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1. Broadly neutralizing SARS-CoV-2 antibodies through epitope-based selection from convalescent patients

Author

Rouet, Romain, Henry, Jake Y., Johansen, Matt D., Sobti, Meghna, Balachandran, Harikrishnan, Langley, David B., Walker, Gregory J., Lenthall, Helen, Jackson, Jennifer, Ubiparipovic, Stephanie, Mazigi, Ohan, Schofield, Peter, Burnett, Deborah L., Brown, Simon H. J., Martinello, Marianne, Hudson, Bernard, Gilroy, Nicole, Post, Jeffrey J., Kelleher, Anthony, Jäck, Hans-Martin, Goodnow, Christopher C., Turville, Stuart G., Rawlinson, William D., Bull, Rowena A., Stewart, Alastair G., Hansbro, Philip M., and Christ, Daniel

Published
2023
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4. IRF4 deficiency vulnerates B-cell progeny for leukemogenesis via somatically acquired Jak3 mutations conferring IL-7 hypersensitivity

Author

Das Gupta, Dennis, Paul, Christoph, Samel, Nadine, Bieringer, Maria, Staudenraus, Daniel, Marini, Federico, Raifer, Hartmann, Menke, Lisa, Hansal, Lea, Camara, Bärbel, Roth, Edith, Daum, Patrick, Wanzel, Michael, Mernberger, Marco, Nist, Andrea, Bauer, Uta-Maria, Helmprobst, Frederik, Buchholz, Malte, Roth, Katrin, Bastian, Lorenz, Hartmann, Alina M., Baldus, Claudia, Ikuta, Koichi, Neubauer, Andreas, Burchert, Andreas, Jäck, Hans-Martin, Klein, Matthias, Bopp, Tobias, Stiewe, Thorsten, Pagenstecher, Axel, and Lohoff, Michael

Published
2022
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5. Platform for isolation and characterization of SARS-CoV-2 variants enables rapid characterization of Omicron in Australia

Author

Aggarwal, Anupriya, Stella, Alberto Ospina, Walker, Gregory, Akerman, Anouschka, Esneau, Camille, Milogiannakis, Vanessa, Burnett, Deborah L., McAllery, Samantha, Silva, Mariana Ruiz, Lu, Yonghui, Foster, Charles S. P., Brilot, Fabienne, Pillay, Aleha, Van Hal, Sabastiaan, Mathivanan, Vennila, Fichter, Christina, Kindinger, Andrea, Hoppe, Alexandra Carey, Munier, Mee Ling, Amatayakul-Chantler, Supavadee, Roth, Nathan, Coppola, Germano, Symonds, Geoff P., Schofield, Peter, Jackson, Jennifer, Lenthall, Helen, Henry, Jake Y., Mazigi, Ohan, Jäck, Hans-Martin, Davenport, Miles P., Darley, David R., Matthews, Gail V., Khoury, David S., Cromer, Deborah, Goodnow, Christopher C., Christ, Daniel, Robosa, Roselle, Starck, Damien J., Bartlett, Nathan W., Rawlinson, William D., Kelleher, Anthony D., and Turville, Stuart G.

Published
2022
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9. ACE2-independent sarbecovirus cell entry can be supported by TMPRSS2-related enzymes and can reduce sensitivity to antibody-mediated neutralization.

Author

Zhang, Lu, Cheng, Hsiu-Hsin, Krüger, Nadine, Hörnich, Bojan, Graichen, Luise, Hahn, Alexander S., Schulz, Sebastian R., Jäck, Hans-Martin, Stankov, Metodi V., Behrens, Georg M. N., Müller, Marcel A., Drosten, Christian, Mörer, Onnen, Winkler, Martin Sebastian, Qian, ZhaoHui, Pöhlmann, Stefan, and Hoffmann, Markus

Abstract

The COVID-19 pandemic, caused by SARS-CoV-2, demonstrated that zoonotic transmission of animal sarbecoviruses threatens human health but the determinants of transmission are incompletely understood. Here, we show that most spike (S) proteins of horseshoe bat and Malayan pangolin sarbecoviruses employ ACE2 for entry, with human and raccoon dog ACE2 exhibiting broad receptor activity. The insertion of a multibasic cleavage site into the S proteins increased entry into human lung cells driven by most S proteins tested, suggesting that acquisition of a multibasic cleavage site might increase infectivity of diverse animal sarbecoviruses for the human respiratory tract. In contrast, two bat sarbecovirus S proteins drove cell entry in an ACE2-independent, trypsin-dependent fashion and several ACE2-dependent S proteins could switch to the ACE2-independent entry pathway when exposed to trypsin. Several TMPRSS2-related cellular proteases but not the insertion of a multibasic cleavage site into the S protein allowed for ACE2-independent entry in the absence of trypsin and may support viral spread in the respiratory tract. Finally, the pan-sarbecovirus antibody S2H97 enhanced cell entry driven by two S proteins and this effect was reversed by trypsin while trypsin protected entry driven by a third S protein from neutralization by S2H97. Similarly, plasma from quadruple vaccinated individuals neutralized entry driven by all S proteins studied, and availability of the ACE2-independent, trypsin-dependent pathway reduced neutralization sensitivity. In sum, our study reports a pathway for entry into human cells that is ACE2-independent, can be supported by TMPRSS2-related proteases and may be associated with antibody evasion. Author summary: Bats host a wide range of coronaviruses, including those related to SARS-CoV-1 and SARS-CoV-2 (subgenus Sarbecovirus), but their ability to infect human cells remains poorly understood. Identifying sarbecoviruses with zoonotic potential and understanding the factors controlling their entry into human cells are crucial for risk assessment and antiviral development. In this study, we examined how bat sarbecovirus spike proteins facilitate entry into human cells and identified key host factors involved. Using pseudovirus particles, we show that several bat sarbecovirus spike proteins use human and animal ACE2 receptors for entry. Additionally, we confirm that some spike proteins utilize an ACE2-independent entry pathway requiring trypsin treatment and demonstrate that this process is controlled by the spike protein receptor binding domain. Furthermore, we reveal that a subset of ACE2-using bat sarbecovirus spike proteins can switch to ACE2-independent entry following trypsin exposure and show that certain human type II transmembrane serine proteases can substitute for trypsin, enabling ACE2-independent entry. Finally, we demonstrate that repeated COVID-19 vaccination generates cross-neutralizing activity against bat sarbecoviruses, though ACE2-independent entry reduces neutralization sensitivity. [ABSTRACT FROM AUTHOR]

Published
2024
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10. An Enhanced Retroviral Vector for Efficient Genetic Manipulation and Selection in Mammalian Cells.

Author

Triller, Jana, Prots, Iryna, Jäck, Hans-Martin, and Wittmann, Jürgen

Subjects
GENETIC vectors, MOUSE leukemia viruses, RETROVIRUS diseases, CHIMERIC proteins, B cells
Abstract

Introducing genetic material into hard-to-transfect mammalian cell lines and primary cells is often best achieved through retroviral infection. An ideal retroviral vector should offer a compact, selectable, and screenable marker while maximizing transgene delivery capacity. However, a previously published retroviral vector featuring an EGFP/Puromycin fusion protein failed to meet these criteria in our experiments. We encountered issues such as low infection efficiency, weak EGFP fluorescence, and selection against infected cells. To address these shortcomings, we developed a novel retroviral vector based on the Moloney murine leukemia virus. This vector includes a compact bifunctional EGFP and Puromycin resistance cassette connected by a 2A peptide. Our extensively tested vector demonstrated superior EGFP expression, efficient Puromycin selection, and no growth penalty in infected cells compared with the earlier design. These benefits were consistent across multiple mammalian cell types, underscoring the versatility of our vector. In summary, our enhanced retroviral vector offers a robust solution for efficient infection, reliable detection, and effective selection in mammalian cells. Its improved performance and compact design make it an ideal choice for a wide range of applications involving precise genetic manipulation and characterization in cell-based studies. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Virological Traits of the SARS-CoV-2 BA.2.87.1 Lineage.

Author

Zhang, Lu, Dopfer-Jablonka, Alexandra, Nehlmeier, Inga, Kempf, Amy, Graichen, Luise, Calderón Hampel, Noemí, Cossmann, Anne, Stankov, Metodi V., Morillas Ramos, Gema, Schulz, Sebastian R., Jäck, Hans-Martin, Behrens, Georg M. N., Pöhlmann, Stefan, and Hoffmann, Markus

Subjects
SARS-CoV-2, ANGIOTENSIN converting enzyme
Abstract

Transmissibility and immune evasion of the recently emerged, highly mutated SARS-CoV-2 BA.2.87.1 are unknown. Here, we report that BA.2.87.1 efficiently enters human cells but is more sensitive to antibody-mediated neutralization than the currently dominating JN.1 variant. Acquisition of adaptive mutations might thus be needed for efficient spread in the population. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Identification of miR-128 Target mRNAs That Are Expressed in B Cells Using a Modified Dual Luciferase Vector.

Author

Schreiber, Sandra, Daum, Patrick, Danzer, Heike, Hauke, Manuela, Jäck, Hans-Martin, and Wittmann, Jürgen

Subjects
B cells, NORTHERN blot, RNA, GENE expression, LUCIFERASES, BINDING sites
Abstract

MicroRNAs (miRNAs) are 21–25 nucleotide long non-coding ribonucleic acids that modulate gene expression by degrading transcripts or inhibiting translation. The miRNA miR-128, originally thought to be brain-specific, was later also found in immune cells. To identify a valuable immune cell model system to modulate endogenous miR-128 amounts and to validate predicted miR-128 target mRNAs in B cells, we first investigated miR-128 expression using Northern blot analysis in several cell lines representing different stages of B cell development. The results showed that only primary brain cells showed significant levels of mature miR-128. To study the function of miR-128 in immune cells, we modified dual luciferase vectors to allow easy transfer of 3′ UTR fragments with predicted miR-128 binding sites from widely used single to dual luciferase vectors. Comparison of in silico predicted miR-128-regulated mRNAs in single and dual luciferase constructs yielded similar results, validating the dual luciferase vector for miRNA target analysis. Furthermore, we confirmed miR-128-regulated mRNAs identified in silico and in vivo using the Ago HITS-CLIP technique and known to be expressed in B cells using the dual luciferase assay. In conclusion, this study provides new insights into the expression and function of miR-128 by validating novel target mRNAs expressed in B cells and identifying additional pathways likely controlled by this miRNA in the immune system. [ABSTRACT FROM AUTHOR]

Published
2023
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18. The intestine: A highly dynamic microenvironment for IgA plasma cells.

Author

Pracht, Katharina, Wittner, Jens, Kagerer, Fritz, Jäck, Hans-Martin, and Schuh, Wolfgang

Subjects
PLASMA cells, ARYL hydrocarbon receptors, CYTOLOGY, EPITHELIAL cells, TECHNOLOGICAL innovations
Abstract

To achieve longevity, IgA plasma cells require a sophisticated anatomical microenvironment that provides cytokines, cell-cell contacts, and nutrients as well as metabolites. The intestinal epithelium harbors cells with distinct functions and represents an important defense line. Anti-microbial peptide-producing paneth cells, mucus-secreting goblet cells and antigen-transporting microfold (M) cells cooperate to build a protective barrier against pathogens. In addition, intestinal epithelial cells are instrumental in the transcytosis of IgA to the gut lumen, and support plasma cell survival by producing the cytokines APRIL and BAFF. Moreover, nutrients are sensed through specialized receptors such as the aryl hydrocarbon receptor (AhR) by both, intestinal epithelial cells and immune cells. However, the intestinal epithelium is highly dynamic with a high cellular turn-over rate and exposure to changing microbiota and nutritional factors. In this review, we discuss the spatial interplay of the intestinal epithelium with plasma cells and its potential contribution to IgA plasma cell generation, homing, and longevity. Moreover, we describe the impact of nutritional AhR ligands on intestinal epithelial cell-IgA plasma cell interaction. Finally, we introduce spatial transcriptomics as a new technology to address open questions in intestinal IgA plasma cell biology. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Metabolic profiling of single cells by exploiting NADH and FAD fluorescence via flow cytometry.

Author

Abir, Ariful Haque, Weckwerth, Leonie, Wilhelm, Artur, Thomas, Jana, Reichardt, Clara M., Munoz, Luis, Völkl, Simon, Appelt, Uwe, Mroz, Markus, Niesner, Raluca, Hauser, Anja, Sophie Fischer, Rebecca, Pracht, Katharina, Jäck, Hans-Martin, Schett, Georg, Krönke, Gerhard, and Mielenz, Dirk

Abstract

The metabolism of different cells within the same microenvironment can differ and dictate physiological or pathological adaptions. Current single-cell analysis methods of metabolism are not label-free. The study introduces a label-free, live-cell analysis method assessing endogenous fluorescence of NAD(P)H and FAD in surface-stained cells by flow cytometry. OxPhos inhibition, mitochondrial uncoupling, glucose exposure, genetic inactivation of glucose uptake and mitochondrial respiration alter the optical redox ratios of FAD and NAD(P)H as measured by flow cytometry. Those alterations correlate strongly with measurements obtained by extracellular flux analysis. Consequently, metabolically distinct live B-cell populations can be resolved, showing that human memory B-cells from peripheral blood exhibit a higher glycolytic flexibility than naïve B cells. Moreover, the comparison of blood-derived B- and T-lymphocytes from healthy donors and rheumatoid arthritis patients unleashes rheumatoid arthritis-associated metabolic traits in human naïve and memory B-lymphocytes. Taken together, these data show that the optical redox ratio can depict metabolic differences in distinct cell populations by flow cytometry. • Real-time simultaneous metabolic analysis of different cell populations. • Label-free detection of the optical redox ratio of FAD/NADH fluorescence via flow cytometry. • Correlation with Seahorse extracellular flux analysis and enzymatic NAD(P)H detection. • Applicable to human T cell lymphoma, primary mouse and human lymphocytes. • Distinction of naïve and memory B cell populations in healthy and inflamed background. [ABSTRACT FROM AUTHOR]

Published
2024
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20. DGCR8 deficiency impairs macrophage growth and unleashes the interferon response to mycobacteria

Author

Killy, Barbara, Bodendorfer, Barbara, Mages, Jörg, Ritter, Kristina, Schreiber, Jonathan, Hölscher, Christoph, Pracht, Katharina, Ekici, Arif, Jäck, Hans-Martin, and Lang, Roland

Subjects
ddc:610
Abstract

The mycobacterial cell wall glycolipid trehalose-6,6-dimycolate (TDM) activates macrophages through the C-type lectin receptor MINCLE. Regulation of innate immune cells relies on miRNAs, which may be exploited by mycobacteria to survive and replicate in macrophages. Here, we have used macrophages deficient in the microprocessor component DGCR8 to investigate the impact of miRNA on the response to TDM. Deletion of DGCR8 in bone marrow progenitors reduced macrophage yield, but did not block macrophage differentiation. DGCR8-deficient macrophages showed reduced constitutive and TDM-inducible miRNA expression. RNAseq analysis revealed that they accumulated primary miRNA transcripts and displayed a modest type I IFN signature at baseline. Stimulation with TDM in the absence of DGCR8 induced overshooting expression of IFNβ and IFN-induced genes, which was blocked by antibodies to type I IFN. In contrast, signaling and transcriptional responses to recombinant IFNβ were unaltered. Infection with live Mycobacterium bovis Bacille Calmette–Guerin replicated the enhanced IFN response. Together, our results reveal an essential role for DGCR8 in curbing IFNβ expression macrophage reprogramming by mycobacteria.

Published
2021

24. A Different Sort of Mott Cell

Author

Jack, Hans-Martin, Beck-Engeser, Gabrielle, Sloan, Barbara, Wong, Mei Lie, and Wabl, Matthias

Published
1992

25. Host Cell Entry and Neutralization Sensitivity of SARS-CoV-2 Lineages B.1.620 and R.1.

Author

Sidarovich, Anzhalika, Krüger, Nadine, Rocha, Cheila, Graichen, Luise, Kempf, Amy, Nehlmeier, Inga, Lier, Martin, Cossmann, Anne, Stankov, Metodi V., Schulz, Sebastian R., Behrens, Georg M. N., Jäck, Hans-Martin, Pöhlmann, Stefan, and Hoffmann, Markus

Subjects
SARS-CoV-2
Abstract

The spike (S) protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) facilitates viral entry into host cells and is the key target for neutralizing antibodies. The SARS-CoV-2 lineage B.1.620 carries fifteen mutations in the S protein and is spread in Africa, the US and Europe, while lineage R.1 harbors four mutations in S and infections were observed in several countries, particularly Japan and the US. However, the impact of the mutations in B.1.620 and R.1 S proteins on antibody-mediated neutralization and host cell entry are largely unknown. Here, we report that these mutations are compatible with robust ACE2 binding and entry into cell lines, and they markedly reduce neutralization by vaccine-induced antibodies. Our results reveal evasion of neutralizing antibodies by B.1.620 and R.1, which might have contributed to the spread of these lineages. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Network- and systems-based re-engineering of dendritic cells with non-coding RNAs for cancer immunotherapy

Author

Lai, Xin, Dreyer, Florian S., Cantone, Martina, Eberhardt, Martin, Gerer, Kerstin F., Jaitly, Tanushree, Uebe, Steffen, Lischer, Christopher, Ekici, Arif, Wittmann, Jürgen, Jäck, Hans-Martin, Schaft, Niels, Dörrie, Jan, and Vera, Julio

Subjects
RNA, Untranslated, dendritic cell, network biology, systems biology, chemical and pharmacologic phenomena, Dendritic Cells, Adaptive Immunity, Cancer Vaccines, I-kappa B Kinase, MicroRNAs, Neoplasms, Cytokines, Humans, therapeutic vaccination in cancer, Immunotherapy, ddc:610, Cells, Cultured, Research Paper, Signal Transduction
Abstract

Dendritic cells (DCs) are professional antigen-presenting cells that induce and regulate adaptive immunity by presenting antigens to T cells. Due to their coordinative role in adaptive immune responses, DCs have been used as cell-based therapeutic vaccination against cancer. The capacity of DCs to induce a therapeutic immune response can be enhanced by re-wiring of cellular signalling pathways with microRNAs (miRNAs). Methods: Since the activation and maturation of DCs is controlled by an interconnected signalling network, we deploy an approach that combines RNA sequencing data and systems biology methods to delineate miRNA-based strategies that enhance DC-elicited immune responses. Results: Through RNA sequencing of IKKβ-matured DCs that are currently being tested in a clinical trial on therapeutic anti-cancer vaccination, we identified 44 differentially expressed miRNAs. According to a network analysis, most of these miRNAs regulate targets that are linked to immune pathways, such as cytokine and interleukin signalling. We employed a network topology-oriented scoring model to rank the miRNAs, analysed their impact on immunogenic potency of DCs, and identified dozens of promising miRNA candidates, with miR-15a and miR-16 as the top ones. The results of our analysis are presented in a database that constitutes a tool to identify DC-relevant miRNA-gene interactions with therapeutic potential (https://www.synmirapy.net/dc-optimization). Conclusions: Our approach enables the systematic analysis and identification of functional miRNA-gene interactions that can be experimentally tested for improving DC immunogenic potency.

Published
2021

27. Guidelines for the use of flow cytometry and cell sorting in immunological studies (third edition)

Author

Cossarizza, Andrea, Chang, Hyun-Dong, Radbruch, Andreas, Abrignani, Sergio, Addo, Richard, Akdis, Mübeccel, Andrä, Immanuel, Andreata, Francesco, Annunziato, Francesco, Arranz, Eduardo, Bacher, Petra, Bari, Sudipto, Barnaba, Vincenzo, Barros-Martins, Joana, Baumjohann, Dirk, Beccaria, Cristian G., Bernardo, David, Boardman, Dominic A., Borger, Jessica, Böttcher, Chotima, Brockmann, Leonie, Burns, Marie, Busch, Dirk H., Cameron, Garth, Cammarata, Ilenia, Cassotta, Antonino, Chang, Yinshui, Chirdo, Fernando Gabriel, Christakou, Eleni, Čicin-Šain, Luka, Cook, Laura, Corbett, Alexandra J., Cornelis, Rebecca, Cosmi, Lorenzo, Davey, Martin S., De Biasi, Sara, De Simone, Gabriele, del Zotto, Genny, Delacher, Michael, Di Rosa, Francesca, Di Santo, James, Diefenbach, Andreas, Dong, Jun, Dörner, Thomas, Dress, Regine J., Dutertre, Charles-Antoine, Eckle, Sidonia B.G., Eede, Pascale, Evrard, Maximilien, Falk, Christine S., Feuerer, Markus, Fillatreau, Simon, Fiz-Lopez, Aida, Follo, Marie, Foulds, Gemma A., Fröbel, Julia, Gagliani, Nicola, Galletti, Giovanni, Gangaev, Anastasia, Garbi, Natalio, Garrote, José Antonio, Geginat, Jens, Gherardin, Nicholas A., Gibellini, Lara, Ginhoux, Florent, Godfrey, Dale I., Gruarin, Paola, Haftmann, Claudia, Hansmann, Leo, Harpur, Christopher M., Hayday, Adrian C., Heine, Guido, Hernández, Daniela Carolina, Herrmann, Martin, Hoelsken, Oliver, Huang, Qing, Huber, Samuel, Huber, Johanna E., Huehn, Jochen, Hundemer, Michael, Hwang, William Y.K., Iannacone, Matteo, Ivison, Sabine M., Jäck, Hans-Martin, Jani, Peter K., Keller, Baerbel, Kessler, Nina, Ketelaars, Steven, Knop, Laura, Knopf, Jasmin, Koay, Hui-Fern, Kobow, Katja, Kriegsmann, Katharina, Kristyanto, H., Krueger, Andreas, Kuehne, Jenny F., Kunze-Schumacher, Heike, Kvistborg, Pia, Kwok, Immanuel, Latorre, Daniela, Lenz, Daniel, Levings, Megan K., Lino, Andreia C., Liotta, Francesco, Long, Heather M., Lugli, Enrico, MacDonald, Katherine N., Maggi, Laura, Maini, Mala K., Mair, Florian, Manta, Calin, Manz, Rudolf Armin, Mashreghi, Mir-Farzin, Mazzoni, Alessio, McCluskey, James, Mei, Henrik E., Melchers, Fritz, Melzer, Susanne, Mielenz, Dirk, Monin, Leticia, Moretta, Lorenzo, Multhoff, Gabriele, Muñoz, Luis Enrique, Muñoz-Ruiz, Miguel, Muscate, Franziska, Natalini, Ambra, Neumann, Katrin, Ng, Lai Guan, Niedobitek, Antonia, Niemz, Jana, Almeida, Larissa Nogueira, Notarbartolo, Samuele, Ostendorf, Lennard, Pallett, Laura J., Patel, Amit A., Percin, Gulce Itir, Peruzzi, Giovanna, Pinti, Marcello, Pockley, A. Graham, Pracht, Katharina, Prinz, Immo, Pujol-Autonell, Irma, Pulvirenti, Nadia, Quatrini, Linda, Quinn, Kylie M., Radbruch, Helena, Rhys, Hefin, Rodrigo, Maria B., Romagnani, Chiara, Saggau, Carina, Sakaguchi, Shimon, Sallusto, Federica, Sandrock, Inga, Schauer, Christine, Schiemann, Matthias, Schildberg, Frank A., Schober, Kilian, Schoen, Janina, Schuh, Wolfgang, Schüler, Thomas, Schulz, Axel R., Schulz, Sebastian, Schulze, Julia, Simonetti, Sonia, Singh, Jeeshan, Sitnik, Katarzyna M., Stark, Regina, Starossom, Sarah, Stehle, Christina, Szelinski, Franziska, Tan, Leonard, Tarnok, Attila, Tornack, Julia, Tree, Timothy I.M., van Beek, Jasper J.P., van de Veen, Willem, Vasco, Chiara, Verheyden, Nikita A., von Borstel, Anouk, Ward-Hartstonge, Kirsten A., Warnatz, Klaus, Waskow, Claudia, Wiedemann, Annika, Wilharm, Anneke, Wing, James, Wirz, Oliver, Wittner, Jens, Yang, Jennie H.M., and Yang, Juhao

Abstract

The third edition of Flow Cytometry Guidelines provides the key aspects to consider when performing flow cytometry experiments and includes comprehensive sections describing phenotypes and functional assays of all major human and murine immune cell subsets. Notably, the Guidelines contain helpful tables highlighting phenotypes and key differences between human and murine cells. Another useful feature of this edition is the flow cytometry analysis of clinical samples with examples of flow cytometry applications in the context of autoimmune diseases, cancers as well as acute and chronic infectious diseases. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid. All sections are written and peer-reviewed by leading flow cytometry experts and immunologists, making this edition an essential and state-of-the-art handbook for basic and clinical researchers., European Journal of Immunology, 51 (12), ISSN:0014-2980, ISSN:1521-4141

Published
2021
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28. Augmented neutralization of SARS‐CoV‐2 Omicron variant by boost vaccination and monoclonal antibodies.

Author

Schulz, Sebastian R., Hoffmann, Markus, Roth, Edith, Pracht, Katharina, Burnett, Deborah L., Mazigi, Ohan, Schuh, Wolfgang, Manger, Bernhard, Mielenz, Dirk, Goodnow, Christopher C., Christ, Daniel, Pöhlmann, Stefan, and Jäck, Hans‐Martin

Subjects
SARS-CoV-2 Omicron variant, SARS-CoV-2, MONOCLONAL antibodies, CORONAVIRUS diseases, SARS-CoV-2 Delta variant, COVID-19
Abstract

Effective vaccines and monoclonal antibodies have been developed against coronavirus disease 2019 (COVID‐19) caused by severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2). However, the appearance of virus variants with higher transmissibility and pathogenicity is a major concern because of their potential to escape vaccines and clinically approved SARS‐CoV‐2‐ antibodies. Here, we use flow cytometry‐based binding and pseudotyped SARS‐CoV‐2 neutralization assays to determine the efficacy of boost immunization and therapeutic antibodies to neutralize the dominant Omicron variant. We provide compelling evidence that the third vaccination with BNT162b2 increases the amount of neutralizing serum antibodies against Delta and Omicron variants, albeit to a lower degree when compared to the parental Wuhan strain. Therefore, a third vaccination is warranted to increase titers of protective serum antibodies, especially in the case of the Omicron variant. We also found that most clinically approved and otherwise potent therapeutic antibodies against the Delta variant failed to recognize and neutralize the Omicron variant. In contrast, some antibodies under preclinical development potentially neutralized the Omicron variant. Our studies also support using a flow cytometry‐based antibody binding assay to rapidly monitor therapeutic candidates and serum titers against emerging SARS‐CoV‐2 variants. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Single‐cell resolution of plasma cell fate programming in health and disease.

Author

Delaloy, Céline, Schuh, Wolfgang, Jäck, Hans‐Martin, Bonaud, Amélie, and Espéli, Marion

Subjects
PLASMA cells, PLASMA cell diseases, HEALTH programs, B cells, IMMUNE response, CELL differentiation
Abstract

Long considered a homogeneous population dedicated to antibody secretion, plasma cell phenotypic and functional heterogeneity is increasingly recognized. Plasma cells were first segregated based on their maturation level, but the complexity of this subset might well be underestimated by this simple dichotomy. Indeed, in the last decade new functions have been attributed to plasma cells including but not limited to cytokine secretion. However, a proper characterization of plasma cell heterogeneity has remained elusive partly due to technical issues and cellular features that are specific to this cell type. Cell intrinsic and cell extrinsic signals could be at the origin of this heterogeneity. Recent advances in technologies such as single cell RNA‐seq, ATAC‐seq, or ChIP‐seq on low cell numbers helped to elucidate the fate decision in other cell lineages and similar approaches could be implemented to evaluate the heterogeneous fate of activated B cells in health and disease. Here, we summarized published work shedding some lights on the stimuli and genetic program shaping B‐cell terminal differentiation at the single cell level in mice and men. We also discuss the fate and heterogeneity of plasma cells during immune responses, vaccination, and in the frame of human plasma cell disorders. [ABSTRACT FROM AUTHOR]

Published
2022
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34. The impact of hyperosmolality on activation and differentiation of B lymphoid cells

Author

Cvetkovic, Ljiljana, Perisic, Stojan, Titze, Jens, Jäck, Hans-Martin, and Schuh, Wolfgang

Subjects
Medizinische Fakultät, ddc:610
Abstract

B lymphocytes, as a central part of adaptive immune responses, have the ability to fight against an almost unlimited numbers of pathogens. Impairment of B cell development, activation and differentiation to antibody secreting plasma cells can lead to malignancy, allergy, autoimmunity and immunodeficiency. However, the impact of environmental factors, such as hyperosmolality or osmotic stress caused by varying salt concentrations in different lymphoid organs, on these processes is not well-understood. Here, we report that B cells respond to osmotic stress in a biphasic manner. Initially, increased osmolality boosted B cell activation and differentiation as shown by an untimely downregulation of Pax5 as well as upregulation of CD138. However, in the second phase, we observed an increase in cell death and impaired plasmablast differentiation. Osmotic stress resulted in impaired class switch to IgG1, inhibition of phosphorylation of p38 mitogen-activated kinase and a delayed NFAT5 response. Overall, these findings demonstrate the importance of microenvironmental hyperosmolality and osmotic stress caused by NaCl for B cell activation and differentiation.

Published
2019

36. A surrogate cell‐based SARS‐CoV‐2 spike blocking assay.

Author

Schuh, Wolfgang, Baus, Lena, Steinmetz, Tobit, Schulz, Sebastian R., Weckwerth, Leonie, Roth, Edith, Hauke, Manuela, Krause, Sara, Morhart, Patrick, Rauh, Manfred, Hoffmann, Markus, Vesper, Niklas, Reth, Michael, Schneider, Holm, Jäck, Hans‐Martin, and Mielenz, Dirk

Subjects
COVID-19, SARS-CoV-2, ANGIOTENSIN converting enzyme, GENTIAN violet
Abstract

To monitor infection by the severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) and successful vaccination against coronavirus disease 2019 (COVID‐19), the kinetics of neutralizing or blocking anti‐SARS‐CoV‐2 antibody titers need to be assessed. Here, we report the development of a quick and inexpensive surrogate SARS‐CoV‐2 blocking assay (SUBA) using immobilized recombinant human angiotensin‐converting enzyme 2 (hACE2) and human cells expressing the native form of surface SARS‐CoV‐2 spike protein. Spike protein‐expressing cells bound to hACE2 in the absence or presence of blocking antibodies were quantified by measuring the optical density of cell‐associated crystal violet in a spectrophotometer. The advantages are that SUBA is a fast and inexpensive assay, which does not require biosafety level 2‐ or 3‐approved laboratories. Most importantly, SUBA detects blocking antibodies against the native trimeric cell‐bound SARS‐CoV‐2 spike protein and can be rapidly adjusted to quickly pre‐screen already approved therapeutic antibodies or sera from vaccinated individuals for their ACE2 blocking activities against any emerging SARS‐CoV‐2 variants. [ABSTRACT FROM AUTHOR]

Published
2021
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37. A Barcoded Flow Cytometric Assay to Explore the Antibody Responses Against SARS-CoV-2 Spike and Its Variants.

Author

Vesper, Niklas, Ortiz, Yaneth, Bartels-Burgahn, Frauke, Yang, Jianying, de la Rosa, Kathrin, Tenbusch, Matthias, Schulz, Sebastian, Finzel, Stephanie, Jäck, Hans-Martin, Eibel, Hermann, Voll, Reinhard E., and Reth, Michael

Subjects
SARS-CoV-2, COVID-19, ANTIBODY formation, CHIMERIC proteins, MUTANT proteins
Abstract

The SARS-CoV-2 pandemic has spread to all parts of the world and can cause life-threatening pneumonia and other severe disease manifestations known as COVID-19. This health crisis has resulted in a significant effort to stop the spread of this new coronavirus. However, while propagating itself in the human population, the virus accumulates mutations and generates new variants with increased fitness and the ability to escape the human immune response. Here we describe a color-based barcoded spike flow cytometric assay (BSFA) that is particularly useful to evaluate and directly compare the humoral immune response directed against either wild type (WT) or mutant spike (S) proteins or the receptor-binding domains (RBD) of SARS-CoV-2. This assay employs the human B lymphoma cell line Ramos, transfected for stable expression of WT or mutant S proteins or a chimeric RBD-CD8 fusion protein. We find that the alpha and beta mutants are more stably expressed than the WT S protein on the Ramos B cell surface and/or bind with higher affinity to the viral entry receptor ACE2. However, we find a reduce expression of the chimeric RBD-CD8 carrying the point mutation N501Y and E484K characteristic for the alpha and beta variant, respectively. The comparison of the humoral immune response of 12 vaccinated probands with 12 COVID-19 patients shows that after the boost, the S-specific IgG class immune response in the vaccinated group is similar to that of the patient group. However, in comparison to WT the specific IgG serum antibodies bind less well to the alpha variant and only poorly to the beta variant S protein. This is in line with the notion that the beta variant is an immune escape variant of SARS-CoV-2. The IgA class immune response was more variable than the IgG response and higher in the COVID-19 patients than in the vaccinated group. In summary, we think that our BSFA represents a useful tool to evaluate the humoral immunity against emerging variants of SARS-CoV-2 and to analyze new vaccination protocols against these variants. [ABSTRACT FROM AUTHOR]

Published
2021
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38. TFG is required for autophagy flux and to prevent endoplasmic reticulum stress in CH12 B lymphoma cells.

Author

Steinmetz, Tobit D., Schlötzer-Schrehardt, Ursula, Hearne, Abigail, Schuh, Wolfgang, Wittner, Jens, Schulz, Sebastian R., Winkler, Thomas H., Jäck, Hans-Martin, and Mielenz, Dirk

Subjects
ENDOPLASMIC reticulum, B cell receptors, GREEN fluorescent protein, B cell lymphoma, AUTOPHAGY, KILLER cell receptors, B cells
Abstract

Plasma cells depend on quality control of newly synthesized antibodies in the endoplasmic reticulum (ER) via macroautophagy/autophagy and proteasomal degradation. The cytosolic adaptor protein TFG (Trk-fused gene) regulates ER-Golgi transport, the secretory pathway and proteasome activity in non-immune cells. We show here that TFG is upregulated during lipopolysaccharide- and CpG-induced differentiation of B1 and B2 B cells into plasmablasts, with the highest expression of TFG in mature plasma cells. CRISPR-CAS9-mediated gene disruption of tfg in the B lymphoma cell line CH12 revealed increased apoptosis, which was reverted by BCL2 but even more by ectopic TFG expression. Loss of TFG disrupted ER structure, leading to an expanded ER and increased expression of ER stress genes. When compared to wild-type CH12 cells, tfg KO CH12 cells were more sensitive toward ER stress induced by tunicamycin, monensin and proteasome inhibition or by expression of an ER-bound immunoglobulin (Ig) μ heavy (µH) chain. CH12 tfg KO B cells displayed more total LC3, lower LC3-II turnover and increased numbers and size of autophagosomes. Tandem-fluorescent-LC3 revealed less accumulation of GFP-LC3 in starved and chloroquine-treated CH12 tfg KO B cells. The GFP:RFP ratio of tandem-fluorescent-LC3 was higher in tunicamycin-treated CH12 tfg KO B cells, suggesting less autophagy flux during induced ER stress. Based on these data, we suggest that TFG controls autophagy flux in CH12 B cells and propose that TFG is a survival factor that alleviates ER stress through the support of autophagy flux in activated B cells and mature plasma cells.Abbreviations: Ab, antibody; Ag, antigen; ASC, antibody-secreting cells; ATG, autophagy-related; BCR, B cell receptor; COPII, coat protein complex II; CpG, non-methylated CpG oligonucleotide; ER, endoplasmic reticulum; ERAD, ER-associated degradation; FO, follicular; GFP, green fluorescent protein; HC, heavy chain; Ig, immunoglobulin; IRES, internal ribosomal entry site; LC, light chain; MZ, marginal zone; NFKB, nuclear factor of kappa light polypeptide gene enhancer in B cells; TLR, toll-like receptor; UPR, unfolded protein response. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Regulation of energy metabolism during early B lymphocyte development

Author

Urbanczyk, Sophia, Stein, Merle, Schuh, Wolfgang, Jäck, Hans-Martin, Mougiakakos, Dimitrios, and Mielenz, Dirk Alexander

Subjects
Mitochondrium, oxidative phosphorylation, Review, Glykolyse, lcsh:Chemistry, EFhd1, Mice, DDC 570 / Life sciences, Medizinische Fakultät, ddc:570, Animals, Humans, ddc:610, lcsh:QH301-705.5, Mice, Knockout, B-Lymphocytes, Stoffwechsel, Calcium-Binding Proteins, pre-BCR, glycolysis, mitoflash, Mitochondria, B lymphocyte development, Metabolism, lcsh:Biology (General), lcsh:QD1-999, Calcium, Energy Metabolism, metabolism, Glycolysis
Abstract

he most important feature of humoral immunity is the adaptation of the diversity of newly generated B cell receptors, that is, the antigen receptor repertoire, to the body’s own and foreign structures. This includes the transient propagation of B progenitor cells and B cells, which possess receptors that are positively selected via anabolic signalling pathways under highly competitive conditions. The metabolic regulation of early B-cell development thus has important consequences for the expansion of normal or malignant pre-B cell clones. In addition, cellular senescence programs based on the expression of B cell identity factors, such as Pax5, act to prevent excessive proliferation and cellular deviation. Here, we review the basic mechanisms underlying the regulation of glycolysis and oxidative phosphorylation during early B cell development in bone marrow. We focus on the regulation of glycolysis and mitochondrial oxidative phosphorylation at the transition from non-transformed pro- to pre-B cells and discuss some ongoing issues. We introduce Swiprosin-2/EFhd1 as a potential regulator of glycolysis in pro-B cells that has also been linked to Ca2+-mediated mitoflashes. Mitoflashes are bioenergetic mitochondrial events that control mitochondrial metabolism and signalling in both healthy and disease states. We discuss how Ca2+ fluctuations in pro- and pre-B cells may translate into mitoflashes in early B cells and speculate about the consequences of these changes., publishedVersion

Published
2018

41. miR‐148a controls metabolic programming and survival of mature CD19‐negative plasma cells in mice.

Author

Pracht, Katharina, Meinzinger, Julia, Schulz, Sebastian R., Daum, Patrick, Côrte‐Real, Joana, Hauke, Manuela, Roth, Edith, Kindermann, Dorothea, Mielenz, Dirk, Schuh, Wolfgang, Wittmann, Jürgen, and Jäck, Hans‐Martin

Subjects
PLASMA cells, METABOLIC regulation, B cells, CELL differentiation, ENERGY metabolism
Abstract

Long‐lived antibody‐secreting plasma cells are essential to establish humoral memory against pathogens. While a regulatory transcription factor network has been established in plasma cell differentiation, the regulatory role of miRNAs remains enigmatic. We have recently identified miR‐148a as the most abundant miRNA in primary mouse and human plasma cells. To determine whether this plasma cell signature miRNA controls the in vivo development of B cells into long‐lived plasma cells, we established mice with genomic, conditional, and inducible deletions of miR‐148a. The analysis of miR‐148a‐deficient mice revealed reduced serum Ig, decreased numbers of newly formed plasmablasts and reduced CD19‐negative, CD93‐positive long‐lived plasma cells. Transcriptome and metabolic analysis revealed an impaired glucose uptake, a reduced oxidative phosphorylation‐based energy metabolism, and an altered abundance of homing receptors CXCR3 (increase) and CXCR4 (reduction) in miR‐148a‐deficient plasma cells. These findings support the role of miR‐148a as a positive regulator of the maintenance of long‐lived plasma cells. [ABSTRACT FROM AUTHOR]

Published
2021
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43. Complement Activation in Kidneys of Patients With COVID-19.

Author

Pfister, Frederick, Vonbrunn, Eva, Ries, Tajana, Jäck, Hans-Martin, Überla, Klaus, Lochnit, Günter, Sheriff, Ahmed, Herrmann, Martin, Büttner-Herold, Maike, Amann, Kerstin, and Daniel, Christoph

Subjects
COVID-19, COMPLEMENT activation, PROLIFERATING cell nuclear antigen, ACUTE kidney failure, DISEASE complications
Abstract

Most patients who became critically ill following infection with COVID-19 develop severe acute respiratory syndrome (SARS) attributed to a maladaptive or inadequate immune response. The complement system is an important component of the innate immune system that is involved in the opsonization of viruses but also in triggering further immune cell responses. Complement activation was seen in plasma adsorber material that clogged during the treatment of critically ill patients with COVID-19. Apart from the lung, the kidney is the second most common organ affected by COVID-19. Using immunohistochemistry for complement factors C1q, MASP-2, C3c, C3d, C4d, and C5b-9 we investigated the involvement of the complement system in six kidney biopsies with acute kidney failure in different clinical settings and three kidneys from autopsy material of patients with COVID-19. Renal tissue was analyzed for signs of renal injury by detection of thrombus formation using CD61, endothelial cell rarefaction using the marker E-26 transformation specific-related gene (ERG-) and proliferation using proliferating cell nuclear antigen (PCNA)-staining. SARS-CoV-2 was detected by in situ hybridization and immunohistochemistry. Biopsies from patients with hemolytic uremic syndrome (HUS, n = 5), severe acute tubular injury (ATI, n = 7), zero biopsies with disseminated intravascular coagulation (DIC, n = 7) and 1 year protocol biopsies from renal transplants (Ctrl, n = 7) served as controls. In the material clogging plasma adsorbers used for extracorporeal therapy of patients with COVID-19 C3 was the dominant protein but collectin 11 and MASP-2 were also identified. SARS-CoV-2 was sporadically present in varying numbers in some biopsies from patients with COVID-19. The highest frequency of CD61-positive platelets was found in peritubular capillaries and arteries of COVID-19 infected renal specimens as compared to all controls. Apart from COVID-19 specimens, MASP-2 was detected in glomeruli with DIC and ATI. In contrast, the classical pathway (i.e. C1q) was hardly seen in COVID-19 biopsies. Both C3 cleavage products C3c and C3d were strongly detected in renal arteries but also occurs in glomerular capillaries of COVID-19 biopsies, while tubular C3d was stronger than C3c in biopsies from COVID-19 patients. The membrane attack complex C5b-9, demonstrating terminal pathway activation, was predominantly deposited in COVID-19 biopsies in peritubular capillaries, renal arterioles, and tubular basement membrane with similar or even higher frequency compared to controls. In conclusion, various complement pathways were activated in COVID-19 kidneys, the lectin pathway mainly in peritubular capillaries and in part the classical pathway in renal arteries whereas the alternative pathway seem to be crucial for tubular complement activation. Therefore, activation of the complement system might be involved in the worsening of renal injury. Complement inhibition might thus be a promising treatment option to prevent deregulated activation and subsequent collateral tissue injury. [ABSTRACT FROM AUTHOR]

Published
2021
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44. Chapter Three: Unraveling the mysteries of plasma cells.

Author

Schuh, Wolfgang, Mielenz, Dirk, and Jäck, Hans-Martin

Subjects
PLASMA cells, MULTIPLE myeloma, GENE regulatory networks, CELL transformation, HUMORAL immunity
Abstract

Antibody-secreting plasma cells are the central pillars of humoral immunity. They are generated in a fundamental cellular restructuring process from naive B cells upon contact with antigen. This outstanding process is guided and controlled by a complex transcriptional network accompanied by a fascinating morphological metamorphosis, governed by the combined action of Blimp-1, Xbp-1 and IRF-4. The survival of plasma cells requires the intimate interaction with a specific microenvironment, consisting of stromal cells and cells of hematopoietic origin. Cell-cell contacts, cytokines and availability of metabolites such as glucose and amino acids modulate the survival abilities of plasma cells in their niches. Moreover, plasma cells have been shown to regulate immune responses by releasing cytokines. Furthermore, plasma cells are central players in autoimmune diseases and malignant transformation of plasma cells can result in the generation of multiple myeloma. Hence, the development of sophisticated strategies to deplete autoreactive plasma cells and myeloma cells represents a challenge for current and future research. [ABSTRACT FROM AUTHOR]

Published
2020
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45. GLUT1-mediated glucose import in B cells is critical for anaplerotic balance and humoral immunity.

Author

Bierling, Theresa E.H., Gumann, Amelie, Ottmann, Shannon R., Schulz, Sebastian R., Weckwerth, Leonie, Thomas, Jana, Gessner, Arne, Wichert, Magdalena, Kuwert, Frederic, Rost, Franziska, Hauke, Manuela, Freudenreich, Tatjana, Mielenz, Dirk, Jäck, Hans-Martin, and Pracht, Katharina

Abstract

Glucose uptake increases during B cell activation and antibody-secreting cell (ASC) differentiation, but conflicting findings prevent a clear metabolic profile at different stages of B cell activation. Deletion of the glucose transporter type 1 (GLUT1) gene in mature B cells (GLUT1-cKO) results in normal B cell development, but it reduces germinal center B cells and ASCs. GLUT1-cKO mice show decreased antigen-specific antibody titers after vaccination. In vitro , GLUT1-deficient B cells show impaired activation, whereas established plasmablasts abolish glycolysis, relying on mitochondrial activity and fatty acids. Transcriptomics and metabolomics reveal an altered anaplerotic balance in GLUT1-deficient ASCs. Despite attempts to compensate for glucose deprivation by increasing mitochondrial mass and gene expression associated with glycolysis, the tricarboxylic acid cycle, and hexosamine synthesis, GLUT1-deficient ASCs lack the metabolites for energy production and mitochondrial respiration, limiting protein synthesis. We identify GLUT1 as a critical metabolic player defining the germinal center response and humoral immunity. [Display omitted] • GLUT1-controlled glucose import into B cells is critical for humoral immunity • GLUT1 supports the formation of germinal center B cells and antibody-secreting cells (ASCs) • Glucose deprivation increases mitochondrial mass but limits ETC complex transcripts in ASCs • GLUT1 controls the metabolic balance and anaplerotic reactions in activated B cells Bierling et al. show that GLUT1-controlled glucose import into B cells is critical for the establishment of humoral immunity. Glucose deprivation disrupts the anaplerotic balance in activated B cells, altering their activation, proliferation, viability, mitochondrial function, protein translation, and differentiation into antibody-secreting cells. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Eosinophils are not essential for maintenance of murine plasma cells in the bone marrow.

Author

Haberland, Konrad, Ackermann, Jochen A., Ipseiz, Natacha, Culemann, Stephan, Pracht, Katharina, Englbrecht, Matthias, Jäck, Hans‐Martin, Schett, Georg, Schuh, Wolfgang, and Krönke, Gerhard

Abstract

Abstract: Eosinophils were reported to serve as an essential component of the plasma cell niche within the bone marrow. As the potential contribution of eosinophils to humoral immunity has remained incompletely understood, we aimed to further characterize their role during antibody responses and to additionally investigate their role in autoimmune disease. Contrary to our expectations and the currently prevailing paradigm, we found that eosinophils are fully dispensable for the survival of murine bone marrow plasma cells and accordingly do not contribute to antibody production and autoantibody‐mediated disease. Littermate wild type and eosinophil‐deficient ΔdblGATA‐1 animals showed similar numbers and frequencies of plasma cells and did not differ in steady state levels of immunoglobulins or their ability to raise antigen‐specific antibody responses. Eosinophils were likewise dispensable for autoantibody production or autoantibody‐induced disease in a mouse model of systemic lupus erythematosus. Our findings thus argue against a role of eosinophils during the maintenance of the plasma cell pool and challenge the hitherto postulated concept of an eosinophil‐sustained bone marrow niche. [ABSTRACT FROM AUTHOR]

Published
2018
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48. miRNA meets plasma cells “How tiny RNAs control antibody responses”.

Author

Meinzinger, Julia, Jäck, Hans-Martin, and Pracht, Katharina

Subjects
*MICRORNA, *PLASMA cells, *ANTIBODY formation, *MONOCLONAL gammopathies, *EXTRACELLULAR signal-regulated kinases
Abstract

We review the importance of small non-coding microRNAs for the generation of germinal center B cells and their differentiation in antibody-secreting plasma cells. In the last part, we briefly elucidate the role of microRNAs in some plasma cell disorders. [ABSTRACT FROM AUTHOR]

Published
2018
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49. Interleukin-36 receptor mediates the crosstalk between plasma cells and synovial fibroblasts.

Author

Schmitt, Verena, Hahn, Madelaine, Kästele, Verena, Wagner, Olga, Wiendl, Maximilian, Derer, Anja, Taddeo, Adriano, Hahne, Stefanie, Radbruch, Andreas, Jäck, Hans‐Martin, Schuh, Wolfgang, Mielenz, Dirk, Gay, Steffen, Schett, Georg, Hueber, Axel J, and Frey, Silke

Abstract

The IL-1 family member IL-36α has proinflammatory and pathogenic properties in psoriasis. IL-36α binds to the IL-36 receptor leading to nuclear factor kappa B/mitogen activated protein kinase mediated cytokine release. The IL-36R antagonist prevents recruitment of IL-1 receptor accessory protein and therefore IL-36-dependent cell activation. In inflamed human tissue, we previously could show that resident B cells and plasma cells (PC) express IL-36α. Further, fibroblast-like synoviocytes (FLS) produced proinflammatory cytokines upon IL-36α-stimulation. We hypothesize an IL-36-specific crosstalk between B cells/PCs and FLS permitting a proinflammatory B cell niche. Here, we firstly demonstrated that B cell lines and B cells from healthy donors express IL-36α and stimulation increased IL-36α in B cells and primary plasmablasts/PCs. Moreover, FLS respond specifically to IL-36α by proliferation and production of matrix metalloproteinases via p38/HSP27 signaling. Importantly, IL-36R-deficiency abrogated IL-36α−induced production of inflammatory mediators in FLS and changed the intrinsic FLS-phenotype. Using an in vitro co-culture system, we could show that IL-36R-deficient FLS had a limited capacity to support PC survival compared to wild-type FLS. Hence, we demonstrated an IL-36R-dependent crosstalk between B cells/PCs and FLS. Our data support the concept of initiation and maintenance of a proinflammatory niche by B cells in the joints. [ABSTRACT FROM AUTHOR]

Published
2017
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