Your search keyword '"Giesecke, Claudia"' showing total 3 results

1. Tissue distribution and dependence of responsiveness of human antigen-specific memory B cells.

Author

Giesecke C, Frölich D, Reiter K, Mei HE, Wirries I, Kuhly R, Killig M, Glatzer T, Stölzel K, Perka C, Lipsky PE, and Dörner T

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Antigens immunology, Antigens, CD immunology, Antigens, CD metabolism, B-Lymphocytes metabolism, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Humans, Immunoglobulin G blood, Immunoglobulin G immunology, Lymphocyte Count, Male, Middle Aged, Plasma Cells immunology, Receptors, Antigen, B-Cell immunology, Receptors, Antigen, B-Cell metabolism, Tetanus Toxoid immunology, Young Adult, B-Lymphocytes immunology, Bone Marrow immunology, Immunologic Memory immunology, Palatine Tonsil immunology, Spleen immunology

Abstract

Memory B cells (mBCs) are a key to immunologic memory, yet their distribution within lymphoid organs and the individual role of these for mBC functionality remain largely unknown. This study characterized the distribution and phenotype of human (Ag-specific) mBCs in peripheral blood (PB), spleen, tonsil, and bone marrow. We found that the spleen harbors most mBCs, followed by tonsils, BM, and PB, and we detected no major differences in expression of markers associated with higher maturity. Testing the distribution of tetanus toxoid-specific (TT(+)) mBCs revealed their presence in PB during steady state, yet absolute numbers suggested their largest reservoir in the spleen, followed by tonsils. To explore the role of both tissues in the maintenance of reactive B cell memory, we revaccinated controls and splenectomized and tonsillectomized individuals with TT. All donor groups exhibited comparable emergence of anti-TT IgG, TT(+) plasma cells, and TT(+) mBCs in the PB, together with similar molecular characteristics of TT(+) plasma cells. In summary, human mBCs recirculate through PB and reside in different lymphoid organs that do not reflect different mBC maturity stages. The spleen and tonsil, although harboring the largest number of overall and TT(+) mBCs, appear to be dispensable to preserve adequate responsiveness to secondary antigenic challenge.

Published

2014

2. Molecular and phenotypic studies of human antigen-specific effector- and memory B cells

Author

Giesecke, Claudia, Radbruch, Andreas, Dörner, Thomas, and Matuschewski, Kai

Subjects

memory B cell, bone marrow, Überleben, Immunologisches Gedächtnis, plasma cell, 32 Biologie, Splenektomiert, Immunisierung, immunization, survival, Plasmablast, Primär, maintenance, immunological memory, tonsillectomized, ddc:570, Knochenmark, primary, 570 Biowissenschaften, Biologie, Nische, Milz, Tonsille, Gedächtnis-B-Zelle, Sekundär, B-Zellgedächtnis, niche, Tonsillektomiert, B cell memory, tonsil, splenectomized, spleen, Plasmazelle, secondary, WF 9880

Abstract

Gedächtnis-B-Zellen und Plasmazellen sind essentielle Komponenten der protektiven Immunität. Die Mechanismen ihrer Induktion, ihres Überlebens und der Gedächtnis-B-Zellreaktivierung sind allerding bisher nur unvollständig verstanden. Um unser Wissen diesbezüglich zu erweitern, wurden in der vorliegenden Arbeit zum einen Charakteristika von Primär- und Sekundärimmunantworten nach Immunisierung mit Keyhole Limpet Hemocyanin (KLH) untersucht und zum anderen das Vorkommen sowie der Phänotyp humaner Gedächtnis-B-Zellen in verschiedenen lymphatischen Geweben analysiert. Die primäre parenterale KLH Immunisierung führte auf serologischer und zellulärer Ebene zu einer Reihe unerwarteter Ergebnisse, welche u. a. das Auftreten von IgA Antikörpern und die gleichzeitige Präsenz von hoch- und wenig mutierten primären Plasmablasten beinhalteten. Die Untersuchung der Gedächtnis-B-Zellverteilung in verschiedenen lymphatischen Geweben ergab den größten Gedächtnis-B-Zellpool in der Milz. Blut-, Tonsillen-, Knochenmarks- und Milz-Gedächtnis-B-Zellen wiesen nur wenige phänotypische Unterschiede auf. Einer davon war die CD69 Expression auf tonsillären ruhenden Gedächtnis-B-Zellen, was darauf hindeutet, dass tonsilläre Gedächtnis-B-Zellen tatsächlich sessil sein könnten. Die hier erhaltenen Ergebnisse stellen neue Erkenntnisse über bisher unbeschriebene Mechanismen bei parenteralen Immunantworten wie zum Beispiel die Induktion von IgA Antikörpern sowie die potentielle Rekrutierung kreuzreaktiver Gedächtnis-B-Zellen dar. Es bleibt zu klären, wie die Reaktivierung solcher Gedächtnis-B-Zellen reguliert ist. Derartiges Wissen wäre insbesondere für Therapien von Erkrankungen des Immunsystems, wie Autoimmunität, von Bedeutung. Das potentiell patrouillierende Verhalten der Gedächtnis-B-Zellen ist ein markanter Unterschied zu den nischenabhängigen sessilen Plasmazellen und deutet weitestgehend darauf hin, dass Gedächtnis-B-Zellen nicht auf derartige Nischen angewiesen sind. Memory B cells (mBC) and antibodies are major mediators of protective immune responses yet the mechanisms of their induction, maintenance and mBC reactivation are poorly understood. Therefore, to enhance knowledge in this regard this study comprehensively characterized a human primary and secondary B cell immune response to Keyhole Limpet Hemocyanin (KLH). Secondly, mBC maintenance was investigated by a systematic analysis of mBC presence, frequency and phenotype within different lymphoid organs. Parenteral primary KLH immunization yielded unexpected results on the serological and B cellular level, including KLH-specific IgA antibody induction, the simultaneous presence of low and highly mutated circulating KLH-specific primary plasmablasts and only little clonal overlap between the primary, memory and secondary KLH-specific B cell repertoires. With respect to the organ distribution of human mBC, the spleen was identified as a major mBC reservoir. Splenic, tonsillar, bone marrow and blood mBC pools exhibited a largely comparable phenotype. Yet, we found tonsillar mBC to express CD69. Due to their resting state tonsillar mBC could therefore constitute a tissue resident cell population. The observations described allow insights into hitherto unknown potential mechanisms behind primary immune responses, i.e. prominent IgA induction by parenteral challenge and inclusion of cross-reactive mBC. The so far unclear regulatory players involved deserve future investigation, as such knowledge may be crucial for therapeutic interventions in immune system disorders. Furthermore, strikingly different to the resident plasma cells in the bone marrow, mBC appear to distribute between lymphoid organs and continuously recirculate in peripheral blood indicative of their potential permanent screening activities, suggesting that human mBC do not require one dedicated niche for their principle survival.

Published

2015

3. A unique population of IgG-expressing plasma cells lacking CD19 is enriched in human bone marrow.

Author

Mei, Henrik E., Wirries, Ina, Frölich, Daniela, Brisslert, Mikael, Giesecke, Claudia, Grün, Joachim R., Alexander, Tobias, Schmidt, Stefanie, Luda, Katarzyna, Kühl, Anja A., Engelmann, Robby, Dürr, Michael, Scheel, Tobias, Bokarewa, Maria, Perka, Carsten, Radbruch, Andreas, and Dörner, Thomas

Subjects

*IMMUNOGLOBULINS, *PLASMA cells, *GENETIC mutation, *GENE expression, *BONE marrow

Abstract

Specific serum antibodies mediating humoral immunity and autoimmunity are provided by mature plasma cells (PC) residing in the bone marrow (BM), yet their dynamics and composition are largely unclear. We here characterize distinct subsets of human PC differing by CD19 expression. Unlike CD19+ PC, CD19- PC were restricted to BM, expressed predominantly IgG, and they carried a prosurvival, distinctly mature phenotype, that is, HLA-DRlowKi-67-CD95lowCD28+CD56+/-, with increased BCL2and they resisted their mobilization from the BM after systemic vaccination. Fewer mutations within immunoglobulin VH rearrangements of CD19- BMPC may indicate their differentiation in early life. Their resistance to in vivo B-cell depletion, that is, their independency from supply with new plasmablasts, is consistent with long-term stability of this PC subset in the BM. Moreover, CD19- PC were detectable in chronically inflamed tissues and secreted autoantibodies. We propose a multilayer model of PC memory in which CD19+ and CD19- PC represent dynamic and static components, respectively, permitting both adaptation and stability of humoral immune protection. [ABSTRACT FROM AUTHOR]

Published

2015