T.S.M., Beek, J.J.P. van, Florez-Grau, G., Beukel, M.D. van den, Sittig, S.P., Wimmers, F., Bakdash, G., Schreibelt, G., Vries, I.J.M. de, Skold, A.E., Mathan, T.S.M., Beek, J.J.P. van, Florez-Grau, G., Beukel, M.D. van den, Sittig, S.P., Wimmers, F., Bakdash, G., Schreibelt, G., and Vries, I.J.M. de

Abstract

Contains fulltext : 196642.pdf (Publisher’s version ) (Open Access), There has recently been a paradigm shift in the field of dendritic cell (DC)-based immunotherapy, where several clinical studies have confirmed the feasibility and advantageousness of using directly isolated human blood-derived DCs over in vitro differentiated subsets. There are two major DC subsets found in blood; plasmacytoid DCs (pDCs) and myeloid DCs (mDCs), and both have been tested clinically. CD1c(+) mDCs are highly efficient antigen-presenting cells that have the ability to secrete IL-12p70, while pDCs are professional IFN-alpha-secreting cells that are shown to induce innate immune responses in melanoma patients. Hence, combining mDCs and pDCs poses as an attractive, multi-functional vaccine approach. However, type I IFNs have been reported to inhibit IL-12p70 production and mDC-induced T-cell activation. In this study, we investigate the effect of IFN-alpha on mDC maturation and function. We demonstrate that both recombinant IFN-alpha and activated pDCs strongly enhance mDC maturation and increase IL-12p70 production. Co-cultured mDCs and pDCs additionally have beneficial effect on NK and NKT-cell activation and also enhances IFN-gamma production by allogeneic T cells. In contrast, the presence of type I IFNs reduces the proliferative T-cell response. The mere presence of a small fraction of activated pDCs is sufficient for these effects and the required ratio between the subsets is non-stringent. Taken together, these results support the usage of mDCs and pDCs combined into one immunotherapeutic vaccine with broad immunostimulatory features.

Published
2018

37. Health-related quality of life analysis in stage III melanoma patients treated with adjuvant dendritic cell therapy

Author

Bloemendal, M., primary, Rietveld, M. J. A., additional, van Willigen, W. W., additional, Gerritsen, W. R., additional, Figdor, C. G., additional, Bonenkamp, J. J., additional, Westdorp, H., additional, Boudewijns, S., additional, Koornstra, R. H. T., additional, Adang, E. M. M., additional, Schreibelt, G., additional, Ottevanger, P. B., additional, de Vries, I. J. M., additional, and Bol, K. F., additional

Published
2018
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38. Dendritic cell vaccination in the evolving therapeutic landscape of melanoma

Author

Gerritsen, W.R., Vries, I.J.M. de, Schreibelt, G., Bol, K.F., Boudewijns, S, Gerritsen, W.R., Vries, I.J.M. de, Schreibelt, G., Bol, K.F., and Boudewijns, S

Abstract

Radboud University, 8 maart 2017, Promotores : Gerritsen, W.R., Vries, I.J.M. de Co-promotores : Schreibelt, G., Bol, K.F., Contains fulltext : 166985.pdf (publisher's version ) (Open Access)

Published
2017

39. Monitoring of dynamic changes in Keyhole Limpet Hemocyanin (KLH)-specific B cells in KLH-vaccinated cancer patients

Author

Wimmers, F., Haas, N. de, Scholzen, A., Schreibelt, G., Simonetti, E.R., Eleveld, M.J., Brouwers, H.M., Beldhuis-Valkis, M., Joosten, I., Jonge, M.I. de, Gerritsen, W.R., Vries, I.J.M. de, Diavatopoulos, D.A., Jacobs, J.F.M., Wimmers, F., Haas, N. de, Scholzen, A., Schreibelt, G., Simonetti, E.R., Eleveld, M.J., Brouwers, H.M., Beldhuis-Valkis, M., Joosten, I., Jonge, M.I. de, Gerritsen, W.R., Vries, I.J.M. de, Diavatopoulos, D.A., and Jacobs, J.F.M.

Abstract

Contains fulltext : 170195.pdf (publisher's version ) (Open Access), Keyhole limpet hemocyanin (KLH) is used as an immunogenic neo-antigen for various clinical applications and during vaccine development. For advanced monitoring of KLH-based interventions, we developed a flow cytometry-based assay for the ex vivo detection, phenotyping and isolation of KLH-specific B cells. As proof-of-principle, we analyzed 10 melanoma patients exposed to KLH during anti-cancer dendritic cell vaccination. Our assay demonstrated sensitive and specific detection of KLH-specific B cells in peripheral blood and KLH-specific B cell frequencies strongly correlated with anti-KLH serum antibody titers. Profiling of B cell subsets over the vaccination course revealed that KLH-specific B cells matured from naive to class-switched memory B cells, confirming the prototypic B cell response to a neo-antigen. We conclude that flow-cytometric detection and in-depth phenotyping of KLH-specific B cells is specific, sensitive, and scalable. Our findings provide novel opportunities to monitor KLH-specific immune responses and serve as a blueprint for the development of new flow-cytometric protocols.

Published
2017

40. Immunotherapy holds the key to cancer treatment and prevention in constitutional mismatch repair deficiency (CMMRD) syndrome

Author

Westdorp, H., Kolders, S., Hoogerbrugge, N., Vries, I.J.M. de, Jongmans, M.C.J., Schreibelt, G., Westdorp, H., Kolders, S., Hoogerbrugge, N., Vries, I.J.M. de, Jongmans, M.C.J., and Schreibelt, G.

Abstract

Item does not contain fulltext, Monoallelic germline mutations in one of the DNA mismatch repair (MMR) genes cause Lynch syndrome, with a high lifetime risks of colorectal and endometrial cancer at adult age. Less well known, is the constitutional mismatch repair deficiency (CMMRD) syndrome caused by biallelic germline mutations in MMR genes. This syndrome is characterized by the development of childhood cancer. Patients with CMMRD are at extremely high risk of developing multiple cancers including hematological, brain and intestinal tumors. Mutations in MMR genes impair DNA repair and therefore most tumors of patients with CMMRD are hypermutated. These mutations lead to changes in the translational reading frame, which consequently result in neoantigen formation. Neoantigens are recognized as foreign by the immune system and can induce specific immune responses. The growing evidence on the clinical efficacy of immunotherapies, such as immune checkpoint inhibitors, offers the prospect for treatment of patients with CMMRD. Combining neoantigen-based vaccination strategies and immune checkpoint inhibitors could be an effective way to conquer CMMRD-related tumors. Neoantigen-based vaccines might also be a preventive treatment option in healthy biallelic MMR mutation carriers. Future studies need to reveal the safety and efficacy of immunotherapies for patients with CMMRD.

Published
2017

41. Recurrent candidiasis and early-onset gastric cancer in a patient with a genetically defined partial MYD88

Author

Ligtenberg, Mj, van der Post, R, de Voer, Rm, Kets, Cm, Jansen, Tj, Jacobs, L, Schreibelt, G, International Gastric Cancer Genetics Group (Lubinski, J, Jakubowska, A, Teodorczyk, U, Schackert, Hk, Aalfs, Cm, Genuardi, Maurizio, Gómez García, Eb, Ranzani, Gn, Molinaro, V, van Hest, Lp, Hes, Fj, Holinski-Feder, E, Ausems, Mg, Sijmons, Rh, Wagner, A, van der Kolk, Le, Pinheiro, H, Oliveira, C, Bjørnevoll, I, Vetti, Hh, van Krieken, J, ), De, Vrie, Ij, Netea, Mg, Hoogerbrugge, N, Genuardi M. (ORCID:0000-0002-7410-8351), Ligtenberg, Mj, van der Post, R, de Voer, Rm, Kets, Cm, Jansen, Tj, Jacobs, L, Schreibelt, G, International Gastric Cancer Genetics Group (Lubinski, J, Jakubowska, A, Teodorczyk, U, Schackert, Hk, Aalfs, Cm, Genuardi, Maurizio, Gómez García, Eb, Ranzani, Gn, Molinaro, V, van Hest, Lp, Hes, Fj, Holinski-Feder, E, Ausems, Mg, Sijmons, Rh, Wagner, A, van der Kolk, Le, Pinheiro, H, Oliveira, C, Bjørnevoll, I, Vetti, Hh, van Krieken, J, ), De, Vrie, Ij, Netea, Mg, Hoogerbrugge, N, and Genuardi M. (ORCID:0000-0002-7410-8351)

Abstract

Gastric cancer is caused by both genetic and environmental factors. A woman who suffered from recurrent candidiasis throughout her life developed diffuse-type gastric cancer at the age of 23 years. Using whole-exome sequencing we identified a germline homozygous missense variant in MYD88. Immunological assays on peripheral blood mononuclear cells revealed an impaired immune response upon stimulation with Candida albicans, characterized by a defective production of the cytokine interleukin-17. Our data suggest that a genetic defect in MYD88 results in an impaired immune response and may increase gastric cancer risk.

Published
2017

42. Dendritic cell vaccination in melanoma patients: From promising results to future perspectives

Author

Boudewijns, S, Bloemendal, M., Gerritsen, W.R., Vries, I.J.M. de, Schreibelt, G., Boudewijns, S, Bloemendal, M., Gerritsen, W.R., Vries, I.J.M. de, and Schreibelt, G.

Abstract

Item does not contain fulltext, Dendritic cells (DCs) play an important role in the induction of antitumor immunity. Therefore, they are used as anti-cancer vaccines in clinical studies in various types of cancer. DC vaccines are generally well tolerated and able to induce antigen-specific T cell responses in melanoma patients. After DC vaccinations, functional tumor-specific T cells are more frequently detected in stage III melanoma patients, as compared to patients with advanced melanoma, indicating that the tumor load influences immunological responses. Furthermore, long-lasting clinical responses were rarely seen in metastatic melanoma patients after DC vaccination. Since more potent treatment options are available, e.g. immune checkpoint inhibitors and targeted therapy, DC vaccination as monotherapy may not be preferred in the treatment of advanced melanoma. However, encouraging results of DC vaccines combined with ipilimumab have been reported in advanced melanoma patients with an objective response rate of 38%. DC vaccines show promising clinical results in stage III patients, although clinical efficacy still needs to be proven in a phase 3 trial. The clinical and immunological results of DC vaccination in stage III melanoma patients might be further improved by using naturally circulating DCs (myeloid DCs and plasmacytoid DCs) and neoantigens to load DCs.

Published
2016

43. Ipilimumab administered to metastatic melanoma patients who progressed after dendritic cell vaccination

Author

Boudewijns, S, Koornstra, R.H., Westdorp, H., Schreibelt, G., Eertwegh, A.J. van den, Foppen, M.H. Geukes, Haanen, J.B., Vries, I.J. de, Figdor, C.G., Bol, K.F., Gerritsen, W.R., Boudewijns, S, Koornstra, R.H., Westdorp, H., Schreibelt, G., Eertwegh, A.J. van den, Foppen, M.H. Geukes, Haanen, J.B., Vries, I.J. de, Figdor, C.G., Bol, K.F., and Gerritsen, W.R.

Abstract

Contains fulltext : 167316.pdf (Publisher’s version ) (Open Access), BACKGROUND: Ipilimumab has proven to be effective in metastatic melanoma patients. The purpose of this study was to determine the efficacy of ipilimumab in advanced melanoma patients who showed progressive disease upon experimental dendritic cell (DC) vaccination. METHODS: Retrospective analysis of 48 stage IV melanoma patients treated with ipilimumab after progression upon DC vaccination earlier in their treatment. DC vaccination was given either as adjuvant treatment for stage III disease (n = 18) or for stage IV disease (n = 30). Ipilimumab (3 mg/kg) was administered every 3 weeks for up to 4 cycles. RESULTS: Median time between progression upon DC vaccination and first gift of ipilimumab was 5.4 mo. Progression-free survival (PFS) rates for patients that received ipilimumab after adjuvant DC vaccination, and patients that received DC vaccination for stage IV melanoma, were 35% and 7% at 1 y and 35% and 3% at 2 y, while the median PFS was 2.9 mo and 3.1 mo, respectively. Median overall survival of patients pre-treated with adjuvant DC vaccination for stage III melanoma was not reached versus 8.0 mo (95% CI, 5.2-10.9) in the group pre-treated with DC vaccination for stage IV disease (HR of death, 0.36; p = 0.017). Grade 3 immune-related adverse events occurred in 19% of patients and one death (2%) was related to ipilimumab. CONCLUSIONS: Clinical responses to ipilimumab were found in a considerable number of advanced melanoma patients with progression after adjuvant DC vaccination for stage III disease, while the effect was very limited in patients who showed progression after DC vaccination for stage IV disease.

Published
2016

44. Recurrent candidiasis and early-onset gastric cancer in a patient with a genetically defined partial MYD88 defect

Author

Vogelaar, I.P., Ligtenberg, M.J., Post, R.S. van der, Voer, R.M. de, Kets, C.M., Jansen, T.J., Jacobs, L., Schreibelt, G., Vries, I.J. de, Netea, M.G., Hoogerbrugge, N., Vogelaar, I.P., Ligtenberg, M.J., Post, R.S. van der, Voer, R.M. de, Kets, C.M., Jansen, T.J., Jacobs, L., Schreibelt, G., Vries, I.J. de, Netea, M.G., and Hoogerbrugge, N.

Abstract

Contains fulltext : 171354.pdf (publisher's version ) (Open Access), Gastric cancer is caused by both genetic and environmental factors. A woman who suffered from recurrent candidiasis throughout her life developed diffuse-type gastric cancer at the age of 23 years. Using whole-exome sequencing we identified a germline homozygous missense variant in MYD88. Immunological assays on peripheral blood mononuclear cells revealed an impaired immune response upon stimulation with Candida albicans, characterized by a defective production of the cytokine interleukin-17. Our data suggest that a genetic defect in MYD88 results in an impaired immune response and may increase gastric cancer risk.

Published
2016

45. Proteomics of Human Dendritic Cell Subsets Reveals Subset-Specific Surface Markers and Differential Inflammasome Function

Author

Worah, K., Mathan, T.S., Manh, T.P.V., Keerthikumar, S., Schreibelt, G., Tel, J., Duiveman-de Boer, T., Sköld, A., Spriel, A.B. van, Vries, I.J.M. de, Huynen, M.A., Wessels, H.J., Gloerich, J., Dalod, M., Lasonder, E., Figdor, C.G., Buschow, S.I., Worah, K., Mathan, T.S., Manh, T.P.V., Keerthikumar, S., Schreibelt, G., Tel, J., Duiveman-de Boer, T., Sköld, A., Spriel, A.B. van, Vries, I.J.M. de, Huynen, M.A., Wessels, H.J., Gloerich, J., Dalod, M., Lasonder, E., Figdor, C.G., and Buschow, S.I.

Abstract

Contains fulltext : 171297.pdf (publisher's version ) (Open Access), Dendritic cells (DCs) play a key role in orchestrating adaptive immune responses. In human blood, three distinct subsets exist: plasmacytoid DCs (pDCs) and BDCA3+ and CD1c+ myeloid DCs. In addition, a DC-like CD16+ monocyte has been reported. Although RNA-expression profiles have been previously compared, protein expression data may provide a different picture. Here, we exploited label-free quantitative mass spectrometry to compare and identify differences in primary human DC subset proteins. Moreover, we integrated these proteomic data with existing mRNA data to derive robust cell-specific expression signatures with more than 400 differentially expressed proteins between subsets, forming a solid basis for investigation of subset-specific functions. We illustrated this by extracting subset identification markers and by demonstrating that pDCs lack caspase-1 and only express low levels of other inflammasome-related proteins. In accordance, pDCs were incapable of interleukin (IL)-1beta secretion in response to ATP.

Published
2016

46. A Comparative Study of the T Cell Stimulatory and Polarizing Capacity of Human Primary Blood Dendritic Cell Subsets

Author

Sittig, S.P., Bakdash, G., Weiden, J., Sköld, A., Tel, J., Figdor, C.G., Vries, I.J.M. de, Schreibelt, G., Sittig, S.P., Bakdash, G., Weiden, J., Sköld, A., Tel, J., Figdor, C.G., Vries, I.J.M. de, and Schreibelt, G.

Abstract

Contains fulltext : 171737.pdf (publisher's version ) (Open Access), Dendritic cells (DCs) are central players of immune responses; they become activated upon infection or inflammation and migrate to lymph nodes, where they can initiate an antigen-specific immune response by activating naive T cells. Two major types of naturally occurring DCs circulate in peripheral blood, namely, myeloid and plasmacytoid DCs (pDCs). Myeloid DCs (mDCs) can be subdivided based on the expression of either CD1c or CD141. These human DC subsets differ in surface marker expression, Toll-like receptor (TLR) repertoire, and transcriptional profile, suggesting functional differences between them. Here, we directly compared the capacity of human blood mDCs and pDCs to activate and polarize CD4(+) T cells. CD141(+) mDCs show an overall more mature phenotype over CD1c(+) mDC and pDCs; they produce less IL-10 and more IL-12 than CD1c(+) mDCs. Despite these differences, all subsets can induce the production of IFN-gamma in naive CD4(+) T cells. CD1c(+) and CD141(+) mDCs especially induce a strong T helper 1 profile. Importantly, naive CD4(+) T cells are not polarized towards regulatory T cells by any subset. These findings further establish all three human blood DCs-despite their differences-as promising candidates for immunostimulatory effectors in cancer immunotherapy.

Published
2016

47. Opportunities for immunotherapy in microsatellite instable colorectal cancer

Author

Westdorp, H., Fennemann, F.L., Weren, R.D.A., Bisseling, T.M., Ligtenberg, M.J., Figdor, C.G., Schreibelt, G., Hoogerbrugge, N., Wimmers, F., Vries, I.J.M. de, Westdorp, H., Fennemann, F.L., Weren, R.D.A., Bisseling, T.M., Ligtenberg, M.J., Figdor, C.G., Schreibelt, G., Hoogerbrugge, N., Wimmers, F., and Vries, I.J.M. de

Abstract

Contains fulltext : 171091.pdf (Publisher’s version ) (Open Access), Microsatellite instability (MSI), the somatic accumulation of length variations in repetitive DNA sequences called microsatellites, is frequently observed in both hereditary and sporadic colorectal cancer (CRC). It has been established that defects in the DNA mismatch repair (MMR) pathway underlie the development of MSI in CRC. After the inactivation of the DNA MMR pathway, misincorporations, insertions and deletions introduced by DNA polymerase slippage are not properly recognized and corrected. Specific genomic regions, including microsatellites, are more prone for DNA polymerase slippage and, therefore, more susceptible for the introduction of these mutations if the DNA MMR capacity is lost. Some of these susceptible genomic regions are located within the coding regions of genes. Insertions and deletions in these regions may alter their reading frame, potentially resulting in the transcription and translation of frameshift peptides with c-terminally altered amino acid sequences. These frameshift peptides are called neoantigens and are highly immunogenic, which explains the enhanced immunogenicity of MSI CRC. Neoantigens contribute to increased infiltration of tumor tissue with activated neoantigen-specific cytotoxic T lymphocytes, a hallmark of MSI tumors. Currently, neoantigen-based vaccination is being studied in a clinical trial for Lynch syndrome and in a trial for sporadic MSI CRC of advanced stage. In this Focussed Research Review, we summarize current knowledge on molecular mechanisms and address immunological features of tumors with MSI. Finally, we describe their implications for immunotherapeutic approaches and provide an outlook on next-generation immunotherapy involving neoantigens and combinatorial therapies in the setting of MSI CRC.

Published
2016

48. Expansion of a BDCA1+CD14+ Myeloid Cell Population in Melanoma Patients May Attenuate the Efficacy of Dendritic Cell Vaccines

Author

Bakdash, G., Buschow, S.I., Gorris, M.A.J., Halilovic, A., Hato, S.V., Skold, A.E., Schreibelt, G., Sittig, S.P., Torensma, R., Boer, T. de, Schroder, C., Smits, E.L., Figdor, C.G., Vries, I.J.M. de, Bakdash, G., Buschow, S.I., Gorris, M.A.J., Halilovic, A., Hato, S.V., Skold, A.E., Schreibelt, G., Sittig, S.P., Torensma, R., Boer, T. de, Schroder, C., Smits, E.L., Figdor, C.G., and Vries, I.J.M. de

Abstract

Item does not contain fulltext, The tumor microenvironment is characterized by regulatory T cells, type II macrophages, myeloid-derived suppressor cells, and other immunosuppressive cells that promote malignant progression. Here we report the identification of a novel BDCA1(+)CD14(+) population of immunosuppressive myeloid cells that are expanded in melanoma patients and are present in dendritic cell-based vaccines, where they suppress CD4(+) T cells in an antigen-specific manner. Mechanistic investigations showed that BDCA1(+)CD14(+) cells expressed high levels of the immune checkpoint molecule PD-L1 to hinder T-cell proliferation. While this BDCA1(+)CD14(+) cell population expressed markers of both BDCA1(+) dendritic cells and monocytes, analyses of function, transcriptome, and proteome established their unique nature as exploited by tumors for immune escape. We propose that targeting these cells may improve the efficacy of cancer immunotherapy. Cancer Res; 76(15); 4332-46. (c)2016 AACR.

Published
2016

49. Effective Clinical Responses in Metastatic Melanoma Patients after Vaccination with Primary Myeloid Dendritic Cells

Author

Schreibelt, G., Bol, K.F., Westdorp, H., Wimmers, F., Aarntzen, E.H.J.G., Duiveman-de Boer, T., Rakt, M.W.M.M. van de, Scharenborg, N.M., Boer, A.J. de, Pots, J.M., Olde Nordkamp, M.A.M., Oorschot, T.G.M. van, Tel, J., Winkels, G., Petry, K., Blokx, W.A.M., Rossum, M.M. van, Welzen, M.E.B., Mus, R.D.M., Croockewit, S., Koornstra, R.H., Jacobs, J.F.M., Kelderman, S., Blank, C.U., Gerritsen, W.R., Punt, C.J.A., Figdor, C.G., Vries, I.J.M. de, Schreibelt, G., Bol, K.F., Westdorp, H., Wimmers, F., Aarntzen, E.H.J.G., Duiveman-de Boer, T., Rakt, M.W.M.M. van de, Scharenborg, N.M., Boer, A.J. de, Pots, J.M., Olde Nordkamp, M.A.M., Oorschot, T.G.M. van, Tel, J., Winkels, G., Petry, K., Blokx, W.A.M., Rossum, M.M. van, Welzen, M.E.B., Mus, R.D.M., Croockewit, S., Koornstra, R.H., Jacobs, J.F.M., Kelderman, S., Blank, C.U., Gerritsen, W.R., Punt, C.J.A., Figdor, C.G., and Vries, I.J.M. de

Abstract

Contains fulltext : 172415.pdf (publisher's version ) (Closed access), Purpose: Thus far, dendritic cell (DC)-based immunotherapy of cancer was primarily based on in vitro-generated monocyte-derived DCs, which require extensive in vitro manipulation. Here, we report on a clinical study exploiting primary CD1c(+) myeloid DCs, naturally circulating in the blood. Experimental Design: Fourteen stage IV melanoma patients, without previous systemic treatment for metastatic disease, received autologous CD1c(+) myeloid DCs, activated by only brief (16 hours) ex vivo culture and loaded with tumor-associated antigens of tyrosinase and gp100. Results: Our results show that therapeutic vaccination against melanoma with small amounts (3-10 x 10(6)) of myeloid DCs is feasible and without substantial toxicity. Four of 14 patients showed long-term progression-free survival (12-35 months), which directly correlated with the development of multifunctional CD8(+) T-cell responses in three of these patients. In particular, high CD107a expression, indicative for cytolytic activity, and IFN gamma as well as TNF alpha and CCL4 production was observed. Apparently, these T-cell responses are essential to induce tumor regression and promote long-term survival by stalling tumor growth. Conclusions: We show that vaccination of metastatic melanoma patients with primary myeloid DCs is feasible and safe and results in induction of effective antitumor immune responses that coincide with improved progression-free survival. (C) 2015 AACR.

Published
2016

50. Adjuvant Dendritic Cell Vaccination in High-Risk Uveal Melanoma

Author

Bol, K.F., Bosch, T van den, Schreibelt, G., Mensink, H.W., Keunen, J.E.E., Kilic, E., Japing, W.J., Geul, K.W., Westdorp, H., Boudewijns, S, Croockewit, S., Rossum, M.M. van, Goede, A.L. de, Naus, N.C., Graaf, W.T.A. van der, Gerritsen, W.R., Klein, A., Punt, C.J.A., Figdor, C.G., Cohen, V.M., Paridaens, D., Vries, I.J.M. de, Bol, K.F., Bosch, T van den, Schreibelt, G., Mensink, H.W., Keunen, J.E.E., Kilic, E., Japing, W.J., Geul, K.W., Westdorp, H., Boudewijns, S, Croockewit, S., Rossum, M.M. van, Goede, A.L. de, Naus, N.C., Graaf, W.T.A. van der, Gerritsen, W.R., Klein, A., Punt, C.J.A., Figdor, C.G., Cohen, V.M., Paridaens, D., and Vries, I.J.M. de

Abstract

Item does not contain fulltext

Published
2016

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