Your search keyword '"Kläsener, Kathrin"' showing total 4 results

1. CD20 as a gatekeeper of the resting state of human B cells.

Author

Kläsener, Kathrin, Jellusova, Julia, Andrieux, Geoffroy, Salzer, Ulrich, Böhler, Chiara, Steiner, Sebastian N., Albinus, Jonas B., Cavallari, Marco, Süß, Beatrix, Voll, Reinhard E., Boerries, Melanie, Wollscheid, Bernd, and Reth, Michael

Subjects

*B cells, *B cell receptors, *COMMERCIAL products, *PLASMA cells, *MEMBRANE proteins, *REMANUFACTURING, *OXIDATIVE phosphorylation

Abstract

CD20 is a B cell-specific membrane protein and represents an attractive target for therapeutic antibodies. Despite widespread usage of anti-CD20 antibodies for B cell depletion therapies, the biological function of their target remains unclear. Here, we demonstrate that CD20 controls the nanoscale organization of receptors on the surface of resting B lymphocytes. CRISPR/Cas9- mediated ablation of CD20 in resting B cells resulted in relocalization and interaction of the IgM-class B cell antigen receptor with the coreceptor CD19. This receptor rearrangement led to a transient activation of B cells, accompanied by the internalization of many B cell surface marker proteins. Reexpression of CD20 restored the expression of the B cell surface proteins and the resting state of Ramos B cells. Similarly, treatment of Ramos or naive human B cells with the anti-CD20 antibody rituximab induced nanoscale receptor rearrangements and transient B cell activation in vitro and in vivo. A departure from the resting B cell state followed by the loss of B cell identity of CD20-deficient Ramos B cells was accompanied by a PAX5 to BLIMP-1 transcriptional switch, metabolic reprogramming toward oxidative phosphorylation, and a shift toward plasma cell development. Thus, anti-CD20 engagement or the loss of CD20 disrupts membrane organization, profoundly altering the fate of human B cells. [ABSTRACT FROM AUTHOR]

Published

2021

2. Spleen Tyrosine Kinase Is Involved in the CD38 Signal Transduction Pathway in Chronic Lymphocytic Leukemia.

Author

Benkisser-Petersen, Marco, Buchner, Maike, Dörffel, Arlette, Dühren-von-Minden, Marcus, Claus, Rainer, Kläsener, Kathrin, Leberecht, Kerstin, Burger, Meike, Dierks, Christine, Jumaa, Hassan, Malavasi, Fabio, Reth, Michael, Veelken, Hendrik, Duyster, Justus, and Zirlik, Katja

Subjects

CHRONIC lymphocytic leukemia, PROTEIN-tyrosine kinases, CD38 antigen, CELLULAR signal transduction, CANCER cell proliferation, CELL receptors, CANCER immunology

Abstract

The survival and proliferation of CLL cells depends on microenvironmental contacts in lymphoid organs. CD38 is a cell surface receptor that plays an important role in survival and proliferation signaling in CLL. In this study we demonstrate SYK's direct involvement in the CD38 signaling pathway in primary CLL samples. CD38 stimulation of CLL cells revealed SYK activation. SYK downstream target AKT was subsequently induced and MCL-1 expression was increased. Concomitant inhibition of SYK by the SYK inhibitor R406 resulted in reduced activation of AKT and prevented upregulation of MCL-1. Moreover, short-term CD38 stimulation enhanced BCR-signaling, as indicated by increased ERK phosphorylation. CXCL12-dependent migration was increased after CD38 stimulation. Treating CLL cells with R406 inhibited CD38-mediated migration. In addition, we observed marked downregulation of CD38 expression for CLL cells treated with R406 compared to vehicle control. Finally, we observed a clear correlation between CD38 expression on CLL cells and SYK-inhibitor efficacy. In conclusion, our study provides deeper mechanistic insight into the effect of SYK inhibition in CLL. [ABSTRACT FROM AUTHOR]

Published

2016

3. The Role of the Syk/Shp-1 Kinase-Phosphatase Equilibrium in B Cell Development and Signaling.

Author

Alsadeq, Ameera, Hobeika, Elias, Medgyesi, David, Kläsener, Kathrin, and Reth, Michael

Subjects

*KINASE inhibitors, *KINASE genetics, *KINASE regulation, *B cells, *TYROSINE, *PHYSIOLOGY

Abstract

Signal transduction from the BCR is regulated by the equilibrium between kinases (e.g., spleen tyrosine kinase [Syk]) and phosphatases (e.g., Shp-1). Previous studies showed that Syk-deficient B cells have a developmental block at the pro/pre-B cell stage, whereas a B cell-specific Shp-1 deficiency promoted B-1a cell development and led to autoimmunity. We generated B cell-specific Shp-1 and Syk double-knockout (DKO) mice and compared them to the single-knockout mice deficient for either Syk or Shp-1. Unlike Syk-deficient mice, the DKO mice can generate mature B cells, albeit at >20-fold reduced B cell numbers. The DKO B-2 cells are all Syk-negative, whereas the peritoneal B1 cells of the DKO mice still express Syk, indicating that they require this kinase for their proper development. The DKO B-2 cells cannot be stimulated via the BCR, whereas they are efficiently activated via TLR or CD40. We also found that in DKO pre-B cells, the kinase Zap70 is associated with the pre-BCR, suggesting that Zap70 is important to promote B cell maturation in the absence of Syk and SHP-1. Together, our data show that a properly balanced kinase/phosphatase equilibrium is crucial for normal B cell development and function. [ABSTRACT FROM AUTHOR]

Published

2014

4. The Ligand-Binding Domain of Siglec-G Is Crucial for Its Selective Inhibitory Function on B1 Cells.

Author

Hutzler, Stefan, Özgör, Lamia, Yuko Naito-Matsui, Kläsener, Kathrin, Winkler, Thomas H., Reth, Michael, and Nitschke, Lars

Subjects

*B cells, *CELLULAR signal transduction, *SIALIC acids, *LIGAND binding (Biochemistry), *GENETIC mutation

Abstract

Siglec-G is an inhibitory receptor on B1 cells. Siglec-G-deficient mice show a large B1 cell expansion, owing to higher BCR-induced Ca2+ signaling and enhanced cellular survival. It was unknown why Siglec-G shows a B1 cell-restricted inhibitory function. With a new mAb we could show a comparable Siglec-G expression on B1 cells and conventional B2 cells. However, Siglec-G has a different ligand sialic acid-binding pattern on peritoneal B1 cells than on splenic B cells, and its sialic acid ligands are expressed differentially on these two B cell populations, suggesting that cis-ligand binding plays a crucial role on B1 cells. This observation was further studied by generation of Siglec-G knockin mice with a mutated ligand-binding domain. These mice show increased B1 cell numbers, increased B1 cell Ca2+ signaling, better B1 cell survival, and changes in the B1 cell Ig repertoire. These phenotypes are very similar to Siglec-G-deficient mice. The mutation of the ligand-binding domain of Siglec-G strongly reduces the Siglec-G-IgM association on the B cell surface. Thus, Siglec-G sialic acid-dependent binding to the BCR is crucial for the B1 cell-restricted inhibitory function of Siglec-G and is regulated in an opposite way to that of the related protein CD22 (Siglec-2) on B cells. [ABSTRACT FROM AUTHOR]

Published

2014