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4. Histological Characterization and Quantification of Cellular Events Following Neural and Fibroblast(-Like) Stem Cell Grafting in Healthy and Demyelinated CNS Tissue

Author

Praet, Jelle, primary, Santermans, Eva, additional, Reekmans, Kristien, additional, de Vocht, Nathalie, additional, Le Blon, Debbie, additional, Hoornaert, Chloé, additional, Daans, Jasmijn, additional, Goossens, Herman, additional, Berneman, Zwi, additional, Hens, Niel, additional, Van der Linden, Annemie, additional, and Ponsaerts, Peter, additional

Published
2014
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9. Multimodal in vivo imaging reveals limited allograft survival, intrapulmonary cell trapping and minimal evidence for ischemia-directed BMSC homing

Author

Everaert Bert R, Bergwerf Irene, De Vocht Nathalie, Ponsaerts Peter, Van Der Linden Annemie, Timmermans Jean-Pierre, and Vrints Christiaan J

Subjects
Stem cell, BMSC, Homing, Bioluminescence, Confocal endomicroscopy, Biotechnology, TP248.13-248.65
Abstract

Abstract Background Despite positive reports on the efficacy of stem cell therapy for the treatment of cardiovascular disease, the nature of stem cell homing to ischemic tissues remains elusive. Results We used a mouse model of peripheral tissue ischemia to study the survival and homing capacity of dual reporter gene (eGFP/Luciferase) expressing bone marrow-derived stromal cells (BMSC). Cell homing and survival were studied in the presence and absence of ciclosporin A (CsA) immunosuppression using bioluminescence imaging (BLI) together with confocal endomicroscopy. Different injection strategies were applied: central venous (CV), intra-arterial (IA) and intramuscular (IM). BLI and confocal endomicroscopy evidenced complete rejection of the IM injected allogeneic BMSC transplant within 5 to 10 days. Immunosuppression with CsA could only marginally prolong graft survival. IM injected BMSC did not migrate to the site of the arterial ligation. CV injection of BMSC resulted in massive pulmonary infarction, leading to respiratory failure and death. Intrapulmonary cell trapping was evidenced by confocal endomicroscopy, BLI and fluorescence microscopy. IA injection of BMSC proved to be a feasible and safe strategy to bypass the lung circulation. During the follow-up period, neither BLI nor confocal endomicroscopy revealed any convincing ischemia-directed homing of BMSC. Conclusions BLI and confocal endomicroscopy are complementary imaging techniques for studying the in vivo biology of dual reporter gene-expressing BMSC. Allogeneic BMSC survival is limited in an immunocompetent host and cannot be preserved by CsA immunosuppression alone. We did not find substantial evidence for ischemia-directed BMSC homing and caution against CV injection of BMSC, which can lead to massive pulmonary infarction.

Published
2012
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10. Reporter gene-expressing bone marrow-derived stromal cells are immune-tolerated following implantation in the central nervous system of syngeneic immunocompetent mice

Author

Ibrahimi Abdelilah, Daans Jasmijn, Reekmans Kristien, Verschueren Jacob, Tambuyzer Bart, De Vocht Nathalie, Bergwerf Irene, Van Tendeloo Viggo, Chatterjee Shyama, Goossens Herman, Jorens Philippe G, Baekelandt Veerle, Ysebaert Dirk, Van Marck Eric, Berneman Zwi N, Linden Annemie, and Ponsaerts Peter

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background Cell transplantation is likely to become an important therapeutic tool for the treatment of various traumatic and ischemic injuries to the central nervous system (CNS). However, in many pre-clinical cell therapy studies, reporter gene-assisted imaging of cellular implants in the CNS and potential reporter gene and/or cell-based immunogenicity, still remain challenging research topics. Results In this study, we performed cell implantation experiments in the CNS of immunocompetent mice using autologous (syngeneic) luciferase-expressing bone marrow-derived stromal cells (BMSC-Luc) cultured from ROSA26-L-S-L-Luciferase transgenic mice, and BMSC-Luc genetically modified using a lentivirus encoding the enhanced green fluorescence protein (eGFP) and the puromycin resistance gene (Pac) (BMSC-Luc/eGFP/Pac). Both reporter gene-modified BMSC populations displayed high engraftment capacity in the CNS of immunocompetent mice, despite potential immunogenicity of introduced reporter proteins, as demonstrated by real-time bioluminescence imaging (BLI) and histological analysis at different time-points post-implantation. In contrast, both BMSC-Luc and BMSC-Luc/eGFP/Pac did not survive upon intramuscular cell implantation, as demonstrated by real-time BLI at different time-points post-implantation. In addition, ELISPOT analysis demonstrated the induction of IFN-γ-producing CD8+ T-cells upon intramuscular cell implantation, but not upon intracerebral cell implantation, indicating that BMSC-Luc and BMSC-Luc/eGFP/Pac are immune-tolerated in the CNS. However, in our experimental transplantation model, results also indicated that reporter gene-specific immune-reactive T-cell responses were not the main contributors to the immunological rejection of BMSC-Luc or BMSC-Luc/eGFP/Pac upon intramuscular cell implantation. Conclusion We here demonstrate that reporter gene-modified BMSC derived from ROSA26-L-S-L-Luciferase transgenic mice are immune-tolerated upon implantation in the CNS of syngeneic immunocompetent mice, providing a research model for studying survival and localisation of autologous BMSC implants in the CNS by real-time BLI and/or histological analysis in the absence of immunosuppressive therapy.

Published
2009
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11. Interleukin-13 immune gene therapy prevents CNS inflammation and demyelination via alternative activation of microglia and macrophages

Author

Guglielmetti, Caroline, Le Blon, Debbie, Santermans, Eva, Salas-Perdomo, Angelica, Daans, Jasmijn, De Vocht, Nathalie, Shah, Disha, Hoornaert, Chloé, Praet, Jelle, Peerlings, Jurgen, Kara, Firat, Bigot, Christian, Mai, Zhenhua, Hens, Niels, Hendrix, Sven, Verhoye, Marleen, Planas, Anna M, Berneman, Zwi, Van der Linden, Annemie, and Ponsaerts, Peter

Subjects
magnetic resonance imaging, demyelination, multiple sclerosis
Abstract

Detrimental inflammatory responses in the central nervous system are a hallmark of various brain injuries and diseases. With this study we provide evidence that lentiviral vector-mediated expression of the immune-modulating cytokine interleukin 13 (IL-13) induces an alternative activation program in both microglia and macrophages conferring protection against severe oligodendrocyte loss and demyelination in the cuprizone mouse model for multiple sclerosis (MS). First, IL-13 mediated modulation of cuprizone induced lesions was monitored using T2-weighted magnetic resonance imaging and magnetization transfer imaging, and further correlated with quantitative histological analyses for inflammatory cell influx, oligodendrocyte death, and demyelination. Second, following IL-13 immune gene therapy in cuprizone-treated eGFP+ bone marrow chimeric mice, we provide evidence that IL-13 directs the polarization of both brain-resident microglia and infiltrating macrophages towards an alternatively activated phenotype, thereby promoting the conversion of a pro-inflammatory environment toward an anti-inflammatory environment, as further evidenced by gene expression analyses. Finally, we show that IL-13 immune gene therapy is also able to limit lesion severity in a pre-existing inflammatory environment. In conclusion, these results highlight the potential of IL-13 to modulate microglia/macrophage responses and to improve disease outcome in a mouse model for MS.

Published
2016
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12. In Vivo Interleukin-13-Primed Macrophages Contribute to Reduced Alloantigen-Specific T Cell Activation and Prolong Immunological Survival of Allogeneic Mesenchymal Stem Cell Implants

Author

Hoornaert, Chloé C.J., Verbeeck, Louca, Quarta, Alessandra, De Vocht, Nathalie, Lemmens, Evi, Goossens, Herman, van der linden, Annemie, Roobrouck, Valerie V.D., Verfaillie, Catherine, Hendrix, Sven, Moser, Muriel, Luyckx, Evi, Berneman, Zwi Nisan, Ponsaerts, Peter, Reekmans, Kristien, Dhainaut, Maxime, Guglielmetti, Caroline, Le Blon, Debbie, Dooley, Dearbhaile, Fransen, Erik, Daans, Jasmijn, Hoornaert, Chloé C.J., Verbeeck, Louca, Quarta, Alessandra, De Vocht, Nathalie, Lemmens, Evi, Goossens, Herman, van der linden, Annemie, Roobrouck, Valerie V.D., Verfaillie, Catherine, Hendrix, Sven, Moser, Muriel, Luyckx, Evi, Berneman, Zwi Nisan, Ponsaerts, Peter, Reekmans, Kristien, Dhainaut, Maxime, Guglielmetti, Caroline, Le Blon, Debbie, Dooley, Dearbhaile, Fransen, Erik, and Daans, Jasmijn

Abstract

Transplantation of mesenchymal stem cells (MSCs) into injured or diseased tissue—for the in situ delivery of a wide variety of MSC-secreted therapeutic proteins—is an emerging approach for the modulation of the clinical course of several diseases and traumata. From an emergency point-of-view, allogeneic MSCs have numerous advantages over patient-specific autologous MSCs since “off-the-shelf” cell preparations could be readily available for instant therapeutic intervention following acute injury. Although we confirmed the in vitro immunomodulatory capacity of allogeneic MSCs on antigen-presenting cells with standard coculture experiments, allogeneic MSC grafts were irrevocably rejected by the host's immune system upon either intramuscular or intracerebral transplantation. In an attempt to modulate MSC allograft rejection in vivo, we transduced MSCs with an interleukin-13 (IL13)-expressing lentiviral vector. Our data clearly indicate that prolonged survival of IL13-expressing allogeneic MSC grafts in muscle tissue coincided with the induction of an alternatively activated macrophage phenotype in vivo and a reduced number of alloantigen-reactive IFNγ- and/or IL2-producing CD8+ T cells compared to nonmodified allografts. Similarly, intracerebral IL13-expressing MSC allografts also exhibited prolonged survival and induction of an alternatively activated macrophage phenotype, although a peripheral T cell component was absent. In summary, this study demonstrates that both innate and adaptive immune responses are effectively modulated in vivo by locally secreted IL13, ultimately resulting in prolonged MSC allograft survival in both muscle and brain tissue. Stem Cells 2016;34:1971–1984., SCOPUS: ar.j, FLWOA, info:eu-repo/semantics/published

Published
2016

13. Intracerebral transplantation of interleukin 13-producing mesenchymal stem cells limits microgliosis, oligodendrocyte loss and demyelination in the cuprizone mouse model

Author

Le Blon, Debbie, primary, Guglielmetti, Caroline, additional, Hoornaert, Chloé, additional, Quarta, Alessandra, additional, Daans, Jasmijn, additional, Dooley, Dearbhaile, additional, Lemmens, Evi, additional, Praet, Jelle, additional, De Vocht, Nathalie, additional, Reekmans, Kristien, additional, Santermans, Eva, additional, Hens, Niel, additional, Goossens, Herman, additional, Verhoye, Marleen, additional, Van der Linden, Annemie, additional, Berneman, Zwi, additional, Hendrix, Sven, additional, and Ponsaerts, Peter, additional

Published
2016
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14. Interleukin-13 immune gene therapy prevents CNS inflammation and demyelination via alternative activation of microglia and macrophages

Author

Guglielmetti, Caroline, primary, Le Blon, Debbie, additional, Santermans, Eva, additional, Salas-Perdomo, Angelica, additional, Daans, Jasmijn, additional, De Vocht, Nathalie, additional, Shah, Disha, additional, Hoornaert, Chloé, additional, Praet, Jelle, additional, Peerlings, Jurgen, additional, Kara, Firat, additional, Bigot, Christian, additional, Mai, Zhenhua, additional, Goossens, Herman, additional, Hens, Niel, additional, Hendrix, Sven, additional, Verhoye, Marleen, additional, Planas, Anna M., additional, Berneman, Zwi, additional, van der Linden, Annemie, additional, and Ponsaerts, Peter, additional

Published
2016
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15. In Vivo Interleukin-13-Primed Macrophages Contribute to Reduced Alloantigen-Specific T Cell Activation and Prolong Immunological Survival of Allogeneic Mesenchymal Stem Cell Implants

Author

Hoornaert, Chloé J., primary, Luyckx, Evi, additional, Reekmans, Kristien, additional, Dhainaut, Maxime, additional, Guglielmetti, Caroline, additional, Le Blon, Debbie, additional, Dooley, Dearbhaile, additional, Fransen, Erik, additional, Daans, Jasmijn, additional, Verbeeck, Louca, additional, Quarta, Alessandra, additional, De Vocht, Nathalie, additional, Lemmens, Evi, additional, Goossens, Herman, additional, Van der Linden, Annemie, additional, Roobrouck, Valerie D., additional, Verfaillie, Catherine, additional, Hendrix, Sven, additional, Moser, Muriel, additional, Berneman, Zwi N., additional, and Ponsaerts, Peter, additional

Published
2016
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16. Multimodal imaging of micron-sized iron oxide particles following in vitro and in vivo uptake by stem cells: down to the nanometer scale

Author

Roose, Dimitri, Leroux, Frédéric, de Vocht, Nathalie, Guglielmetti, Caroline, Pintelon, Isabel, Adriaensen, Dirk, Ponsaerts, Peter, Van Der Linden, Anne-Marie, and Bals, Sara

Subjects
Computer. Automation, Physics, Human medicine
Abstract

In this study, the interaction between cells and micron-sized paramagnetic iron oxide (MPIO) particles was investigated by characterizing MPIO in their original state, and after cellular uptake in vitro as well as in vivo. Moreover, MPIO in the olfactory bulb were studied 9months after injection. Using various imaging techniques, cell-MPIO interactions were investigated with increasing spatial resolution. Live cell confocal microscopy demonstrated that MPIO co-localize with lysosomes after in vitro cellular uptake. In more detail, a membrane surrounding the MPIO was observed by high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM). Following MPIO uptake in vivo, the same cell-MPIO interaction was observed by HAADF-STEM in the subventricular zone at 1week and in the olfactory bulb at 9months after MPIO injection. These findings provide proof for the current hypothesis that MPIO are internalized by the cell through endocytosis. The results also show MPIO are not biodegradable, even after 9months in the brain. Moreover, they show the possibility of HAADF-STEM generating information on the labeled cell as well as on the MPIO. In summary, the methodology presented here provides a systematic route to investigate the interaction between cells and nanoparticles from the micrometer level down to the nanometer level and beyond. Copyright (c) 2014 John Wiley & Sons, Ltd.

Published
2014

18. Distinct In Vitro Properties of Embryonic and Extraembryonic Fibroblast-Like Cells are Reflected in their in Vivo Behavior following Grafting in the Adult Mouse Brain

Author

Costa, Roberta, primary, Bergwerf, Irene, additional, Santermans, Eva, additional, De Vocht, Nathalie, additional, Praet, Jelle, additional, Daans, Jasmijn, additional, Le Blon, Debbie, additional, Hoornaert, Chloé, additional, Reekmans, Kristien, additional, Hens, Niel, additional, Goossens, Herman, additional, Berneman, Zwi, additional, Parolini, Ornella, additional, Alviano, Francesco, additional, and Ponsaerts, Peter, additional

Published
2015
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21. Labeling of Luciferase/eGFP-expressing bone marrow-derived stromal cells with fluorescent micron-sized iron oxide particles improves quantitative and qualitative multimodal imaging of cellular grafts in vivo.

Author

Vocht, Nathalie, Bergwerf, Irene, Vanhoutte, Greetje, Daans, Jasmijn, Visscher, Geofrey, Chatterjee, Shyama, Pauwels, Patrick, Berneman, Zwi, Ponsaerts, Peter, Linden, Annemie, De Vocht, Nathalie, De Visscher, Geofrey, and Van der Linden, Annemie

Subjects
MESENCHYMAL stem cells, REPORTER genes, CELL transplantation, BIOLUMINESCENCE, MAGNETIC resonance imaging, HISTOLOGY, PROTEIN metabolism, ANIMAL experimentation, BONE marrow, COMPARATIVE studies, CONNECTIVE tissue cells, IRON compounds, LIGHT, RESEARCH methodology, MEDICAL cooperation, MICE, OXIDOREDUCTASES, PARTICLES, RESEARCH, STAINS & staining (Microscopy), THREE-dimensional imaging, EVALUATION research, TRANSPLANTATION of organs, tissues, etc.
Abstract

Purpose: Development of multimodal imaging strategies is currently of utmost importance for the validation of preclinical stem cell therapy studies.Procedures: We performed a combined labeling strategy for bone marrow-derived stromal cells (BMSC) based on genetic modification with the reporter genes Luciferase and eGFP (BMSC-Luc/eGFP) and physical labeling with blue fluorescent micron-sized iron oxide particles (MPIO) in order to unambiguously identify BMSC localization, survival, and differentiation following engraftment in the central nervous system of mice by in vivo bioluminescence (BLI) and magnetic resonance imaging and postmortem histological analysis.Results: Using this combination, a significant increase of in vivo BLI signal was observed for MPIO-labeled BMSC-Luc/eGFP. Moreover, MPIO labeling of BMSC-Luc/eGFP allows for the improved identification of implanted cells within host tissue during histological observation.Conclusions: This study describes an optimized labeling strategy for multimodal stem cell imaging resulting in improved quantitative and qualitative detection of cellular grafts. [ABSTRACT FROM AUTHOR]

Published
2011
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25. Cell Type-Associated Differences in Migration, Survival, and Immunogenicity following Grafting in CNS Tissue

Author

Praet, Jelle, primary, Reekmans, Kristien, additional, Lin, Dan, additional, De Vocht, Nathalie, additional, Bergwerf, Irene, additional, Tambuyzer, Bart, additional, Daans, Jasmijn, additional, Hens, Niel, additional, Goossens, Herman, additional, Pauwels, Patrick, additional, Berneman, Zwi, additional, Van Der Linden, Annemie, additional, and Ponsaerts, Peter, additional

Published
2012
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27. Clinical Potential of Intravenous Neural Stem Cell Delivery for Treatment of Neuroinflammatory Disease in Mice?

Author

Reekmans, Kristien P., primary, Praet, Jelle, additional, De Vocht, Nathalie, additional, Tambuyzer, Bart R., additional, Bergwerf, Irene, additional, Daans, Jasmijn, additional, Baekelandt, Veerle, additional, Vanhoutte, Greetje, additional, Goossens, Herman, additional, Jorens, Philippe G., additional, Ysebaert, Dirk K., additional, Chatterjee, Shyama, additional, Pauwels, Patrick, additional, Van Marck, Eric, additional, Berneman, Zwi N., additional, Van Der Linden, Annemie, additional, and Ponsaerts, Peter, additional

Published
2011
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28. Recognition of cellular implants by the brain's innate immune system

Author

Bergwerf, Irene, primary, Tambuyzer, Bart, additional, De Vocht, Nathalie, additional, Reekmans, Kristien, additional, Praet, Jelle, additional, Daans, Jasmijn, additional, Chatterjee, Shyama, additional, Pauwels, Patrick, additional, Linden, Annemie, additional, Berneman, Zwi N, additional, and Ponsaerts, Peter, additional

Published
2010
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29. Reporter gene-expressing bone marrow-derived stromal cells are immune-tolerated following implantation in the central nervous system of syngeneic immunocompetent mice

Author

Bergwerf, Irene, primary, De Vocht, Nathalie, additional, Tambuyzer, Bart, additional, Verschueren, Jacob, additional, Reekmans, Kristien, additional, Daans, Jasmijn, additional, Ibrahimi, Abdelilah, additional, Van Tendeloo, Viggo, additional, Chatterjee, Shyama, additional, Goossens, Herman, additional, Jorens, Philippe G, additional, Baekelandt, Veerle, additional, Ysebaert, Dirk, additional, Van Marck, Eric, additional, Berneman, Zwi N, additional, Linden, Annemie Van Der, additional, and Ponsaerts, Peter, additional

Published
2009
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31. Tackling the physiological barriers for successful mesenchymal stem cell transplantation into the central nervous system

Author

De Vocht, Nathalie, Praet, Jelle, Reekmans, Kristien, Le Blon, Debbie, Hoornaert, Chloé, Daans, Jasmijn, Berneman, Zwi, Van Der Linden, Annemie, and Ponsaerts, Peter

Subjects
3. Good health
Abstract

Over the past decade a lot of research has been performed towards the therapeutic use of mesenchymal stem cells (MSCs) in neurodegenerative and neuroinflammatory diseases. MSCs have shown to be beneficial in different preclinical studies of central nervous system (CNS) disorders due to their immunomodulatory properties and their capacity to secrete various growth factors. Nevertheless, most of the transplanted cells die within the first hours after transplantation and induce a neuroinflammatory response. In order to increase the efficacy of MSC transplantation, it is thus imperative to completely characterise the mechanisms mediating neuroinflammation and cell death following MSC transplantation into the CNS. Consequently, different components of these cell death- and neuroinflammation-inducing pathways can be targeted in an attempt to improve the therapeutic potential of MSCs for CNS disorders.

33. Histological characterization and quantification of cellular events following neural and fibroblast(-like) stem cell grafting in healthy and demyelinated CNS tissue.

Author

Praet J, Santermans E, Reekmans K, de Vocht N, Le Blon D, Hoornaert C, Daans J, Goossens H, Berneman Z, Hens N, Van der Linden A, and Ponsaerts P

Subjects
Animals, Cell Culture Techniques, Cell Differentiation, Cell- and Tissue-Based Therapy, Disease Models, Animal, Female, Fibroblasts cytology, Fibroblasts metabolism, Flow Cytometry, Gene Expression, Genes, Reporter, Graft Survival, Immunohistochemistry, Mice, Neural Stem Cells metabolism, Regenerative Medicine, Transgenes, Demyelinating Diseases therapy, Neural Stem Cells cytology, Stem Cell Transplantation
Abstract

Preclinical animal studies involving intracerebral (stem) cell grafting are gaining popularity in many laboratories due to the reported beneficial effects of cell grafting on various diseases or traumata of the central nervous system (CNS). In this chapter, we describe a histological workflow to characterize and quantify cellular events following neural and fibroblast(-like) stem cell grafting in healthy and demyelinated CNS tissue. First, we provide standardized protocols to isolate and culture eGFP(+) neural and fibroblast(-like) stem cells from embryonic mouse tissue. Second, we describe flow cytometric procedures to determine cell viability, eGFP transgene expression, and the expression of different stem cell lineage markers. Third, we explain how to induce reproducible demyelination in the CNS of mice by means of cuprizone administration, a validated mouse model for human multiple sclerosis. Fourth, the technical procedures for cell grafting in the CNS are explained in detail. Finally, an optimized and validated workflow for the quantitative histological analysis of cell graft survival and endogenous astroglial and microglial responses is provided.

Published
2014
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