Your search keyword '"Papazian, Natalie"' showing total 32 results

1. An IL-1β-driven neutrophil–stromal cell axis fosters a BAFF-rich protumor microenvironment in individuals with multiple myeloma

Author

de Jong, Madelon M. E., Fokkema, Cathelijne, Papazian, Natalie, Czeti, Ágnes, Appelman, Marjolein K., Vermeulen, Michael, van Heusden, Teddie, Hoogenboezem, Remco M., van Beek, Gregory, Tahri, Sabrin, Sanders, Mathijs A., van de Woestijne, Pieter C., Gay, Francesca, Moreau, Philippe, Büttner-Herold, Maike, Bruns, Heiko, van Duin, Mark, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2024

2. The multiple myeloma microenvironment is defined by an inflammatory stromal cell landscape

Author

de Jong, Madelon M. E., Kellermayer, Zoltán, Papazian, Natalie, Tahri, Sabrin, Hofste op Bruinink, Davine, Hoogenboezem, Remco, Sanders, Mathijs A., van de Woestijne, Pieter C., Bos, P. Koen, Khandanpour, Cyrus, Vermeulen, Jessica, Moreau, Philippe, van Duin, Mark, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2021

3. Inhibition of MICA and MICB shedding enhances memory-like NK-cell–mediated cytotoxicity against multiple myeloma

Author

Tahri, Sabrin, Piccinelli, Sara, Su, Nang Kham, Lampe, Luisa, Dong, Han, Vergara Cadavid, Juliana, Boiarsky, Rebecca, Papazian, Natalie, Lightbody, Elizabeth D., Cao, Amanda, Alberge, Jean-Baptiste, Ferrari de Andrade, Lucas, Rahmat, Mahshid, Shen, Yujia, Blanco Fernández, Laura, Zabaleta, Aintzane, Günther, Andreas, Getz, Gad, Sonneveld, Pieter, Cupedo, Tom, Wucherpfennig, Kai W., Ghobrial, Irene M., and Romee, Rizwan

Published

2024

4. Tertiary Lymphoid Structures in Rheumatoid Arthritis: NF-κB–Inducing Kinase–Positive Endothelial Cells as Central Players

Author

Noort, Ae R., van Zoest, Katinka P.M., van Baarsen, Lisa G., Maracle, Chrissta X., Helder, Boy, Papazian, Natalie, Romera-Hernandez, Monica, Tak, Paul P., Cupedo, Tom, and Tas, Sander W.

Published

2015

5. Inhibition of MICA and MICB Shedding Enhances Cytokine-Induced Memory-like NK Cell-Mediated Activity Against Multiple Myeloma

Author

Tahri, Sabrin, Kham Su, Nang, Lampe, Luisa Maria, Dong, Han, Vergara Cadavid, Juliana, Papazian, Natalie, Cao, Amanda, Alberge, Jean-Baptiste, Ferrari de Andrade, Lucas, Rahmat, Mahshid, Shen, Yujia, Boiarsky, Rebecca, Blanco, Laura, Paiva, Bruno, Guenther, Andreas, Getz, Gad, Sonneveld, Pieter, Cupedo, Tom, Wucherpfennig, Kai W., Ghobrial, Irene, and Romee, Rizwan

Published

2022

6. Single-Cell Transcriptomic Analysis Reveals Reduction of Cytotoxic NK Cells in a Subset of Newly Diagnosed Multiple Myeloma Patients Impacting Outcome after Daratumumab Therapy

Author

Tahri, Sabrin, de Jong, Madelon M.E., Fokkema, Cathelijne, Papazian, Natalie, Kellermayer, Zoltan, Vermeulen, Michael, Duin, Mark van, van de Woestijne, Pieter, Nasserinejad, Kazem, Saraci, Elona, D'Agostino, Mattia, Gay, Francesca, van der Velden, Vincent H.J., Van De Donk, Niels WCJ, Broijl, Annemiek, Sonneveld, Pieter, Zweegman, Sonja, and Cupedo, Tom

Published

2022

7. P-388 An IL-1β driven neutrophil-stromal cell axis fosters a BAFF-rich tumor-supportive bone marrow environment in multiple myeloma patients

Author

De Jong, Madelon, Fokkema, Cathelijne, Papazian, Natalie, Tahri, Sabrin, Sanders, Mathijs, Gay, Francesca, Moreau, Philippe, Bruns, Heiko, van Duin, Mark, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2023

8. Stromal Cell-Activated Bone Marrow Neutrophils Provide BAFF in Newly Diagnosed and Treated Multiple Myeloma

Author

de Jong, Madelon M.E., Fokkema, Cathelijne, Papazian, Natalie, van Heusden, Teddie, Vermeulen, Michael, Tahri, Sabrin, Hoogenboezem, Remco, Duin, Mark van, van de Woestijne, Pieter, Langerak, Anton, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2022

9. MAF Translocations Are Enriched in NDMM Patients with Elevated Levels of Circulating Tumor Cells Suggesting a Genetic Basis for Aggressive Disease Course

Author

Fokkema, Cathelijne, de Jong, Madelon M.E., Tahri, Sabrin, Hofste Op Bruinink, Davine, Kellermayer, Zoltan, den Hollander, Chelsea, Vermeulen, Michael, Papazian, Natalie, Duin, Mark van, Hoogenboezem, Remco, Wevers, Michiel J.W., van der Velden, Vincent H.J., Sanders, Mathijs A., Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2022

10. P-082: Stromal cell - neutrophil interactions are driving a pro tumor environment in multiple myeloma

Author

de Jong, Madelon, Fokkema, Cathelijne, Papazian, Natalie, van Heusden, Teddie, Vermeulen, Michael, Tahri, Sabrin, Hoogenboezem, Remco, van Duin, Mark, van de Woestijne, Pieter, Langerak, Anton, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2022

11. P-062: MAF translocations are enriched in high-risk NDMM patients with elevated levels of circulating tumor cells suggesting a genetic basis for the aggressive disease course

Author

Fokkema, Cathelijne, de Jong, Madelon, Tahri, Sabrin, Kellermayer, Zoltan, Hollander, Chelsea Den, Vermeulen, Michael, Papazian, Natalie, van Duin, Mark, op Bruinink, Davine Hofste, Wevers, Michiel, Van der Velden, Vincent, Sanders, Mathijs, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2022

12. P-021: 7C6 is a novel monoclonal antibody that induces enhanced anti-myeloma activity of cytokine induced memory-like (CIML) NK cells by blocking MICA/B shedding and antibodydependent cell cytotoxicity

Author

Tahri, Sabrin, Su, Nang Kham, Lampe, Luisa, Dong, Han, Cadavid, Juliana Vergara, Papazian, Natalie, Cao, Amanda, Alberge, Jean-Baptiste, de Andrade, Lucas Ferrari, Rahmat, Mahshid, Shen, Yujia, Boiarsky, Rebecca, Blanco, Laura, Paiva, Bruno, Günther, Andreas, Getz, Gad, Sonneveld, Pieter, Wucherpfennig, Kai, Cupedo, Tom, Ghobrial, Irene, and Rizwan, Romee

Published

2022

13. OAB-029: Single-cell transcriptomic analysis reveals reduction of cytotoxic NK cells in a subset of newly diagnosed multiple myeloma patients impacting outcome after daratumumab therapy

Author

Tahri, Sabrin, de Jong, Madelon, Fokkema, Cathelijne, Papazian, Natalie, Kellermayer, Zoltan, Hollander, Chelsea Den, Vermeulen, Michael, van Duin, Mark, van de Woestijne, Pieter, Nasserinejad, Kazem, Saraci, Elona, D’Agostino, Mattia, Gay, Francesca, Van der Velden, Vincent, Zweegman, Sonja, van de Donk, Niels W.C.J., Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2022

14. Intestinal-derived ILCs migrating in lymph increase IFNγ production in response to Salmonella Typhimurium infection.

Author

Kästele, Verena, Mayer, Johannes, Lee, Edward S., Papazian, Natalie, Cole, John J., Cerovic, Vuk, Belz, Gabrielle, Tomura, Michio, Eberl, Gerard, Goodyear, Carl, Maciewicz, Rose A., Wall, Daniel, Cupedo, Tom, Withers, David R., and Milling, Simon

Published

2021

15. Fibroblast‐derived IL‐33 is dispensable for lymph node homeostasis but critical for CD8 T‐cell responses to acute and chronic viral infection.

Author

Aparicio‐Domingo, Patricia, Cannelle, Hélène, Buechler, Matthew B., Nguyen, Sylvain, Kallert, Sandra M., Favre, Stéphanie, Alouche, Nagham, Papazian, Natalie, Ludewig, Burkhard, Cupedo, Tom, Pinschewer, Daniel D., Turley, Shannon J., and Luther, Sanjiv A.

Subjects

VIRUS diseases, LYMPHOCYTIC choriomeningitis virus, LYMPH nodes, HOMEOSTASIS, T cells

Abstract

Upon viral infection, stressed or damaged cells can release alarmins like IL‐33 that act as endogenous danger signals alerting innate and adaptive immune cells. IL‐33 coming from nonhematopoietic cells has been identified as important factor triggering the expansion of antiviral CD8+ T cells. In LN the critical cellular source of IL‐33 is unknown, as is its potential cell‐intrinsic function as a chromatin‐associated factor. Using IL‐33‐GFP reporter mice, we identify fibroblastic reticular cells (FRC) and lymphatic endothelial cells (LEC) as the main IL‐33 source. In homeostasis, IL‐33 is dispensable as a transcriptional regulator in FRC, indicating it functions mainly as released cytokine. Early during infection with lymphocytic choriomeningitis virus (LCMV) clone 13, both FRC and LEC lose IL‐33 protein expression suggesting cytokine release, correlating timewise with IL‐33 receptor expression by reactive CD8+ T cells and their greatly augmented expansion in WT versus ll33−/− mice. Using mice lacking IL‐33 selectively in FRC versus LEC, we identify FRC as key IL‐33 source driving acute and chronic antiviral T‐cell responses. Collectively, these findings show that LN T‐zone FRC not only regulate the homeostasis of naïve T cells but also their expansion and differentiation several days into an antiviral response. [ABSTRACT FROM AUTHOR]

Published

2021

16. Progressive maturation toward hematopoietic stem cells in the mouse embryo aorta

Author

Boisset, Jean-Charles, Clapes, Thomas, Klaus, Anna, Papazian, Natalie, Onderwater, Jos, Mommaas-Kienhuis, Mieke, Cupedo, Tom, and Robin, Catherine

Published

2015

17. Expression of Plet1 controls interstitial migration of murine small intestinal dendritic cells.

Author

Karrich, Julien J., Romera‐Hernández, Mónica, Papazian, Natalie, Veenbergen, Sharon, Cornelissen, Ferry, Aparicio‐Domingo, Patricia, Stenhouse, Frances H., Peddie, C. Diana, Hoogenboezem, Remco M., den Hollander, Chelsea W. J., Gaskell, Terri, Medley, Tanya, Boon, Louis, Blackburn, C. Clare, Withers, David R., Samsom, Janneke N., and Cupedo, Tom

Abstract

Under homeostatic conditions, dendritic cells (DCs) continuously patrol the intestinal lamina propria. Upon antigen encounter, DCs initiate C‐C motif chemokine receptor 7 (CCR7) expression and migrate into lymph nodes to direct T cell activation and differentiation. The mechanistic underpinnings of DC migration from the tissues to lymph nodes have been largely elucidated, contributing greatly to our understanding of DC functionality and intestinal immunity. In contrast, the molecular mechanisms allowing DCs to efficiently migrate through the complex extracellular matrix of the intestinal lamina propria prior to antigen encounter are still incompletely understood. Here we show that small intestinal murine CD11b+CD103+ DCs express Placenta‐expressed transcript 1 (Plet1), a glycophoshatidylinositol (GPI)‐anchored surface protein involved in migration of keratinocytes during wound healing. In the absence of Plet1, CD11b+CD103+ DCs display aberrant migratory behavior, and accumulate in the small intestine, independent of CCR7 responsiveness. RNA‐sequencing indicated involvement of Plet1 in extracellular matrix‐interactiveness, and subsequent in‐vitro migration assays revealed that Plet1 augments the ability of DCs to migrate through extracellular matrix containing environments. In conclusion, our findings reveal that expression of Plet1 facilitates homeostatic interstitial migration of small intestinal DCs. Naïve D103+ dendritic cells need to efficiently patrol the intestine in order to scan for pathogens. Efficiency of this migration depends on expression of Plet1, a microbiota‐regulated molecule also used by keratinocytes. These findings reveal a mechanistic link between migratory events during wound healing and immunity. [ABSTRACT FROM AUTHOR]

Published

2019

18. Cross-Tissue Transcriptomic Analysis of Human Secondary Lymphoid Organ-Residing ILC3s Reveals a Quiescent State in the Absence of Inflammation.

Author

Bar-Ephraim, Yotam E., Cornelissen, Ferry, Papazian, Natalie, Konijn, Tanja, Hoogenboezem, Remco M., Sanders, Mathijs A., Westerman, Bart A., Gönültas, Mehmet, Kwekkeboom, Jaap, Den Haan, Joke M.M., Reijmers, Rogier M., Mebius, Reina E., and Cupedo, Tom

Abstract

Summary A substantial number of human and mouse group 3 innate lymphoid cells (ILC3s) reside in secondary lymphoid organs, yet the phenotype and function of these ILC3s is incompletely understood. Here, we employed an unbiased cross-tissue transcriptomic approach to compare human ILC3s from non-inflamed lymph nodes and spleen to their phenotypic counterparts in inflamed tonsils and from circulation. These analyses revealed that, in the absence of inflammation, lymphoid organ-residing ILC3s lack transcription of cytokines associated with classical ILC3 functions. This was independent of expression of the natural cytotoxicity receptor NKp44. However, and in contrast to ILC3s from peripheral blood, lymphoid organ-residing ILC3s express activating cytokine receptors and have acquired the ability to be recruited into immune responses by inflammatory cytokines. This comprehensive cross-tissue dataset will allow for identification of functional changes in human lymphoid organ ILC3s associated with human disease. [ABSTRACT FROM AUTHOR]

Published

2017

19. Loss of IL-22 inhibits autoantibody formation in collagen-induced arthritis in mice.

Author

Corneth, Odilia B. J., Reijmers, Rogier M., Mus, Adriana M.C., Asmawidjaja, Patrick S., Hamburg, Jan Piet, Papazian, Natalie, Siegers, Jurre Y., Mourcin, Frédéric, Amin, Rada, Tarte, Karin, Hendriks, Rudi W., Cupedo, Tom, and Lubberts, Erik

Abstract

Interleukin 22 (IL-22) expression is associated with increased joint destruction and disease progression in rheumatoid arthritis (RA). Although IL-22 is considered a pro-inflammatory cytokine, its mechanism of action in RA remains incompletely understood. Here, we used the collagen-induced arthritis model in IL-22 deficient (IL-22−/−) mice to study the role of IL-22 in RA. In spite of normal disease incidence, disease severity is significantly diminished in IL-22−/− mice. Moreover, pathogenicity of Th17 cells and development and function of B cells are unaffected. In contrast, splenic plasma cells, as well as serum autoantibody titers, are reduced in the absence of IL-22. At the peak of disease, germinal centers (GCs) are severely reduced in the spleens of IL-22−/− mice, correlating with a decline in GC B-cell numbers. Within the GC, we identified IL-22R1 expressing follicular dendritic cell-like stromal cells. Human lymphoid stromal cells respond to IL-22 ex vivo by inducing transcription of CXCL12 and CXCL13. We therefore postulate IL-22 as an important enhancer of the GC reaction, maintaining chemokine levels for the persistence of GC reactions, essential for the production of autoantibody-secreting plasma cells. Blocking IL-22 might therefore prevent immune-complex deposition and destruction of joints in RA patients. [ABSTRACT FROM AUTHOR]

Published

2016

20. P-080: Single-cell transcriptomic analysis of bone marrow NK cells reveals loss of activated cytotoxic NK cells in Multiple Myeloma.

Author

Tahri, Sabrin, de Jong, Madelon, Papazian, Natalie, Fokkema, A. Cathelijne, Kellermayer, Zoltán, van de Woestijne, Pieter, van Duin, Mark, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2021

21. P-072: Progression and dissemination of experimental multiple myeloma is associated with loss of innate and adaptive immune-mediated tumor control.

Author

Kellermayer, Zoltán, Papazian, Natalie, de Jong, Madelon, Fokkema, A. Cathelijne, Tahri, Sabrin, den Hollander, Chelsea, Sonneveld, Pieter, and Cupedo, Tom

Published

2021

22. P-069: Inflammasome-primed neutrophils maintain a pro-tumor microenvironment in Multiple Myeloma.

Author

de Jong, Madelon, Papazian, Natalie, Fokkema, A. Cathelijne, Tahri, Sabrin, Kellermayer, Zoltán, Vermeulen, Michael, van Duin, Mark, van de Woestijne, Pieter, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2021

23. OAB-014: Newly diagnosed Multiple Myeloma patients with high levels of circulating tumor cells are distinguished by increased bone marrow plasma cell proliferation.

Author

Fokkema, A. Cathelijne, Jong, Madelon de, Tahri, Sabrin, Kellermayer, Zoltán, den Hollander, Chelsea, Vermeulen, Michael, Papazian, Natalie, van Duin, Mark, Broijl, Annemiek, Sonneveld, Pieter, and Cupedo, Tom

Published

2021

24. NK cells can generate from precursors in the adult human liver.

Author

Moroso, Viviana, Famili, Farbod, Papazian, Natalie, Cupedo, Tom, van der Laan, Luc J. W., Kazemier, Geert, Metselaar, Herold J., and Kwekkeboom, Jaap

Abstract

Hepatic NK cells constitute ∼40% of hepatic lymphocytes and are phenotypically and functionally distinct from blood NK cells. Whether hepatic NK cells derive from precursors in the BM or develop locally from hepatic progenitors is still unknown. Here, we identify all five known sequential stages of NK-cell development in the adult human liver and demonstrate that CD34+ hepatic progenitors can generate functional NK cells. While early NK-cell precursors (NKPs) were similar in liver and blood, hepatic stage 3 NKPs displayed immunophenotypical differences, suggesting the onset of a liver-specific NK-cell development. Hepatic stage 3 NKPs were RORCneg and did not produce IL-17 or IL-22, excluding them from the lymphoid tissue-inducer (LTi) subset. In vitro culture of hepatic NKPs gave rise to functional NK cells exhibiting strong cytotoxicity against K562 targets. To determine whether hepatic NKPs are stably residing in the liver, we analyzed donor and recipient-derived cells in transplanted livers. Shortly after liver transplantation all donor NKPs in liver grafts were replaced by recipient-derived ones, indicating that hepatic NKPs are recruited from the bloodstream. Together, our results show that NKPs are continuously recruited from peripheral blood into the liver and can potentially differentiate into liver-specific NK cells. [ABSTRACT FROM AUTHOR]

Published

2011

25. Human Placenta Is a Potent Hematopoietic Niche Containing Hematopoietic Stem and Progenitor Cells throughout Development.

Author

Robin, Catherine, Bollerot, Karine, Mendes, Sandra, Haak, Esther, Crisan, Mihaela, Cerisoli, Francesco, Lauw, Ivoune, Kaimakis, Polynikis, Jorna, Ruud, Vermeulen, Mark, Kayser, Manfred, van der Linden, Reinier, Imanirad, Parisa, Verstegen, Monique, Nawaz-Yousaf, Humaira, Papazian, Natalie, Steegers, Eric, Cupedo, Tom, and Dzierzak, Elaine

Subjects

HEMATOPOIETIC stem cells, PLACENTA, STEM cell transplantation, FETAL development, LABORATORY mice, CLINICAL medicine research

Abstract

Hematopoietic stem cells (HSCs) are responsible for the life-long production of the blood system and are pivotal cells in hematologic transplantation therapies. During mouse and human development, the first HSCs are produced in the aorta-gonad-mesonephros region. Subsequent to this emergence, HSCs are found in other anatomical sites of the mouse conceptus. While the mouse placenta con- tains abundant HSCs at midgestation, little is known concerning whether HSCs or hematopoietic progenitors are present and supported in the human placenta during development. In this study we show, over a range of developmental times including term, that the human placenta contains hematopoietic progenitors and HSCs. Moreover, stromal cell lines generated from human placenta at several developmental time points are pericyte-like cells and support human hematopoiesis. Immunostaining of placenta sections during development localizes hematopoietic cells in close contact with pericytes/ perivascular cells. Thus, the human placenta is a potent hematopoietic niche throughout development. [ABSTRACT FROM AUTHOR]

Published

2009

26. Human fetal lymphoid tissue–inducer cells are interleukin 17–producing precursors to RORC+ CD127+ natural killer–like cells.

Author

Cupedo, Tom, Crellin, Natasha K, Papazian, Natalie, Rombouts, Elwin J, Weijer, Kees, Grogan, Jane L, Fibbe, Willem E, Cornelissen, Jan J, and Spits, Hergen

Abstract

The human body contains over 500 individual lymph nodes, yet the biology of their formation is poorly understood. Here we identify human lymphoid tissue–inducer cells (LTi cells) as lineage-negative RORC+ CD127+ cells with the functional ability to interact with mesenchymal cells through lymphotoxin and tumor necrosis factor. Human LTi cells were committed natural killer (NK) cell precursors that produced interleukin 17 (IL-17) and IL-22. In vitro, LTi cells gave rise to RORC+ CD127+ NK cells that retained the ability to produce IL-17 and IL-22. Postnatally, similar populations of LTi cell–like cells and RORC+ CD127+ NK cells were present in tonsils, and both secreted IL-17 and IL-22 but no interferon-γ. Our data indicate that lymph node organogenesis is controlled by an NK cell precursor population with adaptive immune features and demonstrate a previously unappreciated link between the innate and adaptive immune systems. [ABSTRACT FROM AUTHOR]

Published

2009

27. Yap1-Driven Intestinal Repair Is Controlled by Group 3 Innate Lymphoid Cells.

Author

Romera-Hernández, Mónica, Aparicio-Domingo, Patricia, Papazian, Natalie, Karrich, Julien J., Cornelissen, Ferry, Hoogenboezem, Remco M., Samsom, Janneke N., and Cupedo, Tom

Abstract

Tissue repair requires temporal control of progenitor cell proliferation and differentiation to replenish damaged cells. In response to acute insult, group 3 innate lymphoid cells (ILC3s) regulate intestinal stem cell maintenance and subsequent tissue repair. ILC3-derived IL-22 is important for stem cell protection, but the mechanisms of ILC3-driven tissue regeneration remain incompletely defined. Here we report that ILC3-driven epithelial proliferation and tissue regeneration are independent of IL-22. In contrast, ILC3s amplify the magnitude of Hippo-Yap1 signaling in intestinal crypt cells, ensuring adequate initiation of tissue repair and preventing excessive pathology. Mechanistically, ILC3-driven tissue repair is Stat3 independent, but it involves activation of Src family kinases. Our findings reveal that ILC3-driven intestinal repair entails distinct transcriptional networks to control stem cell maintenance and epithelial regeneration, which implies that tissue repair and crypt proliferation can be influenced by targeting innate immune cells independent of the well-established effects of IL-22. • Crypt cell proliferation following small intestinal damage is IL-22 independent • ILC3s amplify the magnitude of epithelial YAP1 signaling following damage • Crypt cell proliferation and Lgr5 cell maintenance are independently regulated Intestinal repair is driven by epithelial stem cells, but how these stem cells are instructed to initiate repair was unknown. Here, Romera-Hernández et al. report that epithelial proliferation after damage is independent of the stem cell-protective signal IL-22 but requires ILC3-dependent amplification of regenerative YAP1 signaling in stem cells. [ABSTRACT FROM AUTHOR]

Published

2020

28. A Stromal Cell Niche for Human and Mouse Type 3 Innate Lymphoid Cells.

Author

Hoorweg, Kerim, Narang, Priyanka, Zhi Li, Thuery, Anne, Papazian, Natalie, Withers, David R., Coles, Mark C., and Cupedo, Tom

Subjects

*STROMAL cells, *MESENCHYMAL stem cells, *CONNECTIVE tissue cells, *LYMPHOID tissue, *IMMUNE system, *PHYSIOLOGY, *GENETICS

Abstract

Adaptive immunity critically depends on the functional compartmentalization of secondary lymphoid organs. Mesenchymal stromal cells create and maintain specialized niches that support survival, activation, and expansion of T and B cells, and integrated analysis of lymphocytes and their niche has been instrumental in understanding adaptive immunity. Lymphoid organs are also home to type 3 innate lymphoid cells (ILC3), innate effector cells essential for barrier immunity. However, a specialized stromal niche for ILC3 has not been identified. A novel lineage-tracing approach now identifies a subset of murine fetal lymphoid tissue organizer cells that gives rise exclusively to adult marginal reticular cells. Moreover, both cell types are conserved from mice to humans and colocalize with ILC3 in secondary lymphoid tissues throughout life. In sum, we provide evidence that fetal stromal organizers give rise to adult marginal reticular cells and form a dedicated stromal niche for innate ILC3 in adaptive lymphoid organs. [ABSTRACT FROM AUTHOR]

Published

2015

29. IL-7-dependent maintenance of ILC3s is required for normal entry of lymphocytes into lymph nodes.

Author

Yang J, Cornelissen F, Papazian N, Reijmers RM, Llorian M, Cupedo T, Coles M, and Seddon B

Subjects

Animals, Cell Movement, Dendritic Cells metabolism, Gene Deletion, Genetic Loci, Lymphocyte Count, Mice, Inbred C57BL, Organ Size, Receptors, Interleukin-7 metabolism, Stromal Cells metabolism, B-Lymphocytes cytology, Immunity, Innate, Interleukin-7 metabolism, Lymph Nodes cytology, Lymphocytes cytology, Lymphocytes metabolism, T-Lymphocytes cytology

Abstract

IL-7 is essential for the development and homeostasis of T and B lymphocytes and is critical for neonatal lymph node organogenesis because Il7 -/- mice lack normal lymph nodes. Whether IL-7 is a continued requirement for normal lymph node structure and function is unknown. To address this, we ablated IL-7 function in normal adult hosts. Either inducible Il7 gene deletion or IL-7R blockade in adults resulted in a rapid loss of lymph node cellularity and a corresponding defect in lymphocyte entry into lymph nodes. Although stromal and dendritic cell components of lymph nodes were present in normal numbers and representation, innate lymphoid cell (ILC) subpopulations were substantially decreased after IL-7 ablation. Testing lymphocyte homing in bone marrow chimeras reconstituted with Rorc -/- bone marrow confirmed that ILC3s in lymph nodes are required for normal lymphocyte homing. Collectively, our data suggest that maintenance of intact lymph nodes relies on IL-7-dependent maintenance of ILC3 cells., (© 2018 Yang et al.)

Published

2018

30. Type 3 innate lymphoid cells maintain intestinal epithelial stem cells after tissue damage.

Author

Aparicio-Domingo P, Romera-Hernandez M, Karrich JJ, Cornelissen F, Papazian N, Lindenbergh-Kortleve DJ, Butler JA, Boon L, Coles MC, Samsom JN, and Cupedo T

Subjects

Animals, Interleukins physiology, Intestinal Mucosa drug effects, Intestinal Mucosa pathology, Methotrexate toxicity, Mice, Mice, Inbred C57BL, Interleukin-22, Immunity, Innate, Intestinal Mucosa immunology, Lymphocytes physiology, Stem Cells physiology

Abstract

Disruption of the intestinal epithelial barrier allows bacterial translocation and predisposes to destructive inflammation. To ensure proper barrier composition, crypt-residing stem cells continuously proliferate and replenish all intestinal epithelial cells within days. As a consequence of this high mitotic activity, mucosal surfaces are frequently targeted by anticancer therapies, leading to dose-limiting side effects. The cellular mechanisms that control tissue protection and mucosal healing in response to intestinal damage remain poorly understood. Type 3 innate lymphoid cells (ILC3s) are regulators of homeostasis and tissue responses to infection at mucosal surfaces. We now demonstrate that ILC3s are required for epithelial activation and proliferation in response to small intestinal tissue damage induced by the chemotherapeutic agent methotrexate. Multiple subsets of ILC3s are activated after intestinal tissue damage, and in the absence of ILC3s, epithelial activation is lost, correlating with increased pathology and severe damage to the intestinal crypts. Using ILC3-deficient Lgr5 reporter mice, we show that maintenance of intestinal stem cells after damage is severely impaired in the absence of ILC3s or the ILC3 signature cytokine IL-22. These data unveil a novel function of ILC3s in limiting tissue damage by preserving tissue-specific stem cells., (© 2015 Aparicio-Domingo et al.)

Published

2015

31. Functional Differences between Human NKp44(-) and NKp44(+) RORC(+) Innate Lymphoid Cells.

Author

Hoorweg K, Peters CP, Cornelissen F, Aparicio-Domingo P, Papazian N, Kazemier G, Mjösberg JM, Spits H, and Cupedo T

Abstract

Human RORC(+) lymphoid tissue inducer cells are part of a rapidly expanding family of innate lymphoid cells (ILC) that participate in innate and adaptive immune responses as well as in lymphoid tissue (re) modeling. The assessment of a potential role for innate lymphocyte-derived cytokines in human homeostasis and disease is hampered by a poor characterization of RORC(+) innate cell subsets and a lack of knowledge on the distribution of these cells in adults. Here we show that functionally distinct subsets of human RORC(+) innate lymphoid cells are enriched for secretion of IL-17a or IL-22. Both subsets have an activated phenotype and can be distinguished based on the presence or absence of the natural cytotoxicity receptor NKp44. NKp44(+) IL-22 producing cells are present in tonsils while NKp44(-) IL-17a producing cells are present in fetal developing lymph nodes. Development of human intestinal NKp44(+) ILC is a programmed event that is independent of bacterial colonization and these cells colonize the fetal intestine during the first trimester. In the adult intestine, NKp44(+) ILC are the main ILC subset producing IL-22. NKp44(-) ILC remain present throughout adulthood in peripheral non-inflamed lymph nodes as resting, non-cytokine producing cells. However, upon stimulation lymph node ILC can swiftly initiate cytokine transcription suggesting that secondary human lymphoid organs may function as a reservoir for innate lymphoid cells capable of participating in inflammatory responses.

Published

2012

32. Human fetal lymphoid tissue-inducer cells are interleukin 17-producing precursors to RORC+ CD127+ natural killer-like cells.

Author

Cupedo T, Crellin NK, Papazian N, Rombouts EJ, Weijer K, Grogan JL, Fibbe WE, Cornelissen JJ, and Spits H

Subjects

Animals, CD56 Antigen metabolism, Cell Differentiation, Cells, Cultured, Humans, Immunity, Cellular, Immunity, Innate, Interferon-gamma biosynthesis, Interleukin-7 Receptor alpha Subunit immunology, Interleukins biosynthesis, Lymph Nodes cytology, Lymphoid Tissue embryology, Lymphoid Tissue immunology, Lymphotoxin-alpha immunology, Mesentery embryology, Mesentery immunology, Mice, Nuclear Receptor Subfamily 1, Group F, Member 3, Palatine Tonsil cytology, Palatine Tonsil immunology, Receptors, Retinoic Acid immunology, Receptors, Thyroid Hormone immunology, Spleen embryology, Spleen immunology, Interleukin-22, Interleukin-17 biosynthesis, Lymph Nodes embryology, Lymph Nodes immunology, Natural Killer T-Cells immunology, Organogenesis, Precursor Cells, T-Lymphoid immunology

Abstract

The human body contains over 500 individual lymph nodes, yet the biology of their formation is poorly understood. Here we identify human lymphoid tissue-inducer cells (LTi cells) as lineage-negative RORC+ CD127+ cells with the functional ability to interact with mesenchymal cells through lymphotoxin and tumor necrosis factor. Human LTi cells were committed natural killer (NK) cell precursors that produced interleukin 17 (IL-17) and IL-22. In vitro, LTi cells gave rise to RORC+ CD127+ NK cells that retained the ability to produce IL-17 and IL-22. Postnatally, similar populations of LTi cell-like cells and RORC+ CD127+ NK cells were present in tonsils, and both secreted IL-17 and IL-22 but no interferon-gamma. Our data indicate that lymph node organogenesis is controlled by an NK cell precursor population with adaptive immune features and demonstrate a previously unappreciated link between the innate and adaptive immune systems.

Published

2009