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1. MMR vaccination induces trained immunity via functional and metabolic reprogramming of [gamma][delta] T cells

Author

Roring, Rutger J., Debisarun, Priya A., Botey-Bataller, Javier, Suen, Tsz Kin, Bulut, Ozlem, Kilic, Gizem, Koeken, Valerie A.C.M., Sarlea, Andrei, Bahrar, Harsh, Dijkstra, Helga, Lemmers, Heidi, Gossling, Katharina L., Ruchel, Nadine, Ostermann, Philipp N., Muller, Lisa, Schaal, Heiner, Adams, Ortwin, Borkhardt, Arndt, Ariyurek, Yavuz, de Meijer, Emile J., Kloet, Susan L., Oever, Jaap ten, Placek, Katarzyna, Li, Yang, and Netea, Mihai G.

Subjects
Vaccination -- Health aspects, Tetanus antitoxin -- Health aspects, T cells -- Health aspects, BCG vaccines -- Health aspects, RNA sequencing -- Health aspects, BCG -- Health aspects, Measles-mumps-rubella vaccine -- Health aspects, Ethylenediaminetetraacetic acid -- Health aspects, Killer cells -- Health aspects, Health care industry
Abstract

The measles, mumps, and rubella (MMR) vaccine protects against all-cause mortality in children, but the immunological mechanisms mediating these effects are poorly known. We systematically investigated whether MMR can induce long- term functional changes in innate immune cells, a process termed trained immunity, that could at least partially mediate this heterologous protection. In a randomized, placebo-controlled trial, 39 healthy adults received either the MMR vaccine or a placebo. Using single-cell RNA-Seq, we found that MMR caused transcriptomic changes in [CD14.sup.+] monocytes and NK cells, but most profoundly in [gamma][delta] T cells. Monocyte function was not altered by MMR vaccination. In contrast, the function of [gamma][delta] T cells was markedly enhanced by MMR vaccination, with higher production of TNF and IFN-[gamma], as well as upregulation of cellular metabolic pathways. In conclusion, we describe a trained immunity program characterized by modulation of [gamma][delta] T cell function induced by MMR vaccination., Introduction Vaccines are developed to target specific pathogens. However, an accumulating body of evidence suggests that certain live-attenuated vaccines provide a broad spectrum of protection against heterologous infections as well [...]

Published
2024
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4. Antibody signatures against viruses and microbiome reflect past and chronic exposures and associate with aging and inflammation

Author

Barcelona Supercomputing Center, Andreu Sanchez, Sergio, Ripoll Cladellas, Aida, Culinscaia, Anna, Bulut, Ozlem, Bourgonje, Arno R., Melé, Marta, Barcelona Supercomputing Center, Andreu Sanchez, Sergio, Ripoll Cladellas, Aida, Culinscaia, Anna, Bulut, Ozlem, Bourgonje, Arno R., and Melé, Marta

Abstract

Encounters with pathogens and other molecules can imprint long-lasting effects on our immune system, influencing future physiological outcomes. Given the wide range of microbes to which humans are exposed, their collective impact on health is not fully understood. To explore relations between exposures and biological aging and inflammation, we profiled an antibody-binding repertoire against 2,815 microbial, viral, and environmental peptides in a population cohort of 1,443 participants. Utilizing antibody-binding as a proxy for past exposures, we investigated their impact on biological aging, cell composition, and inflammation. Immune response against cytomegalovirus (CMV), rhinovirus, and gut bacteria relates with telomere length. Single-cell expression measurements identified an effect of CMV infection on the transcriptional landscape of subpopulations of CD8 and CD4 T-cells. This examination of the relationship between microbial exposures and biological aging and inflammation highlights a role for chronic infections (CMV and Epstein-Barr virus) and common pathogens (rhinoviruses and adenovirus C)., Peer Reviewed, "Article signat per 16 autors/es: Sergio Andreu-Sánchez, Aida Ripoll-Cladellas, Anna Culinscaia, Ozlem Bulut, Arno R. Bourgonje, Mihai G. Netea, Peter Lansdorp,Geraldine Aubert, Marc Jan Bonder, Lude Franke, Thomas Vogl, Monique G.P. van der Wijst, Marta Melé, Debbie Van Baarle, Jingyuan Fu , Alexandra Zhernakova", Postprint (published version)

Published
2024

5. MMR vaccination induces trained immunity via functional and metabolic reprogramming of γδ T cells

Author

Röring, Rutger J., primary, Debisarun, Priya A., additional, Botey-Bataller, Javier, additional, Suen, Tsz Kin, additional, Bulut, Ozlem, additional, Kilic, Gizem, additional, Koeken, Valerie A.C.M., additional, Sarlea, Andrei, additional, Bahrar, Harsh, additional, Dijkstra, Helga, additional, Lemmers, Heidi, additional, Gössling, Katharina L., additional, Rüchel, Nadine, additional, Ostermann, Philipp N., additional, Müller, Lisa, additional, Schaal, Heiner, additional, Adams, Ortwin, additional, Borkhardt, Arndt, additional, Ariyurek, Yavuz, additional, de Meijer, Emile J., additional, Kloet, Susan L., additional, ten Oever, Jaap, additional, Placek, Katarzyna, additional, Li, Yang, additional, and Netea, Mihai G., additional

Published
2024
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6. Single-cell RNA sequencing reveals induction of distinct trained-immunity programs in human monocytes

Author

Zhang, Bowen, Moorlag, Simone J.C.F.M, Dominguez-Andres, Jorge, Bulut, Ozlem, Kilic, Gizem, Liu, Zhaoli, van Crevel, Reinout, Xu, Cheng-Jian, Joosten, Leo A.B., Netea, Mihai G., and Li, Yang

Subjects
Immunologic memory -- Genetic aspects -- Health aspects, RNA sequencing -- Usage, Immune response -- Genetic aspects -- Health aspects, Monocytes -- Genetic aspects -- Health aspects, Epigenetic inheritance -- Research, Genetic transcription -- Research, Health care industry
Abstract

Trained immunity refers to the long-lasting memory traits of innate immunity. Recent studies have shown that trained immunity is orchestrated by sustained changes in epigenetic marks and metabolic pathways, leading to an altered transcriptional response to a second challenge. However, the potential heterogeneity of trained-immunity induction in innate immune cells has not been explored. In this study, we demonstrate cellular transcriptional programs in response to 4 different inducers of trained immunity in monocyte populations at single-cell resolution. Specifically, we identified 3 monocyte subpopulations upon the induction of trained immunity, and replicated these findings in an in vivo study. In addition, we found gene signatures consistent with these functional programs in patients with ulcerative colitis, sepsis, and COVID-19, suggesting the impact of trained-immunity programs in immune-mediated diseases., Introduction Host immune responses are classically divided into innate immune responses and adaptive immune responses. In recent years, emerging evidence has shown that innate immunity can display long-term adaptive characteristics [...]

Published
2022
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7. Targeted proteomics identifies circulating biomarkers associated with active COVID-19 and post-COVID-19

Author

Zoodsma, Martijn, primary, de Nooijer, Aline H., additional, Grondman, Inge, additional, Gupta, Manoj Kumar, additional, Bonifacius, Agnes, additional, Koeken, Valerie A. C. M., additional, Kooistra, Emma, additional, Kilic, Gizem, additional, Bulut, Ozlem, additional, Gödecke, Nina, additional, Janssen, Nico, additional, Kox, Matthijs, additional, Domínguez-Andrés, Jorge, additional, van Gammeren, Adriaan J., additional, Ermens, Anton A. M., additional, van der Ven, Andre J. A. M., additional, Pickkers, Peter, additional, Blasczyk, Rainer, additional, Behrens, Georg M. N., additional, van de Veerdonk, Frank L., additional, Joosten, Leo A. B., additional, Xu, Cheng-Jian, additional, Eiz-Vesper, Britta, additional, Netea, Mihai G., additional, and Li, Yang, additional

Published
2022
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8. Multi-Omics Integration Reveals Only Minor Long-Term Molecular and Functional Sequelae in Immune Cells of Individuals Recovered From COVID-19

Author

Liu, Zhaoli, primary, Kilic, Gizem, additional, Li, Wenchao, additional, Bulut, Ozlem, additional, Gupta, Manoj Kumar, additional, Zhang, Bowen, additional, Qi, Cancan, additional, Peng, He, additional, Tsay, Hsin-Chieh, additional, Soon, Chai Fen, additional, Mekonnen, Yonatan Ayalew, additional, Ferreira, Anaísa Valido, additional, van der Made, Caspar I., additional, van Cranenbroek, Bram, additional, Koenen, Hans J. P. M., additional, Simonetti, Elles, additional, Diavatopoulos, Dimitri, additional, de Jonge, Marien I., additional, Müller, Lisa, additional, Schaal, Heiner, additional, Ostermann, Philipp N., additional, Cornberg, Markus, additional, Eiz-Vesper, Britta, additional, van de Veerdonk, Frank, additional, van Crevel, Reinout, additional, Joosten, Leo A. B., additional, Domínguez-Andrés, Jorge, additional, Xu, Cheng-Jian, additional, Netea, Mihai G., additional, and Li, Yang, additional

Published
2022
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9. Induction of trained immunity by influenza vaccination - impact on COVID-19

Author

Debisarun, Priya A., primary, Gössling, Katharina L., additional, Bulut, Ozlem, additional, Kilic, Gizem, additional, Zoodsma, Martijn, additional, Liu, Zhaoli, additional, Oldenburg, Marina, additional, Rüchel, Nadine, additional, Zhang, Bowen, additional, Xu, Cheng-Jian, additional, Struycken, Patrick, additional, Koeken, Valerie A. C. M., additional, Domínguez-Andrés, Jorge, additional, Moorlag, Simone J. C. F. M., additional, Taks, Esther, additional, Ostermann, Philipp N., additional, Müller, Lisa, additional, Schaal, Heiner, additional, Adams, Ortwin, additional, Borkhardt, Arndt, additional, ten Oever, Jaap, additional, van Crevel, Reinout, additional, Li, Yang, additional, and Netea, Mihai G., additional

Published
2021
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11. The Immunological Factors Predisposing to Severe Covid-19 Are Already Present in Healthy Elderly and Men

Author

Kilic, Gizem, primary, Bulut, Ozlem, additional, Jaeger, Martin, additional, ter Horst, Rob, additional, Koeken, Valerie A. C. M., additional, Moorlag, Simone J. C. F. M., additional, Mourits, Vera P., additional, de Bree, Charlotte, additional, Domínguez-Andrés, Jorge, additional, Joosten, Leo A. B., additional, and Netea, Mihai G., additional

Published
2021
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13. Limited role of the spleen in a mouse model of trained immunity: Impact on neutrophilia.

Author

Ferreira, Anaísa V., Uijen, Rienke F., Bulut, Ozlem, de Jonge, Marien I., Domínguez‐Andrés, Jorge, and Netea, Mihai G.

Subjects
IMMUNOLOGIC memory, EXTRAMEDULLARY hematopoiesis, LABORATORY mice, KILLER cells, SPLEEN, PSYCHONEUROIMMUNOLOGY
Abstract

Trained immunity is a de facto memory of innate immune cells, resulting in a long‐term increase in innate host defense mechanisms after infection. The long‐term heterologous protection conferred by trained immunity is mediated through epigenetic and functional reprogramming of hematopoietic stem and progenitor cells. Because the spleen is a reservoir of undifferentiated monocytes and is considered the prime organ for extramedullary hematopoiesis, we investigated the role of the spleen in the establishment of trained immunity. A β‐glucan‐induced trained immunity mouse model was performed in previously sham‐operated or splenectomized animals. Removal of the spleen did not modulate the proinflammatory cytokine production of in vivo trained peritoneal cells, nor did it ablate the increased percentage of proinflammatory circulatory monocytes and natural killer cells seen in trained animals. However, spleen removal prevented neutrophilia, an important characteristic of trained immunity. These data point to a limited role of the spleen in trained immunity. The pathophysiologic relevance of the spleen in the induction of neutrophilia during trained immunity remains to be fully explored. [ABSTRACT FROM AUTHOR]

Published
2022
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15. A suppressive oligodeoxynucleotide expressing TTAGGG motifs modulates cellular energetics through the mTOR signaling pathway.

Author

Yazar, Volkan, Kilic, Gizem, Bulut, Ozlem, Yildirim, Tugce Canavar, Yagci, Fuat C, Aykut, Gamze, Klinman, Dennis M, Gursel, Mayda, and Gursel, Ihsan

Subjects
TISSUE remodeling, IMMUNOSUPPRESSION, IMMUNE system, IMMUNE response, MTOR inhibitors, OXYGEN consumption, WARBURG Effect (Oncology)
Abstract

Abstract Immune-mediated inflammation must be down-regulated to facilitate tissue remodeling during homeostatic restoration of an inflammatory response. Uncontrolled or over-exuberant immune activation can cause autoimmune diseases, as well as tissue destruction. A151, the archetypal example of a chemically synthesized suppressive oligodeoxynucleotide (ODN) based on repetitive telomere-derived TTAGGG sequences, was shown to successfully down-regulate a variety of immune responses. However, the degree, duration and breadth of A151-induced transcriptome alterations remain elusive. Here, we performed a comprehensive microarray analysis in combination with Ingenuity Pathway Analysis (IPA) using murine splenocytes to investigate the underlying mechanism of A151-dependent immune suppression. Our results revealed that A151 significantly down-regulates critical mammalian target of rapamycin (mTOR) activators (Pi3kcd , Pdpk1 and Rheb), elements downstream of mTOR signaling (Rps6ka1 , Myc , Stat3 and Slc2a1), an important component of the mTORC2 protein complex (Rictor) and Mtor itself. The effects of A151 on mTOR signaling were dose- and time-dependent. Moreover, flow cytometry and immunoblotting analyses demonstrated that A151 is able to reverse mTOR phosphorylation comparably to the well-known mTOR inhibitor rapamycin. Furthermore, Seahorse metabolic assays showed an A151 ODN-induced decrease in both oxygen consumption and glycolysis implying that a metabolically inert state in macrophages could be triggered by A151 treatment. Overall, our findings suggested novel insights into the mechanism by which the immune system is metabolically modulated by A151 ODN. [ABSTRACT FROM AUTHOR]

Published
2020
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