Your search keyword '"antigen receptor signaling"' showing total 26 results

1. Unrestrained cleavage of Roquin-1 by MALT1 induces spontaneous T cell activation and the development of autoimmunity.

Author

Schmidt, Henrik, Raj, Timsse, O'Neill, Thomas J., Muschaweckh, Andreas, Giesert, Florian, Negraschus, Arlinda, Hoefig, Kai P., Behrens, Gesine, Esser, Lena, Baumann, Christina, Feederle, Regina, Plaza-Sirvent, Carlos, Geerlof, Arie, Gewies, Andreas, Isay, Sophie E., Ruland, Jürgen, Schmitz, Ingo, Wurst, Wolfgang, Korn, Thomas, and Krappmann, Daniel

Subjects

*T cells, *T cell differentiation, *T cell receptors, *AUTOIMMUNITY, *TH1 cells

Abstract

Constitutive activation of the MALT1 paracaspase in conventional T cells of Malt1TBM/TBM (TRAF6 Binding Mutant = TBM) mice causes fatal inflammation and autoimmunity, but the involved targets and underlying molecular mechanisms are unknown. We genetically rendered a single MALT1 substrate, the RNA-binding protein (RBP) Roquin-1, insensitive to MALT1 cleavage. These Rc3h1Mins/Mins mice showed normal immune homeostasis. Combining Rc3h1Mins/Mins alleles with those encoding for constitutively active MALT1 (TBM) prevented spontaneous T cell activation and restored viability of Malt1TBM/TBM mice. Mechanistically, we show how antigen/MHC recognition is translated by MALT1 into Roquin cleavage and derepression of Roquin targets. Increasing T cell receptor (TCR) signals inactivated Roquin more effectively, and only high TCR strength enabled derepression of high-affinity targets to promote Th17 differentiation. Induction of experimental autoimmune encephalomyelitis (EAE) revealed increased cleavage of Roquin-1 in disease-associated Th17 compared to Th1 cells in the CNS. T cells from Rc3h1Mins/Mins mice did not efficiently induce the high-affinity Roquin-1 target IκBNS in response to TCR stimulation, showed reduced Th17 differentiation, and Rc3h1Mins/Mins mice were protected from EAE. These data demonstrate how TCR signaling and MALT1 activation utilize graded cleavage of Roquin to differentially regulate target mRNAs that control T cell activation and differentiation as well as the development of autoimmunity. [ABSTRACT FROM AUTHOR]

Published

2023

2. Reporters of TCR signaling identify arthritogenic T cells in murine and human autoimmune arthritis

Author

Ashouri, Judith F, Hsu, Lih-Yun, Yu, Steven, Rychkov, Dmitry, Chen, Yiling, Cheng, Debra A, Sirota, Marina, Hansen, Erik, Lattanza, Lisa, Zikherman, Julie, and Weiss, Arthur

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Immunology, Rheumatoid Arthritis, Autoimmune Disease, Arthritis, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Adult, Aged, Animals, Arthritis, Experimental, Arthritis, Rheumatoid, Biopsy, CD4-Positive T-Lymphocytes, Cell Differentiation, Down-Regulation, Female, Genes, Reporter, Green Fluorescent Proteins, Humans, Interleukin-17, Interleukin-6, Male, Mice, Mice, Transgenic, Middle Aged, Nuclear Receptor Subfamily 4, Group A, Member 1, Receptors, Antigen, T-Cell, Signal Transduction, Suppressor of Cytokine Signaling 3 Protein, Synovectomy, Synovial Membrane, Th17 Cells, Zymosan, antigen receptor signaling, T cells, Nur77, autoimmunity, rheumatoid arthritis

Abstract

How pathogenic cluster of differentiation 4 (CD4) T cells in rheumatoid arthritis (RA) develop remains poorly understood. We used Nur77-a marker of T cell antigen receptor (TCR) signaling-to identify antigen-activated CD4 T cells in the SKG mouse model of autoimmune arthritis and in patients with RA. Using a fluorescent reporter of Nur77 expression in SKG mice, we found that higher levels of Nur77-eGFP in SKG CD4 T cells marked their autoreactivity, arthritogenic potential, and ability to more readily differentiate into interleukin-17 (IL-17)-producing cells. The T cells with increased autoreactivity, nonetheless had diminished ex vivo inducible TCR signaling, perhaps reflective of adaptive inhibitory mechanisms induced by chronic autoantigen exposure in vivo. The enhanced autoreactivity was associated with up-regulation of IL-6 cytokine signaling machinery, which might be attributable, in part, to a reduced amount of expression of suppressor of cytokine signaling 3 (SOCS3)-a key negative regulator of IL-6 signaling. As a result, the more autoreactive GFPhi CD4 T cells from SKGNur mice were hyperresponsive to IL-6 receptor signaling. Consistent with findings from SKGNur mice, SOCS3 expression was similarly down-regulated in RA synovium. This suggests that despite impaired TCR signaling, autoreactive T cells exposed to chronic antigen stimulation exhibit heightened sensitivity to IL-6, which contributes to the arthritogenicity in SKG mice, and perhaps in patients with RA.

Published

2019

3. Role of Protein Kinase A Activation in the Immune System with an Emphasis on Lipopolysaccharide-Responsive and Beige-like Anchor Protein in B Cells.

Author

Pérez-Pérez, Daniela, Santos-Argumedo, Leopoldo, Rodríguez-Alba, Juan Carlos, and López-Herrera, Gabriela

Subjects

*CYCLIC-AMP-dependent protein kinase, *PROTEIN kinases, *B cells, *IMMUNE system, *T cells, *PROTEINS

Abstract

Cyclic AMP-dependent protein kinase A (PKA) is a ubiquitous enzymatic complex that is involved in a broad spectrum of intracellular receptor signaling. The activity of PKA depends on A-kinase anchoring proteins (AKAPs) that attach to PKAs close to their substrates to control signaling. Although the relevance of PKA-AKAP signaling in the immune system is evident in T cells, its relevance in B and other immune cells remains relatively unclear. In the last decade, lipopolysaccharide-responsive and beige-like anchor protein (LRBA) has emerged as an AKAP that is ubiquitously expressed in B and T cells, specifically after activation. A deficiency of LRBA leads to immune dysregulation and immunodeficiency. The cellular mechanisms regulated by LRBA have not yet been investigated. Therefore, this review summarizes the functions of PKA in immunity and provides the most recent information regarding LRBA deficiency to deepen our understanding of immune regulation and immunological diseases. [ABSTRACT FROM AUTHOR]

Published

2023

4. Anti-Programmed Death 1 (PD1)

Author

Freeman, Gordon J., Sharpe, Arlene, and Marshall, John L., editor

Published

2017

5. Editorial: TRAF Proteins in Health and Disease

Author

Gail A. Bishop, Ali A. Abdul-Sater, and Tania H. Watts

Subjects

TNFR signaling, TLR signaling, NLR signaling, cytokine signaling, antigen receptor signaling, NF-kB, Immunologic diseases. Allergy, RC581-607

Published

2019

6. Role of 4-1BBL and TRAF1 in the CD8 T Cell Response to Influenza Virus and HIV

Author

Watts, Tania H., Lin, Gloria H.Y., Wang, Chao, McPherson, Ann J., Snell, Laura M., Sabbagh, Laurent, Wallach, David, editor, Kovalenko, Andrew, editor, and Feldmann, Marc, editor

Published

2011

7. Receptor Modulators of B-Cell Receptor Signalling — CD19/CD22

Author

Smith, K. G. C., Fearon, D. T., Compans, R. W., editor, Cooper, M., editor, Hogle, J. M., editor, Ito, Y., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, Justement, Louis B., editor, and Siminovitch, Katherine A., editor

Published

2000

8. Editorial: TRAF Proteins in Health and Disease.

Author

Bishop, Gail A., Abdul-Sater, Ali A., and Watts, Tania H.

Subjects

CYTOKINES, INFLAMMATION, ANTIGEN receptors, ARTHRITIS, CELL receptors

Published

2019

9. Antigen Receptor Signaling Induces Differential Tyrosine Kinase Activation and Population Stability in B-Cell Lymphoma

Author

Hsueh, R. C., Hammill, A. K., Marches, R., Uhr, J. W., Scheuermann, R. H., Compans, R. W., editor, Cooper, M., editor, Hogle, J. M., editor, Koprowski, H., editor, Ito, Y., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, Melchers, Fritz, editor, and Potter, Michael, editor

Published

1999

10. Involvement of the SHP-1 Tyrosine Phosphatase in Regulating B Lymphocyte Antigen Receptor Signaling, Proliferation and Transformation

Author

Siminovitch, K. A., Lamhonwah, A.-M, Somani, A.-K, Cardiff, R., Mills, G. B., Compans, R. W., editor, Cooper, M., editor, Hogle, J. M., editor, Koprowski, H., editor, Ito, Y., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, Melchers, Fritz, editor, and Potter, Michael, editor

Published

1999

11. Regulation of B Cell Antigen Receptor Signaling by the Lyn/CD22/SHP1 Pathway

Author

Cornall, R. J., Goodnow, C. C., Cyster, J. G., Compans, R. W., editor, Cooper, M., editor, Hogle, J. M., editor, Ito, Y., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, Daëron, Marc, editor, and Vivier, Eric, editor

Published

1999

12. The Unexpected Complexity of FcγRIIB Signal Transduction

Author

Cambier, J. C., Fong, D., Tamir, I., Compans, R. W., editor, Cooper, M., editor, Hogle, J. M., editor, Ito, Y., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, Daëron, Marc, editor, and Vivier, Eric, editor

Published

1999

13. Reporters of TCR signaling identify arthritogenic T cells in murine and human autoimmune arthritis

Author

Eric Hansen, Lih-Yun Hsu, Debra A. Cheng, Julie Zikherman, Judith F. Ashouri, Marina Sirota, Arthur Weiss, Lisa L. Lattanza, Yiling Chen, Dmitry Rychkov, and Steven Yu

Subjects

CD4-Positive T-Lymphocytes, Male, rheumatoid arthritis, 0301 basic medicine, Tcr signaling, Biopsy, medicine.medical_treatment, Endogeny, medicine.disease_cause, Transgenic, Autoimmunity, Arthritis, Rheumatoid, Mice, Immunology and Inflammation, Nur77, 0302 clinical medicine, Genes, Reporter, Synovectomy, Rheumatoid, Receptors, Nuclear Receptor Subfamily 4, Group A, Member 1, 2.1 Biological and endogenous factors, SOCS3, Aetiology, Receptor, Group A, 0303 health sciences, Multidisciplinary, Interleukin-17, Synovial Membrane, autoimmunity, Cell Differentiation, Middle Aged, Biological Sciences, Cytokine, Rheumatoid arthritis, Antigen, Female, Signal Transduction, Nuclear Receptor Subfamily 4, Adult, Member 1, Nerve growth factor IB, Green Fluorescent Proteins, Receptors, Antigen, T-Cell, T cells, Down-Regulation, Mice, Transgenic, Biology, Autoimmune Disease, Experimental, 03 medical and health sciences, Downregulation and upregulation, medicine, Animals, Humans, antigen receptor signaling, Reporter, 030304 developmental biology, Aged, 030203 arthritis & rheumatology, Cluster of differentiation, Interleukin-6, Arthritis, Inflammatory and immune system, T-cell receptor, Zymosan, medicine.disease, T-Cell, Arthritis, Experimental, 030104 developmental biology, Genes, Suppressor of Cytokine Signaling 3 Protein, Immunology, Th17 Cells, Ex vivo, 030215 immunology

Abstract

Significance How arthritis-causing T cells trigger rheumatoid arthritis (RA) is not understood since it is difficult to differentiate T cells activated by inflammation in arthritic joints from those activated through their T cell antigen receptor (TCR) by self-antigens. We developed a model to identify and study antigen-specific T cell responses in arthritis. Nur77—a specific marker of TCR signaling—was used to identify antigen-activated T cells in the SKG arthritis model and in patients with RA. Nur77 could distinguish highly arthritogenic and autoreactive T cells in SKG mice. The enhanced autoreactivity was associated with increased interleukin-6 (IL-6) receptor signaling, likely contributing to their arthritogenicity. These data highlight a functional correlate between Nur77 expression, arthritogenic T cell populations, and heightened IL-6 sensitivity in SKG mice with translatable implications for human RA., How pathogenic cluster of differentiation 4 (CD4) T cells in rheumatoid arthritis (RA) develop remains poorly understood. We used Nur77—a marker of T cell antigen receptor (TCR) signaling—to identify antigen-activated CD4 T cells in the SKG mouse model of autoimmune arthritis and in patients with RA. Using a fluorescent reporter of Nur77 expression in SKG mice, we found that higher levels of Nur77-eGFP in SKG CD4 T cells marked their autoreactivity, arthritogenic potential, and ability to more readily differentiate into interleukin-17 (IL-17)–producing cells. The T cells with increased autoreactivity, nonetheless had diminished ex vivo inducible TCR signaling, perhaps reflective of adaptive inhibitory mechanisms induced by chronic autoantigen exposure in vivo. The enhanced autoreactivity was associated with up-regulation of IL-6 cytokine signaling machinery, which might be attributable, in part, to a reduced amount of expression of suppressor of cytokine signaling 3 (SOCS3)—a key negative regulator of IL-6 signaling. As a result, the more autoreactive GFPhi CD4 T cells from SKGNur mice were hyperresponsive to IL-6 receptor signaling. Consistent with findings from SKGNur mice, SOCS3 expression was similarly down-regulated in RA synovium. This suggests that despite impaired TCR signaling, autoreactive T cells exposed to chronic antigen stimulation exhibit heightened sensitivity to IL-6, which contributes to the arthritogenicity in SKG mice, and perhaps in patients with RA.

Published

2019

14. SYK and ZAP70 kinases in autoimmunity and lymphoid malignancies.

Author

Leveille, Etienne, Chan, Lai N., Mirza, Abu-Sayeef, Kume, Kohei, and Müschen, Markus

Subjects

*KINASES, *MANTLE cell lymphoma, *CHRONIC lymphocytic leukemia, *LYMPHOBLASTIC leukemia, *ACUTE leukemia

Abstract

SYK and ZAP70 nonreceptor tyrosine kinases serve essential roles in initiating B-cell receptor (BCR) and T-cell receptor (TCR) signaling in B- and T-lymphocytes, respectively. Despite their structural and functional similarity, expression of SYK and ZAP70 is strictly separated during B- and T-lymphocyte development, the reason for which was not known. Aberrant co-expression of ZAP70 with SYK was first identified in B-cell chronic lymphocytic leukemia (CLL) and is considered a biomarker of aggressive disease and poor clinical outcomes. We recently found that aberrant ZAP70 co-expression not only functions as an oncogenic driver in CLL but also in various other B-cell malignancies, including acute lymphoblastic leukemia (B-ALL) and mantle cell lymphoma. Thereby, aberrantly expressed ZAP70 redirects SYK and BCR-downstream signaling from NFAT towards activation of the PI3K-pathway. In the sole presence of SYK, pathological BCR-signaling in autoreactive or premalignant cells induces NFAT-activation and NFAT-dependent anergy and negative selection. In contrast, negative selection of pathological B-cells is subverted when ZAP70 diverts SYK from activation of NFAT towards tonic PI3K-signaling, which promotes survival instead of cell death. We discuss here how both B-cell malignancies and autoimmune diseases frequently evolve to harness this mechanism, highlighting the importance of developmental separation of the two kinases as an essential safeguard. [ABSTRACT FROM AUTHOR]

Published

2022

15. Grb2, a simple adapter with complex roles in lymphocyte development, function, and signaling.

Author

Jang, Ihn Kyung, Zhang, Jinping, and Gu, Hua

Subjects

*ANTIGENS, *GROWTH factors, *CELL receptors, *T cells, *B cells, *LYMPHOCYTES, *CELLULAR signal transduction

Abstract

Lymphocyte development, activation, and tolerance depend on antigen receptor signaling transduced via multiple intracellular signalosomes. These signalosomes are assembled by different adapters. Given that signaling molecules can be either positive or negative regulators for a biochemical target, the complex of a target with different regulator may dictate the final signaling outcome. Grb2 is a simple adapter known to be involved in a variety of growth factor receptor signaling. However, its role in antigen receptor signaling as well as lymphocyte development and function has emerged only recently. Despite its simple molecular structure, recent experiments show that Grb2 may play a complex role in T and B-cell antigen receptor signaling. In this article, we review recent findings about the physiological role of Grb2 in T and B-cell development and activation and summarize the current mechanistic understanding of how Grb2 exerts its function following T and B-cell antigen receptor stimulation. [ABSTRACT FROM AUTHOR]

Published

2009

16. Anti-apoptotic action of API2-MALT1 fusion protein involved in t(11;18)(q21;q21) MALT lymphoma.

Author

Hosokawa, Y.

Subjects

LYMPHOMAS, IMMUNE system, RETICULOENDOTHELIAL granulomas, LYMPHOPROLIFERATIVE disorders, ADENOLYMPHOMA, B cell lymphoma

Abstract

At least three distinct chromosomal translocations, t(11;18)(q21;q21), t(1;14)(p22;q32) and t(14;18)(q32;q21) involving the API2 (also known as c-IAP2)-MALT1 fusion protein, BCL10, and MALT1, respectively, have been implicated in the molecular pathogenesis of mucosa associated lymphoid tissue (MALT) lymphoma. Our findings showed that several variants of the API2-MALT1 fusion protein can occur in patients with t(11;18)(q21;q21), and that API2-MALT1 can potently enfance activation of nuclear factor (NF)-?B signaling, which may be relevant to the pathogenesis of MALT lymphomas. We also found that MALT1 is rapidly degraded via the ubiquitin-proteasome pathway, as is the case with API2, but upon the synthesis of fusion, API2-MALT1 becomes stable against this pathway. This stability of API2-MALT1 may thus result in inappropriate nuclear factor (NF)-?B activation, thereby contributing to the pathogenesis of MALT lymphoma. Recent biochemical and genetic studies have clearly shown that BCL10 and MALT1 form a physical and functional complex and are both required for NF-?B activation by antigen receptor stimulation in T and B lymphocytes. It has also been shown that CARMA1, a newly discovered member of the membrane-associated guanylate kinase (MAGUK) families, is critical for antigen receptor-stimulated NF-?B activation. It can be assumed that API2-MALT1 can bypass this normal BCL10/MALT1 cellular signaling pathway linked to NF-?B activation, thereby inducing antigen receptor-independent proliferation of lymphocytes. Furthermore, BCL10/MALT1- and API2-MALT1-induced NF-?B activation may contribute to anti-apoptotic action probably through NF-?B-mediated upregulation of apoptotic inhibitor genes. We recently provided direct evidence that API2-MALT1 indeed exerts anti-apoptotic action, in part, through its direct interaction with apoptotic regulators including Smac. Taken together, these findings prompt us to hypothesize that the anti-apoptotic action of API2-MALT1 may be mediated partly by the direct interaction with apoptotic regulators as well as partly by upregulation of apoptotic inhibitor genes. Further studies can be expected to stimulate research into the development of therapeutic drugs that specifically inhibit the antigen receptor signaling-stimulated NF-?B activation pathway: such molecule targeting drugs should be useful for interfering with inappropriate proliferation of lymphocytes associated with inflammatory and neoplastic disorders. [ABSTRACT FROM AUTHOR]

Published

2005

17. The roles of CARMA1, Bcl10, and MALT1 in antigen receptor signaling

Author

Lin, Xin and Wang, Demin

Subjects

*ANTIGENS, *LYMPHOCYTES, *IMMUNE response, *T cell receptors

Abstract

Abstract: Lymphocyte activation plays a critical role in immune responses. Dysregulation of lymphocyte activation can cause autoimmune, immunodeficient diseases, or leukemia/lymphoma. Lymphocyte activation is triggered by stimulation of antigen receptors, T cell receptors (TCR) or B cell receptors (BCR), on the surfaces of T or B lymphocyte, respectively. Stimulation of TCR or BCR induces a series of signal transduction cascades leading to activation of multiple transcription factors including NF-κB. Recent studies demonstrate that CARMA1, a scaffold protein, plays an essential role in mediating TCR- or BCR-induced NF-κB activation by recruiting two adaptor proteins, Bcl10 and MALT1, to lipid rafts following stimulation of antigen receptors. In this review, we will discuss the mechanism by which proximal signaling components connect antigen receptor signaling to CARMA1, and how CARMA1 regulates Bcl10 and MALT1, leading to activation of NF-κB. In addition, the roles of CARMA1, Bcl10, and MALT1 in lymphocyte activation and development will also be discussed. [Copyright &y& Elsevier]

Published

2004

18. MALT1 phosphorylation controls activation of T lymphocytes and survival of ABC-DLBCL tumor cells

Author

Stefanie M. Hauck, Thomas J. O’Neill, Tabea Erdmann, Michael Grau, Hisaaki Shinohara, Kerstin Kutzner, Torben Gehring, Marco Rahm, Regina Feederle, Andrew Flatley, Carina Graß, Isabel Meininger, Katja Lammens, Simone Woods, Ozge Karayel, Georg Lenz, and Daniel Krappmann

Subjects

0301 basic medicine, T-Lymphocytes, Amino Acid Motifs, Lymphocyte Activation, Jurkat cells, General Biochemistry, Genetics and Molecular Biology, Serine, 03 medical and health sciences, Jurkat Cells, Mice, 0302 clinical medicine, CD28 Antigens, medicine, Animals, Humans, Phosphorylation, lcsh:QH301-705.5, Cells, Cultured, Adaptive Immunity, Antigen Receptor Signaling, B Cell Lymphomas, Casein Kinase 1 Alpha, Cbm Complex, Immune Response, Malt1, Nf-kappa B, T Cell Activation, Chemistry, T-cell receptor, breakpoint cluster region, NF-kappa B, CD28, Casein Kinase Ialpha, medicine.disease, B-Cell CLL-Lymphoma 10 Protein, Cell biology, CARD Signaling Adaptor Proteins, Mice, Inbred C57BL, MALT1, 030104 developmental biology, HEK293 Cells, lcsh:Biology (General), Guanylate Cyclase, Mucosa-Associated Lymphoid Tissue Lymphoma Translocation 1 Protein, Lymphoma, Large B-Cell, Diffuse, Diffuse large B-cell lymphoma, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Summary: The CARMA1/CARD11-BCL10-MALT1 (CBM) complex bridges T and B cell antigen receptor (TCR/BCR) ligation to MALT1 protease activation and canonical nuclear factor κB (NF-κB) signaling. Using unbiased mass spectrometry, we discover multiple serine phosphorylation sites in the MALT1 C terminus after T cell activation. Phospho-specific antibodies reveal that CBM-associated MALT1 is transiently hyper-phosphorylated upon TCR/CD28 co-stimulation. We identify a dual role for CK1α as a kinase that is essential for CBM signalosome assembly as well as MALT1 phosphorylation. Although MALT1 phosphorylation is largely dispensable for protease activity, it fosters canonical NF-κB signaling in Jurkat and murine CD4 T cells. Moreover, constitutive MALT1 phosphorylation promotes survival of activated B cell-type diffuse large B cell lymphoma (ABC-DLBCL) cells addicted to chronic BCR signaling. Thus, MALT1 phosphorylation triggers optimal NF-κB activation in lymphocytes and survival of lymphoma cells. : Gehring et al. identify MALT1 phosphorylation as a process that bridges antigen receptor ligation to downstream signaling pathways in T cells, promotes T lymphocyte activation, and drives survival of B cell lymphoma tumor cells. Keywords: immune response, adaptive immunity, antigen receptor signaling, T cell activation, B cell lymphomas, CBM complex, phosphorylation, NF-kappa B, MALT1, casein kinase 1 alpha

Published

2019

19. Critical protein-protein interactions within the CARMA1-BCL10-MALT1 complex: Take-home points for the cell biologist.

Author

Cheng, Jing, Maurer, Lisa M., Kang, Heejae, Lucas, Peter C., and McAllister-Lucas, Linda M.

Subjects

*PROTEIN-protein interactions, *LYMPHOCYTE transformation, *GAIN-of-function mutations, *CHROMOSOMAL translocation, *BIOLOGISTS, *HIV protease inhibitors

Abstract

• The CBM signaling complex mediates T-cell and B-cell receptor-dependent lymphocyte activation. • Insights provided by 3D structures of CBM protein-protein interactions are highlighted in this review. • In the CBM supramolecular filamentous complex, CARMA1 acts as the nucleator to promote BCL10 polymerization and MALT1 activation. • BCL10 recruitment to CARMA1 and BCL10 oligomerization are interconnected processes that are dependent on one another. • CBM complex formation facilitates dimerization of the MALT1 paracaspase domain which leads to MALT1 protease activation. The CBM complex, which is composed of the proteins CARMA1, BCL10, and MALT1, serves multiple pivotal roles as a mediator of T -cell receptor and B-cell receptor-dependent NF-κB induction and lymphocyte activation. CARMA1, BCL10, and MALT1 are each proto-oncoproteins and dysregulation of CBM signaling, as a result of somatic gain-of-function mutation or chromosomal translocation, is a hallmark of multiple lymphoid malignancies including Activated B-cell Diffuse Large B-cell Lymphoma. Moreover, loss-of-function as well as gain-of-function germline mutations in CBM complex proteins have been associated with a range of immune dysregulation syndromes. A wealth of detailed structural information has become available over the past decade through meticulous interrogation of the interactions between CBM components. Here, we review key findings regarding the biochemical nature of these protein-protein interactions which have ultimately led the field to a sophisticated understanding of how these proteins assemble into high-order filamentous CBM complexes. To date, approaches to therapeutic inhibition of the CBM complex for the treatment of lymphoid malignancy and/or auto-immunity have focused on blocking MALT1 protease function. We also review key studies relating to the structural impact of MALT1 protease inhibitors on key protein-protein interactions. [ABSTRACT FROM AUTHOR]

Published

2020

20. MALT1 Phosphorylation Controls Activation of T Lymphocytes and Survival of ABC-DLBCL Tumor Cells.

Author

Gehring, Torben, Erdmann, Tabea, Rahm, Marco, Graß, Carina, Flatley, Andrew, O'Neill, Thomas J., Woods, Simone, Meininger, Isabel, Karayel, Ozge, Kutzner, Kerstin, Grau, Michael, Shinohara, Hisaaki, Lammens, Katja, Feederle, Regina, Hauck, Stefanie M., Lenz, Georg, and Krappmann, Daniel

Abstract

The CARMA1/CARD11-BCL10-MALT1 (CBM) complex bridges T and B cell antigen receptor (TCR/BCR) ligation to MALT1 protease activation and canonical nuclear factor κB (NF-κB) signaling. Using unbiased mass spectrometry, we discover multiple serine phosphorylation sites in the MALT1 C terminus after T cell activation. Phospho-specific antibodies reveal that CBM-associated MALT1 is transiently hyper-phosphorylated upon TCR/CD28 co-stimulation. We identify a dual role for CK1α as a kinase that is essential for CBM signalosome assembly as well as MALT1 phosphorylation. Although MALT1 phosphorylation is largely dispensable for protease activity, it fosters canonical NF-κB signaling in Jurkat and murine CD4 T cells. Moreover, constitutive MALT1 phosphorylation promotes survival of activated B cell-type diffuse large B cell lymphoma (ABC-DLBCL) cells addicted to chronic BCR signaling. Thus, MALT1 phosphorylation triggers optimal NF-κB activation in lymphocytes and survival of lymphoma cells. • Discovery of T cell stimulation-induced MALT1 phosphorylation • CK1α activity regulates CBM complex assembly and MALT1 phosphorylation • MALT1 phosphorylation controls canonical NF-κB signaling in T cells • MALT1 phosphorylation promotes survival of ABC-DLBCL tumor cells Gehring et al. identify MALT1 phosphorylation as a process that bridges antigen receptor ligation to downstream signaling pathways in T cells, promotes T lymphocyte activation, and drives survival of B cell lymphoma tumor cells. [ABSTRACT FROM AUTHOR]

Published

2019

21. Nuclear Factor κB Activation and Antiapoptosis in Mucosa-Associated Lymphoid Tissue Lymphoma

Author

Hosokawa, Yoshitaka and Seto, Masao

Published

2004

22. B Cell Adaptor Containing Src Homology 2 Domain (Bash) Links B Cell Receptor Signaling to the Activation of Hematopoietic Progenitor Kinase 1

Author

Daisuke Kitamura, Noriaki Okamoto, Rüdiger Arnold, Koichi Yamada, Mariko Okamoto, Sachiyo Tsuji, Ryo Goitsuka, and Friedemann Kiefer

Subjects

IκB kinase, Immunology, Syk, Receptors, Antigen, B-Cell, Biology, Protein Serine-Threonine Kinases, SH2 domain, Catalysis, src Homology Domains, Mice, LYN, hemic and lymphatic diseases, Immunology and Allergy, Animals, antigen receptor signaling, Phosphorylation, Adaptor Proteins, Signal Transducing, BLNK, breakpoint cluster region, BCR Signaling Pathway, BCR, Phosphoproteins, Molecular biology, Cell biology, Enzyme Activation, Mice, Inbred C57BL, Tyrosine, Original Article, Signal transduction, Carrier Proteins, Proto-oncogene tyrosine-protein kinase Src, Signal Transduction

Abstract

The B cell adaptor containing src homology 2 domain (BASH; also termed BLNK or SLP-65), is crucial for B cell antigen receptor (BCR)-mediated activation, proliferation, and differentiation of B cells. BCR-mediated tyrosine-phosphorylation of BASH creates binding sites for signaling effectors such as phospholipase Cgamma (PLCgamma)2 and Vav, while the function of its COOH-terminal src homology 2 domain is unknown. We have now identified hematopoietic progenitor kinase (HPK)1, a STE20-related serine/threonine kinase, as a protein that inducibly interacts with the BASH SH2 domain. BCR ligation induced rapid tyrosine-phosphorylation of HPK1 mainly by Syk and Lyn, resulting in its association with BASH and catalytic activation. BCR-mediated activation of HPK1 was impaired in Syk- or BASH-deficient B cells. The functional SH2 domain of BASH and Tyr-379 within HPK1 which we identified as a Syk-phosphorylation site were both necessary for interaction of both proteins and efficient HPK1 activation after BCR stimulation. Furthermore, HPK1 augmented, whereas its kinase-dead mutant inhibited IkappaB kinase beta (IKKbeta) activation by BCR engagement. These results reveal a novel BCR signaling pathway leading to the activation of HPK1 and subsequently IKKbeta, in which BASH recruits tyrosine-phosphorylated HPK1 into the BCR signaling complex.

Published

2001

23. Antigen Receptor–Induced Activation and Cytoskeletal Rearrangement Are Impaired in Wiskott-Aldrich Syndrome Protein–Deficient Lymphocytes

Author

Jeffrey R. Butler, Amro Shehabeldin, Sergio Grinstein, Luis A.G. Da Cruz, Ivona Kozieradzki, Jinyi Zhang, Katherine A. Siminovitch, Josef M. Penninger, Mary K. H. McGavin, Antonio O. Dos Santos, Andras Nagy, and Ally Khan Somani

Subjects

Interleukin 2, CD3 Complex, Neutrophils, Lymphocyte, T-Lymphocytes, Immunology, Receptors, Antigen, T-Cell, Cell Count, macromolecular substances, Lymphocyte Activation, chemistry.chemical_compound, Mice, Phagocytosis, medicine, Immunology and Allergy, Animals, antigen receptor signaling, IL-2 receptor, Immunologic Capping, Protein kinase A, cytoskeletal rearrangement, Cytoskeleton, Mice, Knockout, Wiskott-Aldrich syndrome protein, B-Lymphocytes, biology, ZAP70, Wiskott–Aldrich syndrome protein, T-cell receptor, Proteins, Tyrosine phosphorylation, Cell Differentiation, Actins, Cell biology, Wiskott-Aldrich Syndrome, medicine.anatomical_structure, chemistry, Gene Targeting, biology.protein, Interleukin-2, Original Article, Lymph Nodes, immunodeficiency, Spleen, medicine.drug, Signal Transduction

Abstract

The Wiskott-Aldrich syndrome protein (WASp) has been implicated in modulation of lymphocyte activation and cytoskeletal reorganization. To address the mechanisms whereby WASp subserves such functions, we have examined WASp roles in lymphocyte development and activation using mice carrying a WAS null allele ( WAS − / − ). Enumeration of hemopoietic cells in these animals revealed total numbers of thymocytes, peripheral B and T lymphocytes, and platelets to be significantly diminished relative to wild-type mice. In the thymus, this abnormality was associated with impaired progression from the CD44 − CD25 + to the CD44 − CD25 − stage of differentiation. WASp-deficient thymocytes and T cells also exhibited impaired proliferation and interleukin (IL)-2 production in response to T cell antigen receptor (TCR) stimulation, but proliferated normally in response to phorbol ester/ionomycin. This defect in TCR signaling was associated with a reduction in TCR-evoked upregulation of the early activation marker CD69 and in TCR-triggered apoptosis. While induction of TCR-ζ, ZAP70, and total protein tyrosine phosphorylation as well as mitogen-activated protein kinase (MAPK) and stress-activated protein/c-Jun NH 2 -terminal kinase (SAPK/JNK) activation appeared normal in TCR-stimulated WAS − / − cells, TCR-evoked increases in intracellular calcium concentration were decreased in WASp-deficient relative to wild-type cells. WAS − / − lymphocytes also manifested a marked reduction in actin polymerization and both antigen receptor capping and endocytosis after TCR stimulation, whereas WAS − / − neutrophils exhibited reduced phagocytic activity. Together, these results provide evidence of roles for WASp in driving lymphocyte development, as well as in the translation of antigen receptor stimulation to proliferative or apoptotic responses, cytokine production, and cytoskeletal rearrangement. The data also reveal a role for WASp in modulating endocytosis and phagocytosis and, accordingly, suggest that the immune deficit conferred by WASp deficiency reflects the disruption of a broad range of cellular behaviors.

Published

1999

24. Regulation of cell signaling by the protein tyrosine phosphatases, CD45 and SHP-1

Author

Ulyanova, Tatiana, Blasioli, Julie, and Thomas, Matthew L.

Published

1997

25. Regulation of B cell development by antigen receptors

Author

Hauser, Jannek

Subjects

surrogate light chains, calmodulin, calcium, e-proteins, plasma cell differentiation, RAG, V(D)J recombination, E2A, hemic and lymphatic diseases, negative feedback regulation, B cell development, allelic exclusion, AID, antigen receptor signaling

Abstract

The developmental processes of lymphopoiesis generate mature B lymphocytes from hematopoietic stem cells through increasingly restricted intermediates. Networks of transcription factors regulate these cell fate choices and are composed of both ubiquitously expressed and B lineage-specific factors. E-protein transcription factors are encoded by the three genes E2A, E2-2 (SEF2-1), and HEB. The E2A gene is required for B cell development and encodes the alternatively spliced proteins E12 and E47. During B lymphocyte development, the cells have to pass several checkpoints verifying the functionality of their antigen receptors. Early in the development, the expression of a pre-B cell receptor (pre-BCR) with membrane-bound immunoglobulin (Ig) heavy chain protein associated with surrogate light chain (SLC) proteins is a critical checkpoint that monitors for functional Ig heavy chain rearrangement. Signaling from the pre-BCR induces survival and a limited clonal expansion. Here it is shown that pre-BCR signaling rapidly down-regulates the SLCs l5 and VpreB and also the co-receptor CD19. Ca2+ signaling and E2A were shown to be essential for this regulation. E2A mutated in its binding site for the Ca2+ sensor protein calmodulin (CaM), and thus with CaM-resistant DNA binding, makes l5, VpreB and CD19 expression resistant to the inhibition following pre-BCR stimulation. Thus, Ca2+ down-regulates SLC and CD19 gene expression upon pre-BCR stimulation through inhibition of E2A by Ca2+/CaM. A general negative feedback regulation of the pre-BCR proteins as well as many co-receptors and proteins in signal pathways from the receptor was also shown. After the ordered recombination of Ig heavy chain gene segments, also Ig light chain gene segments are recombined together to create antibody diversity. The recombinations are orchestrated by the recombination activating gene (RAG) enzymes, other enzymes that cleave/mutate/assemble DNA of the Ig loci, and the transcription factor Pax5. A key feature of the immune system is the concept that one lymphocyte has only one antigen specificity that can be selected for or against. This requires that only one of the alleles of genes for Ig chains is made functional. The mechanism of this allelic exclusion has however been an enigma. Here pre-BCR signaling was shown to down-regulate several components of the recombination machinery including RAG1 and RAG2 through CaM inhibition of E2A. Furthermore, E2A, Pax5 and the RAGs were shown to be in a complex bound to key sequences on the IgH gene before pre-BCR stimulation and instead bound to CaM after this stimulation. Thus, the recombination complex is directly released through CaM inhibition of E2A. Upon encountering antigens, B cells must adapt to produce a highly specific and potent antibody response. Somatic hypermutation (SH), which introduces point mutations in the variable regions of Ig genes, can increase the affinity for antigen, and antibody effector functions can be altered by class switch recombination (CSR), which changes the expressed constant region exons. Activation-induced cytidine deaminase (AID) is the mutagenic antibody diversification enzyme that is essential for both SH and CSR. The AID enzyme has to be tightly controlled as it is a powerful mutagen. BCR signaling, which signals that good antibody affinity has been reached, was shown to inhibit AID gene expression through CaM inhibition of E2A. SH increases the antigen binding strength by many orders of magnitude. Each round of SH leads to one or a few mutations, followed by selection for increased affinity. Thus, BCR signaling has to enable selection for successive improvements in antibodies (Ab) over an extremely broad range of affinities. Here the BCR is shown to be subject to general negative feedback regulation of the receptor proteins as well as many co-receptors and proteins in signal pathways from the receptor. Thus, the BCR can down-regulate itself to enable sensitive detection of successive improvements in antigen affinity. Furthermore, the feedback inhibition of the BCR signalosome and most of its protein, and most other gene regulations by BCR stimulation, is through inhibition of E2A by Ca2+/CaM. Differentiation to Ab-secreting plasmablasts and plasma cells is antigen-driven. The interaction of antigen with the membrane-bound Ab of the BCR is critical in determining which clones enter the plasma cell response. Genome-wide analysis showed that differentiation of B cells to Ab-secreting cell is induced by BCR stimulation through very fast regulatory events, and induction of IRF-4 and down-regulation of Pax5, Bcl-6, MITF, Ets-1, Fli-1 and Spi-B gene expressions were identified as immediate early events. Ca2+ signaling through CaM inhibition of E2A was essential for these rapid down-regulations of immediate early genes after BCR stimulation in initiation of plasma cell differentiation.

Published

2011

26. Involvement of LAT, Gads, and Grb2 in compartmentation of SLP-76 to the plasma membrane

Author

Mari Kurosaki, Kazuo Sugamura, Masamichi Ishiai, Andrew C. Chan, Tomohiro Kurosaki, and Kazunori Inabe

Subjects

genetic structures, endocrine system diseases, Immunology, B-cell receptor, Receptors, Antigen, T-Cell, Linker for Activation of T cells, Receptors, Antigen, B-Cell, translocation, lymphocyte, 03 medical and health sciences, 0302 clinical medicine, Immunology and Allergy, Animals, Humans, antigen receptor signaling, adaptor molecule, 030304 developmental biology, Adaptor Proteins, Signal Transducing, GRB2 Adaptor Protein, Gene Library, 0303 health sciences, B-Lymphocytes, biology, T-cell receptor, Cell Membrane, breakpoint cluster region, Signal transducing adaptor protein, Membrane Proteins, Proteins, equipment and supplies, Phosphoproteins, Molecular biology, eye diseases, Recombinant Proteins, Cell biology, ErbB Receptors, biology.protein, Original Article, GRB2, sense organs, B-Cell Linker Protein, Carrier Proteins, Chickens, glycolipid-enriched microdomain, 030215 immunology, Signal Transduction

Abstract

B cell linker protein (BLNK) and Src homology 2 domain–containing leukocyte protein of 76 kD (SLP-76) are adaptor proteins required for B cell receptor (BCR) and T cell receptor function, respectively. Here, we show that expression of SLP-76 cannot reconstitute BCR function in Zap-70+BLNK− B cells. This could be attributable to inability of SLP-76 to be recruited into glycolipid-enriched microdomains (GEMs) after antigen receptor cross-linking. Supporting this idea, the BCR function was restored when a membrane-associated SLP-76 chimera was enforcedly localized to GEMs. Moreover, we demonstrate that addition of both linker for activation of T cells (LAT) and Grb2-related adaptor downstream of Shc (Gads) to SLP-76 allow SLP-76 to be recruited into GEMs, whereby the BCR function is reconstituted. The Gads function was able to be replaced by overexpression of Grb2. In contrast to SLP-76, BLNK did not require Grb2 families for its recruitment to GEMs. Hence, these data suggest a functional overlap between BLNK and SLP-76, while emphasizing the difference in requirement for additional adaptor molecules in their targeting to GEMs.

Published

2000