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7. CD73 immune checkpoint defines regulatory NK cells within the tumor microenvironment

Author

Neo, Shi Yong, Yang, Ying, Record, Julien, Ma, Ran, Chen, Xinsong, Chen, Ziqing, Tobin, Nicholas P., Blake, Emily, Seitz, Christina, Thomas, Ron, Wagner, Arnika Kathleen, Andersson, John, de Boniface, Jana, Bergh, Jonas, Murray, Shannon, Alici, Evren, Childs, Richard, Johansson, Martin, Westerberg, Lisa S., Haglund, Felix, Hartman, Johan, and Lundqvist, Andreas

Subjects
MedImmune L.L.C., Killer cells, Biotechnology industries, Tumors -- Development and progression, Immunotherapy, Polymerization, T cells, Muscle proteins, Breast cancer, Actin, Nucleotidases, Health care industry
Abstract

High levels of ecto-5'-nucleotidase (CD73) have been implicated in immune suppression and tumor progression, and have also been observed in cancer patients who progress on anti-PD-1 immunotherapy. Although regulatory T cells can express CD73 and inhibit T cell responses via the production of adenosine, less is known about CD73 expression in other immune cell populations. We found that tumor-infiltrating NK cells upregulate CD73 expression and the frequency of these CD73-positive NK cells correlated with larger tumor size in breast cancer patients. In addition, the expression of multiple alternative immune checkpoint receptors including LAG-3, VISTA, PD-1, and PD-L1 was significantly higher in [CD73.sup.-]-positive NK cells than in [CD73.sup.-]-negative NK cells. Mechanistically, NK cells transport CD73 in intracellular vesicles to the cell surface and the extracellular space via actin polymerization-dependent exocytosis upon engagement of 4-1BBL on tumor cells. These CD73positive NK cells undergo transcriptional reprogramming and upregulate IL-10 production via STAT3 transcriptional activity, suppressing CD4-positive T cell proliferation and IFN-[gamma] production. Taken together, our results support the notion that tumors can hijack NK cells as a means to escape immunity and that CD73 expression defines an inducible population of NK cells with immunoregulatory properties within the tumor microenvironment., Introduction The CD73 metabolic immune checkpoint orchestrates a crucial homeostatic balance of extracellular adenosine levels as part of a negative feedback mechanism to control inflammatory responses within a stressed or [...]

Published
2020
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8. Controlled WASp activity regulates the proliferative response for Treg cell differentiation in the thymus.

Author

Vasconcelos‐Fontes, Larissa, Vieira, Rhaissa C., He, Minghui, Ferreira‐Reis, Rafaella, Jurberg, Arnon Dias, Arêas Mendes‐da‐Cruz, Daniella, Andersson, John, Cotta‐de‐Almeida, Vinicius, and Westerberg, Lisa S.

Subjects
REGULATORY T cells, CELL differentiation, WISKOTT-Aldrich syndrome, THYMUS, WASPS
Abstract

The Wiskott–Aldrich syndrome protein (WASp) regulates actin cytoskeletal dynamics and function of hematopoietic cells. Mutations in the WAS gene lead to two different syndromes; Wiskott–Aldrich syndrome (WAS) caused by loss‐of‐function mutations, and X‐linked neutropenia (XLN) caused by gain‐of‐function mutations. We previously showed that WASp‐deficient mice have a decreased number of regulatory T (Treg) cells in the thymus and the periphery. We here evaluated the impact of WASp mutations on Treg cells in the thymus of WAS and XLN mouse models. Using in vitro Treg differentiation assays, WAS CD4 single‐positive thymocytes have decreased differentiation to Treg cells, despite normal early signaling upon IL‐2 and TGF‐β stimulation. They failed to proliferate and express CD25 at high levels, leading to poor survival and a lower number of Foxp3+ Treg cells. Conversely, XLN CD4 single‐positive thymocytes efficiently differentiate into Foxp3+ Treg cells following a high proliferative response to IL‐2 and TGF‐β, associated with high CD25 expression when compared with WT cells. Altogether, these results show that specific mutations of WASp affect Treg cell development differently, demonstrating a critical role of WASp activity in supporting Treg cell development and expansion. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Constitutive activation of WASp in X-linked neutropenia renders neutrophils hyperactive

Author

Keszei, Marton, Record, Julien, Kritikou, Joanna S., Wurzer, Hannah, Geyer, Chiara, Thiemann, Meike, Drescher, Paul, Brauner, Hanna, Kocher, Laura, James, Jaime, He, Minghui, Baptista, Marisa A.P., Dahlberg, Carin I.M., Biswas, Amlan, Lain, Sonia, Lane, David P., Song, Wenxia, Putsep, Katrin, Vandenberghe, Peter, Snapper, Scott B., and Westerberg, Lisa S.

Subjects
Neutropenia -- Development and progression -- Models -- Genetic aspects, Signaling peptides and proteins -- Physiological aspects -- Health aspects, Neutrophils -- Genetic aspects -- Health aspects, Health care industry
Abstract

Congenital neutropenia is characterized by low absolute neutrophil numbers in blood, leading to recurrent bacterial infections, and patients often require life-long granulocyte CSF (G-CSF) support. X-linked neutropenia (XLN) is caused by gain-of-function mutations in the actin regulator Wiskott-Aldrich syndrome protein (WASp). To understand the pathophysiology in XLN and the role of WASp in neutrophils, we here examined XLN patients and 2 XLN mouse models. XLN patients had reduced myelopoiesis and extremely low blood neutrophil number. However, their neutrophils had a hyperactive phenotype and were present in normal numbers in XLN patient saliva. Murine XLN neutrophils were hyperactivated, with increased actin dynamics and migration into tissues. We provide molecular evidence that the hyperactivity of XLN neutrophils is caused by WASp in a constitutively open conformation due to contingent phosphorylation of the critical tyrosine-293 and plasma membrane localization. This renders WASp activity less dependent on regulation by PI3K. Our data show that the amplitude of WASp activity inside a cell could be enhanced by cell-surface receptor signaling even in the context in which WASp is already in an active conformation. Moreover, these data categorize XLN as an atypical congenital neutropenia in which constitutive activation of WASp in tissue neutrophils compensates for reduced myelopoiesis., Introduction Severe congenital neutropenia (SCN) is characterized by low absolute neutrophil count in blood that leads to life-threatening infections and requires administration of granulocyte CSF (G-CSF) to stimulate the number [...]

Published
2018
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11. Next generation of astronauts or ESA astronaut 2.0 concept and spotlight on immunity.

Author

Jacob, Pauline, Oertlin, Christian, Baselet, Bjorn, Westerberg, Lisa S., Frippiat, Jean-Pol, and Baatout, Sarah

Subjects
COSMIC rays, ASTRONAUTS, ASTROPHYSICAL radiation, SPACE exploration, PREMATURE aging (Medicine), HUMAN body, ENDOTOXINS, PHOTOSYNTHETICALLY active radiation (PAR), SPACE environment
Abstract

Although we have sent humans into space for more than 50 years, crucial questions regarding immune response in space conditions remain unanswered. There are many complex interactions between the immune system and other physiological systems in the human body. This makes it difficult to study the combined long-term effects of space stressors such as radiation and microgravity. In particular, exposure to microgravity and cosmic radiation may produce changes in the performance of the immune system at the cellular and molecular levels and in the major physiological systems of the body. Consequently, abnormal immune responses induced in the space environment may have serious health consequences, especially in future long-term space missions. In particular, radiation-induced immune effects pose significant health challenges for long-duration space exploration missions with potential risks to reduce the organism's ability to respond to injuries, infections, and vaccines, and predispose astronauts to the onset of chronic diseases (e.g., immunosuppression, cardiovascular and metabolic diseases, gut dysbiosis). Other deleterious effects encountered by radiation may include cancer and premature aging, induced by dysregulated redox and metabolic processes, microbiota, immune cell function, endotoxin, and pro-inflammatory signal production1,2. In this review, we summarize and highlight the current understanding of the effects of microgravity and radiation on the immune system and discuss knowledge gaps that future studies should address. [ABSTRACT FROM AUTHOR]

Published
2023
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12. SHP-1 localization to the activating immune synapse promotes NK cell tolerance in MHC class I deficiency.

Author

Schmied, Laurent, Luu, Thuy T., Søndergaard, Jonas N., Hald, Sophia H., Meinke, Stephan, Mohammad, Dara K., Singh, Sunitha B., Mayer, Corinna, Perinetti Casoni, Giovanna, Chrobok, Michael, Schlums, Heinrich, Rota, Giorgia, Truong, Hieu M., Westerberg, Lisa S., Guarda, Greta, Alici, Evren, Wagner, Arnika K., Kadri, Nadir, Bryceson, Yenan T., and Saeed, Mezida B.

Subjects
KILLER cells, PROTEIN-tyrosine phosphatase, MAJOR histocompatibility complex, SYNAPSES, T cell receptors, ADAPTOR proteins, KILLER cell receptors
Abstract

Natural killer (NK) cells recognize virally infected cells and tumors. NK cell function depends on balanced signaling from activating receptors, recognizing products from tumors or viruses, and inhibitory receptors (such as KIR/Ly49), which recognize major histocompatibility complex class I (MHC-I) molecules. KIR/Ly49 signaling preserves tolerance to self but also conveys reactivity toward MHC-I–low target cells in a process known as NK cell education. Here, we found that NK cell tolerance and education were determined by the subcellular localization of the tyrosine phosphatase SHP-1. In mice lacking MHC-I molecules, uneducated, self-tolerant Ly49A+ NK cells showed accumulation of SHP-1 in the activating immune synapse, where it colocalized with F-actin and the signaling adaptor protein SLP-76. Education of Ly49A+ NK cells by the MHC-I molecule H2Dd led to reduced synaptic accumulation of SHP-1, accompanied by augmented signaling from activating receptors. Education was also linked to reduced transcription of Ptpn6, which encodes SHP-1. Moreover, synaptic SHP-1 accumulation was reduced in NK cells carrying the H2Dd-educated receptor Ly49G2 but not in those carrying the noneducating receptor Ly49I. Colocalization of Ly49A and SHP-1 outside of the synapse was more frequent in educated compared with uneducated NK cells, suggesting a role for Ly49A in preventing synaptic SHP-1 accumulation in NK cell education. Thus, distinct patterning of SHP-1 in the activating NK cell synapse may determine NK cell tolerance. Location matters for NK cell education: Natural killer (NK) cells recognize and kill virally infected cells and tumor cells. NK cell activation depends on the balance in signaling between activating receptors, which recognize stress-induced cellular ligands, and inhibitory receptors, recognizing MHC class I (MHC-I) molecules, markers of self and determinants of tolerance. During NK cell development, inhibitory receptor signaling ensures that NK cells tolerate self and can respond to activating ligands, a process known as education. Schmied et al. compared uneducated and educated mouse NK cells and found that education altered the subcellular localization of the tyrosine phosphatase SHP-1, which normally inhibits NK cell activation. During education, inhibitory receptors sequestered SHP-1, suggesting a model in which SHP-1 is prevented from accumulating at activating immune synapses between NK cells and their targets, thus facilitating target cell killing. These findings suggest that the spatial patterning of SHP-1 in NK cell synapses through education may facilitate self-tolerance. —JFF [ABSTRACT FROM AUTHOR]

Published
2023
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13. Understanding immunoactinopathies: A decade of research on WAS gene defects.

Author

Vieira, Rhaissa Calixto, Pinho, Lia Goncalves, and Westerberg, Lisa S.

Subjects
GAIN-of-function mutations, CYTOSKELETON, WISKOTT-Aldrich syndrome, CELL motility, CELLULAR control mechanisms, CANCER cells
Abstract

Immunoactinopathies caused by mutations in actin‐related proteins are a growing group of inborn errors of immunity (IEI). Immunoactinopathies are caused by a dysregulated actin cytoskeleton and affect hematopoietic cells especially because of their unique capacity to survey the body for invading pathogens and altered self, such as cancer cells. These cell motility and cell‐to‐cell interaction properties depend on the dynamic nature of the actin cytoskeleton. Wiskott‐Aldrich syndrome (WAS) is the archetypical immunoactinopathy and the first described. WAS is caused by loss‐of‐function and gain‐of‐function mutations in the actin regulator WASp, uniquely expressed in hematopoietic cells. Mutations in WAS cause a profound disturbance of actin cytoskeleton regulation of hematopoietic cells. Studies during the last 10 years have shed light on the specific effects on different hematopoietic cells, revealing that they are not affected equally by mutations in the WAS gene. Moreover, the mechanistic understanding of how WASp controls nuclear and cytoplasmatic activities may help to find therapeutic alternatives according to the site of the mutation and clinical phenotypes. In this review, we summarize recent findings that have added to the complexity and increased our understanding of WAS‐related diseases and immunoactinopathies. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Involvement of MST1/mTORC1/STAT1 activity in the regulation of B‐cell receptor signalling by chemokine receptor 2.

Author

Zhu, Yingzi, Gu, Heng, Yang, Lu, Li, Na, Chen, Qiuyue, Kang, Danqing, Lin, Shengyan, Jing, Yukai, Jiang, Panpan, Chen, Qianglin, Luo, Li, Liu, Ju, Chang, Jiang, Li, Zhenzhen, Wang, Yi, Dai, Xin, Miller, Heather, Westerberg, Lisa S., Park, Chan‐Sik, and Kubo, Masato

Subjects
CHEMOKINE receptors, B cells, OXIDATIVE phosphorylation, CELL differentiation, AUTOIMMUNE diseases, IMMUNE response, STAT proteins
Abstract

Background: CCR2 is involved in maintaining immune homeostasis and regulating immune function. This study aims to elucidate the mechanism by which CCR2 regulates B‐cell signalling. Methods: In Ccr2‐knockout mice, the development and differentiation of B cells, BCR proximal signals, actin movement and B‐cell immune response were determined. Besides, the level of CCR2 in PBMC of SLE patients was analysed by bioinformatics. Results: CCR2 deficiency reduces the proportion and number of follicular B cells, upregulates BCR proximal signalling and enhances the oxidative phosphorylation of B cells. Meanwhile, increased actin filaments aggregation and its associated early‐activation events of B cells are also induced by CCR2 deficiency. The MST1/mTORC1/STAT1 axis in B cells is responsible for the regulation of actin remodelling, metabolic activities and transcriptional signalling, specific MST1, mTORC1 or STAT1 inhibitor can rescue the upregulated BCR signalling. Glomerular IgG deposition is obvious in CCR2‐deficient mice, accompanied by increased anti‐dsDNA IgG level. Additionally, the CCR2 expression in peripheral B cells of SLE patients is decreased than that of healthy controls. Conclusions: CCR2 can utilise MST1/mTORC1/STAT1 axis to regulate BCR signalling. The interaction between CCR2 and BCR may contribute to exploring the mechanism of autoimmune diseases. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Signaling networks in B cell development and related therapeutic strategies.

Author

Ren, Anwen, Sun, Jianxuan, Yin, Wei, Westerberg, Lisa S., Miller, Heather, Lee, Pamela, Candotti, Fabio, Guan, Fei, Lei, Jiahui, Gong, Quan, Chen, Yan, and Liu, Chaohong

Subjects
B cells, CELL communication
Abstract

B cells are essential for Ab production during humoral immune responses. From decades of B cell research, there is now a detailed understanding of B cell subsets, development, functions, and most importantly, signaling pathways. The complicated pathways in B cells and their interactions with each other are stage‐dependent, varying with surface marker expression during B cell development. With the increasing understanding of B cell development and signaling pathways, the mechanisms underlying B cell related diseases are being unraveled as well, making it possible to provide more precise and effective treatments. In this review, we describe several essential and recently discovered signaling pathways in B cell development and take a look at newly developed therapeutic strategies targeted at B cell signaling. [ABSTRACT FROM AUTHOR]

Published
2022
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21. The WASp L272P gain‐of‐function mutation alters dendritic cell coordination of actin dynamics for migration and adhesion.

Author

Oliveira, Mariana M.S., Kung, Shin‐Yu, Moreau, Hélène D., Maurin, Mathieu, Record, Julien, Sanséau, Doriane, Nylén, Susanne, Lennon‐Duménil, Ana‐Maria, and Westerberg, Lisa S.

Subjects
DENDRITIC cells, GAIN-of-function mutations, WASPS, WISKOTT-Aldrich syndrome, ACTIN, OTITIS, NEMALINE myopathy
Abstract

Dendritic cells (DCs) devoid of the actin regulator Wiskott‐Aldrich syndrome protein (WASp) show reduced directed migration and decreased formation of podosome adhesion structures. We examined DCs expressing a gain‐of‐function mutation in WASp, WASp L272P, identified in X‐linked neutropenia patients. Analysis of WASp L272P DCs was compared to WASp‐deficient DCs to examine how WASp activity influences DC migratory responses. In confined space, WASp‐deficient DCs had increased migration speed whereas WASp L272P DCs had similar average speed but increased speed fluctuations, reduced displacement, and atypical rounded morphology, compared to wild‐type (WT) DCs. Using an ear inflammation model and flow cytometry analysis, WT, WASp‐deficient, and WASp L272P DCs were found to migrate in comparable numbers to the draining lymph nodes (LNs). However, histology analysis revealed that migratory DCs of WASp deficient and WASp L272P mice were mainly located in the collagenous capsule of the LN whereas WT DCs were located inside the LN. Analysis of ultrastructural features revealed that WASp L272P DCs had reduced cell area but formed larger podosome structures when compared to WT DCs. Together, our data suggest that WASp activity regulates DC migration and that loss‐of‐function and gain‐of‐function in WASp activity lead to different and phenotype‐specific DC migratory behavior. [ABSTRACT FROM AUTHOR]

Published
2022
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22. The interaction between iNKT cells and B cells.

Author

Zhu, Tong, Wang, Rongli, Miller, Heather, Westerberg, Lisa S., Yang, Lu, Guan, Fei, Lee, Pamela, Gong, Quan, Chen, Yan, and Liu, Chaohong

Subjects
B cells, KILLER cells, CYTOTOXIC T cells, NATURAL immunity
Abstract

Invariant natural killer T cells (iNKTs) bridge the innate immunity with the adaptive immunity and their interaction with B cells has been extensively studied. Here, we give a complete overview of these two cells, from their mechanism of interaction to clinical prospects and existing problems. In our introduction, we describe the relationship between iNKTs and B cells and explore the current research hotspots and future directions. We begin with how B cells interact and benefit from the innate and adaptive help of iNKTs. Next, we describe the multiple roles of these cells in infections, autoimmunity, and cancers. Lastly, we look into the potential immunotherapies that can be based on iNKTs and the possible treatments for infectious, autoimmune, and other diseases. [ABSTRACT FROM AUTHOR]

Published
2022
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23. CD36 and LC3B initiated autophagy in B cells regulates the humoral immune response.

Author

He, Chenfei, Wang, Shan, Zhou, Chikai, He, Minghui, Wang, Jin, Ladds, Marcus, Lianoudaki, Danai, Sedimbi, Saikiran K., Lane, David P., Westerberg, Lisa S., Li, Shuijie, and Karlsson, Mikael C.I.

Subjects
HUMORAL immunity, B cells, AUTOPHAGY, T helper cells, PATTERN perception receptors, MICROTUBULES, ERYTHROCYTES, OXYGEN consumption
Abstract

Scavenger receptors are pattern recognition receptors that recognize both foreign and self-ligands, and initiate different mechanisms of cellular activation, often as co-receptors. The function of scavenger receptor CD36 in the immune system has mostly been studied in macrophages but it is also highly expressed by innate type B cells where its function is less explored. Here we report that CD36 is involved in macro-autophagy/autophagy in B cells, and in its absence, the humoral immune response is impaired. We found that CD36-deficient B cells exhibit a significantly reduced plasma cell formation, proliferation, mitochondrial mobilization and oxidative phosphorylation. These changes were accompanied by impaired initiation of autophagy, and we found that CD36 regulated autophagy and colocalized with autophagosome membrane protein MAP1LC3/LC3 (microtubule-associated protein 1 light chain 3). When we investigated T-cell-dependent immune responses, we found that mice with CD36 deficiency, specifically in B cells, exhibited attenuated germinal center responses, class switching, and antibody production as well as autophagosome formation. These findings establish a critical role for CD36 in B cell responses and may also contribute to our understanding of CD36-mediated autophagy in other cells as well as in B cell lymphomas that have been shown to express the receptor. Abbreviations: AICDA/AID: activation-induced cytidine deaminase; ATG5: autophagy related 5; ATP: adenosine triphosphate; BCR: B-cell receptor; CPG: unmethylated cytosine-guanosine; CQ: chloroquine; DC: dendritic cells; FOB: follicular B cells; GC: germinal center; Ig: immunoglobulin; LPS: lipopolysaccharide; MAP1LC3/LC3: microtubule-associated protein 1 light chain 3; MFI: mean fluorescence intensity; MZB: marginal zone B cells; NP-CGG: 4-hydroxy-3-nitrophenylacetyl-chicken gamma globulin; OCR: oxygen consumption rate; oxLDL: oxidized low-density lipoprotein; PC: plasma cells; Rapa: rapamycin; SQSTM1/p62: sequestosome 1; SRBC: sheep red blood cells; Tfh: follicular helper T cells; TLR: toll-like receptor. [ABSTRACT FROM AUTHOR]

Published
2021
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24. Immune Dysregulation in IgG4-Related Disease.

Author

Liu, Jiachen, Yin, Wei, Westerberg, Lisa S., Lee, Pamela, Gong, Quan, Chen, Yan, Dong, Lingli, and Liu, Chaohong

Subjects
REGULATORY T cells, T helper cells, T cell differentiation, AUTOIMMUNE diseases, THERAPEUTICS, B cells
Abstract

Immunoglobin G4-related disease (IgG4-RD) is one of the newly discovered autoimmune diseases characterized by elevated serum IgG4 concentrations and multi-organ fibrosis. Despite considerable research and recent advances in the identification of underlying immunological processes, the etiology of this disease is still not clear. Adaptive immune cells, including different types of T and B cells, and cytokines secreted by these cells play a vital role in the pathogenesis of IgG4-RD. Antigen-presenting cells are stimulated by pathogens and, thus, contribute to the activation of naïve T cells and differentiation of different T cell subtypes, including helper T cells (Th1 and Th2), regulatory T cells, and T follicular helper cells. B cells are activated and transformed to plasma cells by T cell-secreted cytokines. Moreover, macrophages, and some important factors (TGF-β, etc.) promote target organ fibrosis. Understanding the role of these cells and cytokines implicated in the pathogenesis of IgG4-RD will aid in developing strategies for future disease treatment and drug development. Here, we review the most recent insights on IgG4-RD, focusing on immune dysregulation involved in the pathogenesis of this autoimmune condition. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Novel Discoveries in Immune Dysregulation in Inborn Errors of Immunity.

Author

Ren, Anwen, Yin, Wei, Miller, Heather, Westerberg, Lisa S., Candotti, Fabio, Park, Chan-Sik, Lee, Pamela, Gong, Quan, Chen, Yan, and Liu, Chaohong

Subjects
GENETIC mutation, IMMUNITY, THERAPEUTICS, INFLAMMATION, PATHOGENESIS
Abstract

With the expansion of our knowledge on inborn errors of immunity (IEI), it gradually becomes clear that immune dysregulation plays an important part. In some cases, autoimmunity, hyperinflammation and lymphoproliferation are far more serious than infections. Thus, immune dysregulation has become significant in disease monitoring and treatment. In recent years, the wide application of whole-exome sequencing/whole-genome sequencing has tremendously promoted the discovery and further studies of new IEI. The number of discovered IEI is growing rapidly, followed by numerous studies of their pathogenesis and therapy. In this review, we focus on novel discovered primary immune dysregulation diseases, including deficiency of SLC7A7, CD122, DEF6, FERMT1, TGFB1, RIPK1, CD137, TET2 and SOCS1. We discuss their genetic mutation, symptoms and current therapeutic methods, and point out the gaps in this field. [ABSTRACT FROM AUTHOR]

Published
2021
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26. Higher Incidence of B Cell Malignancies in Primary Immunodeficiencies: A Combination of Intrinsic Genomic Instability and Exocytosis Defects at the Immunological Synapse.

Author

Mastio, Jérôme, Saeed, Mezida B., Wurzer, Hannah, Krecke, Max, Westerberg, Lisa S., and Thomas, Clément

Subjects
PRIMARY immunodeficiency diseases, B cells, EXOCYTOSIS, T cells, CYTOSKELETON, SYNAPSES
Abstract

Congenital defects of the immune system called primary immunodeficiency disorders (PID) describe a group of diseases characterized by a decrease, an absence, or a malfunction of at least one part of the immune system. As a result, PID patients are more prone to develop life-threatening complications, including cancer. PID currently include over 400 different disorders, however, the variety of PID-related cancers is narrow. We discuss here reasons for this clinical phenotype. Namely, PID can lead to cell intrinsic failure to control cell transformation, failure to activate tumor surveillance by cytotoxic cells or both. As the most frequent tumors seen among PID patients stem from faulty lymphocyte development leading to leukemia and lymphoma, we focus on the extensive genomic alterations needed to create the vast diversity of B and T lymphocytes with potential to recognize any pathogen and why defects in these processes lead to malignancies in the immunodeficient environment of PID patients. In the second part of the review, we discuss PID affecting tumor surveillance and especially membrane trafficking defects caused by altered exocytosis and regulation of the actin cytoskeleton. As an impairment of these membrane trafficking pathways often results in dysfunctional effector immune cells, tumor cell immune evasion is elevated in PID. By considering new anti-cancer treatment concepts, such as transfer of genetically engineered immune cells, restoration of anti-tumor immunity in PID patients could be an approach to complement standard therapies. [ABSTRACT FROM AUTHOR]

Published
2020
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27. Cytoskeletal regulation of dendritic cells: An intricate balance between migration and presentation for tumor therapy.

Author

Oliveira, Mariana M.S. and Westerberg, Lisa S.

Subjects
DENDRITIC cells, CYTOTOXIC T cells, CELLULAR control mechanisms, TUMORS
Abstract

Dendritic cells (DCs) are the main players in many approaches for cancer therapy. The idea with DC tumor therapy is to promote activation of tumor infiltrating cytotoxic T cells that kill tumor cells. This requires that DCs take up tumor Ag and present peptides on MHC class I molecules in a process called cross‐presentation. For this process to be efficient, DCs have to migrate to the tumor draining lymph node and there activate the machinery for cross‐presentation. In this review, we will discuss recent progress in understanding the role of actin regulators for control of DC migration and Ag presentation. The potential to target actin regulators for better DC‐based tumor therapy will also be discussed. [ABSTRACT FROM AUTHOR]

Published
2020
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28. Congenital Defects in Actin Dynamics of Germinal Center B Cells.

Author

He, Minghui and Westerberg, Lisa S.

Subjects
HUMAN abnormalities, B cells, GERMINAL centers, IMMUNE response, CYTOSKELETON, IMMUNOGLOBULINS
Abstract

The germinal center (GC) is a transient anatomical structure formed during the adaptive immune response that leads to antibody affinity maturation and serological memory. Recent works using two-photon microscopy reveals that the GC is a highly dynamic structure and GC B cells are highly motile. An efficient selection of high affinity B cells clones within the GC crucially relies on the interplay of proliferation, genome editing, cell-cell interaction, and migration. All these processes require actin cytoskeleton rearrangement to be well-coordinated. Dysregulated actin dynamics may impede on multiple stages during B cell affinity maturation, which could lead to aberrant GC response and result in autoimmunity and B cell malignancy. This review mainly focuses on the recent works that investigate the role of actin regulators during the GC response. [ABSTRACT FROM AUTHOR]

Published
2019
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29. Activation of compensatory pathways via Rac2 in the absence of the Cdc42 effector Wiskott-Aldrich syndrome protein in Dendritic cells.

Author

Baptista, Marisa A. P. and Westerberg, Lisa S.

Subjects
*WISKOTT-Aldrich syndrome, *DENDRITIC cells, *CELL membranes, *POST-translational modification, *ANTINEOPLASTIC agents
Abstract

There is extensive crosstalk between different Rho GTPases, including Cdc42, Rac1, and Rac2, and they can activate or inhibit the activity of each other. Dendritic cells express both Rac1 and Rac2. Due to posttranslational modification of lipid anchors, Rac1 localizes mainly to the plasma membrane whereas Rac2 localizes to the phagosomal membrane where it assembles the NADPH complex. Our recent study of primary immunodeficiency disease caused by mutations in the Cdc42 effector Wiskott-Aldrich syndrome protein (WASp) has shed light on the compensatory mechanisms between Rho GTPases and their effector proteins. WASp-deficient dendritic cells have increased localization and activity of Rac2 to the phagosomal membrane and this allows antigen to be presented on MHC class I molecules to activate cytotoxic CD8+ T cells. This study reveals an intricate balance between Rac2 and WASp signaling pathways and provides an example of compensatory pathways in cells devoid of the Cdc42 effector WASp. [ABSTRACT FROM AUTHOR]

Published
2019
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30. Akt2 Regulates the Differentiation and Function of NKT17 Cells via FoxO-1-ICOS Axis.

Author

LinLin Niu, Xingtian Xuan, Jinzhi Wang, Liling Li, Di Yang, Yukai Jing, Westerberg, Lisa S., and Chaohong Liu

Subjects
KILLER cells, CELLULAR signal transduction, FORKHEAD transcription factors
Abstract

As a critical linker between mTORC1 and mTORC2, Akt is important for the cell metabolism. The role of Akt in the function and development of B and T cells is well characterized, however, the role of Akt for development and function of iNKT cells is unknown. iNKT cells bridge the adaptive and innate immunity, and in this study, we found that the differentiation of NKT17 cells and IL17 production of NKT17 cells were disrupted in Akt2 KO mice. ICOS has been demonstrated to be critical for the differentiation of NKT17 cells and we found that ICOS mRNA and protein expression was reduced in Akt2 KO iNKT cells. As a consequence, phosphorylation of FoxO-1 was downregulated in Akt2 KO thymocytes but the sequestration of FoxO-1 in the nucleus of Akt2 KO iNKT cells was increased. The negative feedback loop between ICOS and FoxO-1 has been demonstrated in CD4+T follicular helper cells. Therefore our study has revealed a new intracellular mechanism in which Akt2 regulates ICOS expression via FoxO-1 and this signaling axis regulates the differentiation and function of NKT17 cells. This study provides a new linker between cell metabolism and function of iNKT cells. [ABSTRACT FROM AUTHOR]

Published
2018
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32. Wiskott-Aldrich syndrome protein regulates autophagy and inflammasome activity in innate immune cells.

Author

Lee, Pamela P., Lobato-Márquez, Damián, Pramanik, Nayani, Sirianni, Andrea, Daza-Cajigal, Vanessa, Rivers, Elizabeth, Cavazza, Alessia, Bouma, Gerben, Moulding, Dale, Hultenby, Kjell, Westerberg, Lisa S., Hollinshead, Michael, Lau, Yu-Lung, Burns, Siobhan O., Mostowy, Serge, Bajaj-Elliott, Mona, and Thrasher, Adrian J.

Subjects
WISKOTT-Aldrich syndrome, CYTOSKELETON, SHIGELLOSIS, SHIGELLA flexneri, CELL death, AUTOPHAGY
Abstract

Dysregulation of autophagy and inflammasome activity contributes to the development of auto-inflammatory diseases. Emerging evidence highlights the importance of the actin cytoskeleton in modulating inflammatory responses. Here we show that deficiency of Wiskott-Aldrich syndrome protein (WASp), which signals to the actin cytoskeleton, modulates autophagy and inflammasome function. In a model of sterile inflammation utilizing TLR4 ligation followed by ATP or nigericin treatment, inflammasome activation is enhanced in monocytes from WAS patients and in WAS-knockout mouse dendritic cells. In ex vivo models of enteropathogenic Escherichia coli and Shigella flexneri infection, WASp deficiency causes defective bacterial clearance, excessive inflammasome activation and host cell death that are associated with dysregulated septin cage-like formation, impaired autophagic p62/LC3 recruitment and defective formation of canonical autophagosomes. Taken together, we propose that dysregulation of autophagy and inflammasome activities contribute to the autoinflammatory manifestations of WAS, thereby identifying potential targets for therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published
2017
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33. Nuclear Wiskott-Aldrich syndrome protein co-regulates T cell factor 1-mediated transcription in T cells.

Author

Kuznetsov, Nikolai V., Almuzzaini, Bader, Kritikou, Joanna S., Baptista, Marisa A. P., Oliveira, Mariana M. S., Keszei, Marton, Snapper, Scott B., Percipalle, Piergiorgio, and Westerberg, Lisa S.

Subjects
WISKOTT-Aldrich syndrome protein, T cells, TRANSCRIPTION factors, CYTOPLASM, CELL nuclei
Abstract

Background: The Wiskott-Aldrich syndrome protein (WASp) family of actin-nucleating factors are present in the cytoplasm and in the nucleus. The role of nuclear WASp for T cell development remains incompletely defined. Methods: We performed WASp chromatin immunoprecipitation and deep sequencing (ChIP-seq) in thymocytes and spleen CD4+ T cells. Results: WASp was enriched at genic and intergenic regions and associated with the transcription start sites of protein-coding genes. Thymocytes and spleen CD4+ T cells showed 15 common WASp-interacting genes, including the gene encoding T cell factor (TCF)12. WASp KO thymocytes had reduced nuclear TCF12 whereas thymocytes expressing constitutively active WASpL272P and WASpI296T had increased nuclear TCF12, suggesting that regulated WASp activity controlled nuclear TCF12. We identify a putative DNA element enriched in WASp ChIP-seq samples identical to a TCF1-binding site and we show that WASp directly interacted with TCF1 in the nucleus. Conclusions: These data place nuclear WASp in proximity with TCF1 and TCF12, essential factors for T cell development. [ABSTRACT FROM AUTHOR]

Published
2017
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34. The Small Rho GTPases Rac1 and Rac2 Are Important for T-Cell Independent Antigen Responses and for Suppressing Switching to IgG2b in Mice.

Author

Gerasimčik, Natalija, Minghui He, Dahlberg, Carin I. M., Kuznetsov, Nikolai V., Severinson, Eva, and Westerberg, Lisa S.

Subjects
RHO GTPases, T cell receptors, IMMUNOGLOBULIN G
Abstract

The Rho GTPases Cdc42, Rac1, and Rac2 coordinate receptor signaling to cell adhesion, migration, and proliferation. Deletion of Rac1 and Rac2 early during B cell development leads to failure in B cell entry into the splenic white pulp. Here, we sought to understand the role of Rac1 and Rac2 in B cell functionality and during the humoral antibody response. To circumvent the migratory deficiency of B cells lacking both Rac1 and Rac2, we took the approach to inducibly delete Rac1 in Rac2-/- B cells in the spleen (Rac1BRac2-/- B cells). Rac1BRac2-/- mice had normal differentiation of splenic B cell populations, except for a reduction in marginal zone B cells. Rac1BRac2-/- B cells showed normal spreading response on antibody-coated layers, while both Rac2-/- and Rac1BRac2-/- B cells had reduced homotypic adhesion and decreased proliferative response when compared to wild-type B cells. Upon challenge with the T-cell-independent antigen TNP-conjugated lipopolysaccharide, Rac1BRac2-/- mice showed reduced antibody response. In contrast, in response to the T-cell-dependent antigen sheep red blood cells, Rac1BRac2-/- mice had increased serum titers of IgG1 and IgG2b. During in vitro Ig class switching, Rac1BRac2-/- B cells had elevated germline γ2b transcripts leading to increased Ig class switching to IgG2b. Our data suggest that Rac1 and Rac2 serve an important role in regulation of the B cell humoral immune response and in suppressing Ig class switching to IgG2b. [ABSTRACT FROM AUTHOR]

Published
2017
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35. H1N1 vaccination in Sjögren's syndrome triggers polyclonal B cell activation and promotes autoantibody production.

Author

Brauner, Susanna, Folkersen, Lasse, Kvarnström, Marika, Meisgen, Sabrina, Petersen, Sven, Franzén-Malmros, Michaela, Mofors, Johannes, Brokstad, Karl A., Klareskog, Lars, Jonsson, Roland, Westerberg, Lisa S., Trollmo, Christina, Malmström, Vivianne, Ambrosi, Aurelie, Kuchroo, Vijay K., Nordmark, Gunnel, and Wahren-Herlenius, Marie

Subjects
ANTIGEN analysis, PROTEIN metabolism, IMMUNOGLOBULIN analysis, ANTIGENS, ANTIRHEUMATIC agents, AUTOANTIBODIES, B cells, CARRIER proteins, CELL culture, CELL differentiation, CELL receptors, CELLULAR signal transduction, CHLOROQUINE, CYTOKINES, EPSTEIN-Barr virus, GENE expression, IMMUNIZATION, IMMUNOGLOBULINS, IMMUNOLOGY technique, INFLUENZA vaccines, INTERLEUKINS, PROTEINS, SJOGREN'S syndrome, VIRAL antibodies, HLA-B27 antigen, CASE-control method, INFLUENZA A virus, H1N1 subtype, GENE expression profiling, LYMPHOCYTE count, PHARMACODYNAMICS, PHYSIOLOGY
Abstract

Objectives: Vaccination of patients with rheumatic disease has been reported to result in lower antibody titres than in healthy individuals. However, studies primarily include patients on immunosuppressive therapy. Here, we investigated the immune response of treatment-naïve patients diagnosed with primary Sjögren's syndrome (pSS) to an H1N1 influenza vaccine.Methods: Patients with Sjögren's syndrome without immunomodulatory treatment and age-matched and gender-matched healthy controls were immunised with an H1N1 influenza vaccine and monitored for serological and cellular immune responses. Clinical symptoms were monitored with a standardised form. IgG class switch and plasma cell differentiation were induced in vitro in purified naïve B cells of untreated and hydroxychloroquine-treated patients and healthy controls. Gene expression was assessed by NanoString technology.Results: Surprisingly, treatment-naïve patients with Sjögren's syndrome developed higher H1N1 IgG titres of greater avidity than healthy controls on vaccination. Notably, off-target B cells were also triggered resulting in increased anti-EBV and autoantibody titres. Endosomal toll-like receptor activation of naïve B cells in vitro revealed a greater propensity of patient-derived cells to differentiate into plasmablasts and higher production of class switched IgG. The amplified plasma cell differentiation and class switch could be induced in cells from healthy donors by preincubation with type 1 interferon, but was abolished in hydroxychloroquine-treated patients and after in vitro exposure of naïve B cells to chloroquine.Conclusions: This comprehensive analysis of the immune response in autoimmune patients to exogenous stimulation identifies a mechanistic basis for the B cell hyperactivity in Sjögren's syndrome, and suggests that caution is warranted when considering vaccination in non-treated autoimmune patients. [ABSTRACT FROM AUTHOR]

Published
2017
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36. Rictor positively regulates B cell receptor signaling by modulating actin reorganization via ezrin.

Author

Huang, Lu, Zhang, Yongjie, Xu, Chenguang, Gu, Xiaomei, Niu, Linlin, Wang, Jinzhi, Sun, Xiaoyu, Bai, Xiaoming, Xuan, Xingtian, Li, Qubei, Shi, Chunwei, Yu, Bing, Miller, Heather, Yang, Gangyi, Westerberg, Lisa S., Liu, Wanli, Song, Wenxia, Zhao, Xiaodong, and Liu, Chaohong

Subjects
B cell receptors, EZRIN, RAPAMYCIN, PROTEIN-tyrosine kinases, LATRUNCULINS
Abstract

As the central hub of the metabolism machinery, the mammalian target of rapamycin complex 2 (mTORC2) has been well studied in lymphocytes. As an obligatory component of mTORC2, the role of Rictor in T cells is well established. However, the role of Rictor in B cells still remains elusive. Rictor is involved in B cell development, especially the peripheral development. However, the role of Rictor on B cell receptor (BCR) signaling as well as the underlying cellular and molecular mechanism is still unknown. This study used B cell–specfic Rictor knockout (KO) mice to investigate how Rictor regulates BCR signaling. We found that the key positive and negative BCR signaling molecules, phosphorylated Brutons tyrosine kinase (pBtk) and phosphorylated SH2-containing inositol phosphatase (pSHIP), are reduced and enhanced, respectively, in Rictor KO B cells. This suggests that Rictor positively regulates the early events of BCR signaling. We found that the cellular filamentous actin (F-actin) is drastically increased in Rictor KO B cells after BCR stimulation through dysregulating the dephosphorylation of ezrin. The high actin-ezrin intensity area restricts the lateral movement of BCRs upon stimulation, consequently reducing BCR clustering and BCR signaling. The reduction in the initiation of BCR signaling caused by actin alteration is associated with a decreased humoral immune response in Rictor KO mice. The inhibition of actin polymerization with latrunculin in Rictor KO B cells rescues the defects of BCR signaling and B cell differentiation. Overall, our study provides a new pathway linking cell metablism to BCR activation, in which Rictor regulates BCR signaling via actin reorganization. [ABSTRACT FROM AUTHOR]

Published
2017
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37. Deletion of Dock10 in B cells results in normal Development but a Mild Deficiency upon In Vivo and In Vitro stimulations.

Author

Gerasimčik, Natalija, He, Minghui, Baptista, Marisa A. P., Severinson, Eva, and Westerberg, Lisa S.

Subjects
B cells, PROTEIN genetics, IMMUNE response, PHYSIOLOGY
Abstract

We sought to identify genes necessary to induce cytoskeletal change in B cells. Using gene expression microarray, we compared B cells stimulated with interleukin-4 (IL-4) and anti-CD40 antibodies that induce B cell spreading, cell motility, tight aggregates, and extensive microvilli with B cells stimulated with lipopolysaccharide that lack these cytoskeletal changes. We identified 84 genes with 10-fold or greater expression in anti-CD40 + IL-4 stimulated B cells, one of these encoded the guanine nucleotide exchange factor (GEF) dedicator of cytokinesis 10 (Dock10). IL-4 selectively induced Dock10 expression in B cells. Using lacZ expression to monitor Dock10 promoter activity, we found that Dock10 was expressed at all stages during B cell development. However, specific deletion of Dock10 in B cells was associated with a mild phenotype with normal B cell development and normal B cell spreading, polarization, motility, chemotaxis, aggregation, and Ig class switching. Dock10-deficient B cells showed lower proliferation in response to anti-CD40 and IL-4 stimulation. Moreover, the IgG response to soluble antigen in vivo was lower when Dock10 was specifically deleted in B cells. Together, we found that most B cell responses were intact in the absence of Dock10. However, specific deletion of Dock10 in B cells was associated with a mild reduction in B cell activation in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published
2017
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39. Insulin Influences Autophagy Response Distinctively in Macrophages of Different Compartments.

Author

Sunahara, Karen K. S., Nunes, Fernanda P. B., Baptista, Marisa a. P., Strell, Carina, Sannomiya, Paulina, Westerberg, Lisa S., and Martins, Joilson O.

Subjects
INSULIN, AUTOPHAGY, MACROPHAGES, GLUCOSE metabolism, HYPERGLYCEMIA, TREATMENT of diabetes
Abstract

Background/Aims: Diabetes mellitus (DM) is characterized by hyperglycemia, associated to a lack or inefficiency of the insulin to regulate glucose metabolism. DM is also marked by alterations in a diversity of cellular processes that need to be further unraveled. In this study, we examined the autophagy pathway in diabetic rat macrophages before and after treatment with insulin. Methods: Bone marrow-derived macrophages (BMM), bronchoalveolar lavage (BAL) and splenic tissue of diabetic male Wistar rats (alloxan, 42 mg/kg, i.v., 10 days) and control rats (physiological saline, i.v.). Some diabetic rats were given neutral protamine Hagedorn insulin (4 IU, s.c.) 8 h before experiments. For characterization of the model and evaluation of the effect of insulin on the autophagic process, the following analyzes were performed: (a) concentrations of cytokines: interleukin (IL)-1β, tumor necrosis factor (TNF)-α, IL-6, IL-4, IL-10, cytokine-induced neutrophil chemoattractant (CINC)-1 and CINC-2 in the BAL supernatant was measured by ELISA; (b) characterization of alveolar macrophage (AM) of the BAL as surface antigens (MHCII, pan-macrophage KiM2R, CD11b) and autophagic markers (protein microtubule-associated light chain (LC)3, autophagy protein (Atg)12 by flow cytometry and confocal microscopy (c) study of macrophages differentiated from the bone marrow by flow cytometry and confocal microscopy (d) histology of the spleen by immunohistochemistry associated with confocal microscopy. Results: Interestingly, insulin exerted antagonistic effects on macrophages from different tissues. Macrophages from bronchoalveolar lavage (BAL) enhanced their LC3 autophagosome bound content after treatment with insulin whereas splenic macrophages from red pulp in diabetic rats failed to enhance their Atg 12 levels compared to control animals. Insulin treatment in diabetic rats did not change LC3 content in bone marrow derived macrophages (BMM). M1 and M2 macrophages behaved accordingly to the host they were derived from. Diabetic M1 BMM had their LC3 vesicle-bound content diminished and M2 BMM enhanced their LC3 levels and insulin treatment failed to rescue autophagy to control levels. Insulin normalizes CINC-2 level but does not modulate autophagy markers. Conclusion: Taking these results together, diabetic macrophages derived from different compartments show different levels of autophagy markers compared to healthy animals, therefore, they suffer distinctively in the absence of insulin. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2014
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40. Congenital Defects in Neutrophil Dynamics.

Author

Keszei, Marton and Westerberg, Lisa S.

Subjects
*ANALYTICAL mechanics, *NEUTROPHIL immunology, *IMMUNODEFICIENCY, *BACTERIAL diseases, *TOXICITY testing
Abstract

Neutrophil granulocytes are key effector cells of the vertebrate immune system. They represent 50-70% of the leukocytes in the human blood and their loss by disease or drug side effect causes devastating bacterial infections. Their high turnover rate, their fine-tuned killing machinery, and their arsenal of toxic vesicles leave them particularly vulnerable to various genetic deficiencies. The aim of this review is to highlight those congenital immunodeficiencies which impede the dynamics of neutrophils, such as migration, cytoskeletal rearrangements, vesicular trafficking, and secretion. [ABSTRACT FROM AUTHOR]

Published
2014
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41. Deletion of Wiskott–Aldrich syndrome protein triggers Rac2 activity and increased cross-presentation by dendritic cells

Author

Baptista, Marisa A. P., Keszei, Marton, Oliveira, Mariana, Sunahara, Karen K. S., Andersson, John, Dahlberg, Carin I. M., Worth, Austen J., Liedén, Agne, Kuo, I-Chun, Wallin, Robert P. A., Snapper, Scott B., Eidsmo, Liv, Scheynius, Annika, Karlsson, Mikael C. I., Bouma, Gerben, Burns, Siobhan O., Forsell, Mattias N. E., Thrasher, Adrian J., Nylén, Susanne, and Westerberg, Lisa S.

Abstract

Wiskott–Aldrich syndrome (WAS) is caused by loss-of-function mutations in the WASp gene. Decreased cellular responses in WASp-deficient cells have been interpreted to mean that WASp directly regulates these responses in WASp-sufficient cells. Here, we identify an exception to this concept and show that WASp-deficient dendritic cells have increased activation of Rac2 that support cross-presentation to CD8+ T cells. Using two different skin pathology models, WASp-deficient mice show an accumulation of dendritic cells in the skin and increased expansion of IFNγ-producing CD8+ T cells in the draining lymph node and spleen. Specific deletion of WASp in dendritic cells leads to marked expansion of CD8+ T cells at the expense of CD4+ T cells. WASp-deficient dendritic cells induce increased cross-presentation to CD8+ T cells by activating Rac2 that maintains a near neutral pH of phagosomes. Our data reveals an intricate balance between activation of WASp and Rac2 signalling pathways in dendritic cells.

Published
2016
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42. N-WASP Is Essential for the Negative Regulation of B Cell Receptor Signaling.

Author

Liu, Chaohong, Bai, Xiaoming, Wu, Junfeng, Sharma, Shruti, Upadhyaya, Arpita, Dahlberg, Carin I. M., Westerberg, Lisa S., Snapper, Scott B., Zhao, Xiaodong, and Song, Wenxia

Subjects
B cell receptors, CYTOLOGY, CELLULAR signal transduction, ACTIN, ANTIGENS
Abstract

: A cell biology study using conditional gene knockout mouse models reveals a novel mechanism by which the actin cytoskeleton negatively regulates the signal transduction of the B cell antigen receptor. [ABSTRACT FROM AUTHOR]

Published
2013
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43. Wiskott-Aldrich syndrome gene mutations modulate cancer susceptibility in the p53± murine model.

Author

Keszei, Marton, Kritikou, Joanna S., Sandfort, Deborah, He, Minghui, Oliveira, Mariana M.S., Wurzer, Hannah, Westerberg, Lisa S., and Kuiper, Raoul V.

Subjects
IMMUNODEFICIENCY, GENETIC models
Abstract

The Wiskott-Aldrich syndrome protein (WASp) is a key regulator of the actin cytoskeleton in hematopoietic cells and mutated in two severe immunodeficiency diseases with high incidence of cancer. Wiskott-Aldrich syndrome (WAS) is caused by loss-of-function mutations in WASp and most frequently associated with lymphoreticular tumors of poor prognosis. X-linked neuropenia (XLN) is caused by gain-of-function mutations in WASp and associated with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). To understand the role of WASp in tumorigenesis, we bred WASp+, WASp, and WASp-XLN mice onto tumor susceptible p53+/- background and sub-lethally irradiated them to enhance tumor development. We followed the cohorts for 24 weeks and tumors were characterized by histology and flow cytometry to define the tumor incidence, onset, and cell origin. We found that p53+/-WASp+ mice developed malignancies, including solid tumors and T cell lymphomas with 71.4% of survival 24 weeks after irradiation. p53+/-WASp mice showed lower survival rate and developed various early onset malignancies. Surprisingly, the p53+/-WASp-XLN mice developed malignancy mostly with late onset, which caused delayed mortality in this colony. This study provides evidence for that loss-of-function and gain-of-function mutations in WASp influence tumor incidence and onset. [ABSTRACT FROM AUTHOR]

Published
2018
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44. CD73 immune checkpoint defines regulatory NK cells within the tumor microenvironment.

Author

Shi Yong Neo, Ying Yang, Record, Julien, Ran Ma, Xinsong Chen, Ziqing Chen, Tobin, Nicholas P., Blake, Emily, Seitz, Christina, Thomas, Ron, Wagner, Arnika Kathleen, Andersson, John, de Boniface, Jana, Bergh, Jonas, Murray, Shannon, Alici, Evren, Childs, Richard, Johansson, Martin, Westerberg, Lisa S., and Haglund, Felix

Subjects
*KILLER cells, *TUMOR microenvironment, *SUPPRESSOR cells, *CELL populations, *EXTRACELLULAR space
Abstract

High levels of ecto-5'-nucleotidase (CD73) have been implicated in immune suppression and tumor progression, and have also been observed in cancer patients who progress on anti-PD-1 immunotherapy. Although regulatory T cells can express CD73 and inhibit T cell responses via the production of adenosine, less is known about CD73 expression in other immune cell populations. We found that tumor-infiltrating NK cells upregulate CD73 expression and the frequency of these CD73-positive NK cells correlated with larger tumor size in breast cancer patients. In addition, the expression of multiple alternative immune checkpoint receptors including LAG-3, VISTA, PD-1, and PD-L1 was significantly higher in CD73-positive NK cells than in CD73-negative NK cells. Mechanistically, NK cells transport CD73 in intracellular vesicles to the cell surface and the extracellular space via actin polymerization-dependent exocytosis upon engagement of 4-1BBL on tumor cells. These CD73-positive NK cells undergo transcriptional reprogramming and upregulate IL-10 production via STAT3 transcriptional activity, suppressing CD4-positive T cell proliferation and IFN-γ production. Taken together, our results support the notion that tumors can hijack NK cells as a means to escape immunity and that CD73 expression defines an inducible population of NK cells with immunoregulatory properties within the tumor microenvironment. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Multi-faceted inhibition of dendritic cell function by CD4+Foxp3+ regulatory T cells.

Author

Seitz, Christina, Liu, Sang, Klocke, Katrin, Joly, Anne-Laure, Czarnewski, Paulo V., Tibbitt, Christopher A., Parigi, Sara M., Westerberg, Lisa S., Coquet, Jonathan M., Villablanca, Eduardo J., Wing, Kajsa, and Andersson, John

Subjects
*T cells, *CELL physiology, *DENDRITIC cells, *CYTOTOXIC T lymphocyte-associated molecule-4, *PNEUMONIA
Abstract

Abstract CTLA-4 is required for CD4+Foxp3+ regulatory T (Treg) cell function, but its mode of action remains incompletely defined. Herein we generated Ctla-4 ex2fl/fl Foxp3-Cre mice with Treg cells exclusively expressing a naturally occurring, ligand-independent isoform of CTLA-4 (liCTLA-4) that cannot interact with the costimulatory molecules CD80 and CD86. The mice did not exhibit any signs of effector T cell activation early in life, however, at 6 months of age they exhibited excessive T cell activation and inflammation in lungs. In contrast, mice with Treg cells completely lacking CTLA-4 developed lymphoproliferative disease characterized by multi-organ inflammation early in life. In vitro , Treg cells exclusively expressing liCTLA-4 inhibited CD80 and CD86 expression on dendritic cells (DC). Conversely, Treg cells required the extra-cellular part of CTLA-4 to up-regulate expression of the co-inhibitory molecule PD-L2 on DCs. Transcriptomic analysis of suppressed DCs revealed that Treg cells induced a specific immunosuppressive program in DCs. Highlights • The cell-extrinsic functions of CTLA-4 are dispensable for regulating CD80/86 expression on DCs. • Regulatory T cells use CTLA-4 to induce the co-inhibitory molecule PD-L2 on dendritic cells. • Regulatory T cells induce a specific genetic program in suppressed dendritic cells. • CTLA-4 is required to restrict the size of the regulatory T cell pool. [ABSTRACT FROM AUTHOR]

Published
2019
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46. N-WASP is required for B-cell-mediated autoimmunity in Wiskott-Aldrich syndrome.

Author

Volpi, Stefano, Santori, Elettra, Abernethy, Katrina, Mizui, Masayuki, Dahlberg, Carin I. M., Recher, Mike, Capuder, Kelly, Csizmadia, Eva, Ryan, Douglas, Mathew, Divij, Tsokos, George C., Snapper, Scott, Westerberg, Lisa S., Thrasher, Adrian J., Candotti, Fabio, and Notarangelo, Luigi D.

Subjects
*WISKOTT-Aldrich syndrome, *IMMUNOLOGICAL deficiency syndromes, *AUTOIMMUNITY, *B cells, *GENETICS, *THERAPEUTICS
Abstract

Mutations of the Wiskott-Aldrich syndrome gene (WAS) are responsible for Wiskott- Aldrich syndrome (WAS), a disease characterized by thrombocytopenia, eczema, immunodeficiency, and autoimmunity. Mice with conditional deficiency of Was in B lymphocytes (B/WcKO) have revealed a critical role for WAS protein (WASP) expression in B lymphocytes in the maintenance of immune homeostasis. Neural WASP (N-WASP) is a broadly expressed homolog of WASP, and regulates B-cell signaling bymodulating B-cell receptor (BCR) clustering and internalization.Wehave generated a double conditional mouse lacking both WASP and N-WASP selectively in B lymphocytes (B/DcKO). Compared with B/WcKO mice, B/DcKO mice showed defective B-lymphocyte proliferation and impaired antibody responses to T-celldependent antigens, associated with decreased autoantibody production and lack of autoimmune kidney disease. These results demonstrate that N-WASP expression in B lymphocytes is required for the development of autoimmunity of WAS and may represent a novel therapeutic target in WAS. [ABSTRACT FROM AUTHOR]

Published
2016
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47. Foxp3 lacking exons 2 and 7 is unable to confer suppressive ability to regulatory T cells in vivo.

Author

Joly, Anne-Laure, Liu, Sang, Dahlberg, Carin I.M., Mailer, Reiner K.W., Westerberg, Lisa S., and Andersson, John

Subjects
*T cells, *TRANSCRIPTION factors, *INFLAMMATION, *CYTOKINES, *ANTIGENS, *LABORATORY mice
Abstract

The forkhead/winged-helix transcription factor FOXP3 confers suppressive ability to CD4 + FOXP3 + regulatory T (Treg) cells. Human Treg cells express several different isoforms of FOXP3 that differ in function. However, the regulation and functional consequences of FOXP3 isoform expression remains poorly understood. In order to study the function of the FOXP3Δ2Δ7 isoform in vivo we generated mice that exclusively expressed a Foxp3 isoform lacking exon 2 and 7. These mice exhibited multi-organ inflammation, increased cytokine production, global T cell activation, activation of antigen-presenting cells and B cell developmental defects, all features that are shared with mice completely deficient in FOXP3. Our results demonstrate that the mouse counterpart of human FOXP3Δ2Δ7 is unable to confer suppressive ability to Treg cells. [ABSTRACT FROM AUTHOR]

Published
2015
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48. Deletion of WASp and N-WASp in B cells cripples the germinal center response and results in production of IgM autoantibodies.

Author

Dahlberg, Carin I.M., Torres, Magda-Liz, Petersen, Sven H., Baptista, Marisa A.P., Keszei, Marton, Volpi, Stefano, Grasset, Emilie K., Karlsson, Mikael C.I., Walter, Jolan E., Snapper, Scott B., Notarangelo, Luigi D., and Westerberg, Lisa S.

Subjects
*WISKOTT-Aldrich syndrome, *HUMORAL immunity, *IMMUNODEFICIENCY, *GENETIC mutation, *IMMUNOGLOBULIN M, *AUTOANTIBODIES
Abstract

Humoral immunodeficiency caused by mutations in the Wiskott-Aldrich syndrome protein (WASp) is associated with failure to respond to common pathogens and high frequency of autoimmunity. Here we addressed the question how deficiency in WASp and the homologous protein N-WASp skews the immune response towards autoreactivity. Mice devoid of WASp or both WASp and N-WASp in B cells formed germinal center to increased load of apoptotic cells as a source of autoantigens. However, the germinal centers showed abolished polarity and B cells retained longer and proliferated less in the germinal centers. While WASp-deficient mice had high titers of autoreactive IgG, B cells devoid of both WASp and N-WASp produced mainly IgM autoantibodies with broad reactivity to autoantigens. Moreover, B cells lacking both WASp and N-WASp induced somatic hypermutation at reduced frequency. Despite this, IgG1-expressing B cells devoid of WASp and N-WASp acquired a specific high affinity mutation, implying an increased BCR signaling threshold for selection in germinal centers. Our data provides evidence for that N-WASp expression alone drives WASp-deficient B cells towards autoimmunity. [ABSTRACT FROM AUTHOR]

Published
2015
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49. The Rho GTPase Cdc42 Is Essential for the Activation and Function of Mature B Cells.

Author

Gerasimcik, Natalija, Dahlberg, Carin I. M., Baptista, Marisa A. P., Massaad, Michel J., Geha, Raif S., Westerberg, Lisa S., and Severinson, Eva

Subjects
*RHO GTPases, *ACTIN, *CYTOSKELETON, *WISKOTT-Aldrich syndrome protein, *T cell receptors
Abstract

The Rho GTPase Cdc42 coordinates regulation of the actin and the microtubule cytoskeleton by binding and activating the Wiskott- Aldrich syndrome protein. We sought to define the role of intrinsic expression of Cdc42 by mature B cells in their activation and function. Mice with inducible deletion of Cdc42 in mature B cells formed smaller germinal centers and had a reduced Ab response, mostly of low affinity to T cell-dependent Ag, compared with wild-type (WT) controls. Spreading formation of long protrusions that contain F-actin, microtubules, and Cdc42-interacting protein 4, and assumption of a dendritic cell morphology in response to anti-CD40 plus IL-4 were impaired in Cdc42-deficient B cells compared with WT B cells. Cdc42-deficient B cells had an intact migratory response to chemokine in vitro, but their homing to the B cell follicles in the spleen in vivo was significantly impaired. Cdc42-deficient B cells induced a skewed cytokine response in CD4+ T cells, compared with WT B cells. Our results demonstrate a critical role for Cdc42 in the motility of mature B cells, their cognate interaction with T cells, and their differentiation into Ab-producing cells. [ABSTRACT FROM AUTHOR]

Published
2015
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50. A Novel Mouse Model for the Hyper-IgM Syndrome: A Spontaneous Activation-Induced Cytidine Deaminase Mutation Leading to Complete Loss of Ig Class Switching and Reduced Somatic Hypermutation.

Author

Dahlberg, Carin I. M., Minghui He, Visnes, Torkild, Torres, Magda Liz, Cortizas, Elena M., Verdun, Ramiro E., Westerberg, Lisa S., Severinson, Eva, and Ström, Lena

Subjects
*IMMUNOLOGIC diseases, *IMMUNOGLOBULIN M, *CYTIDINE deaminase, *LABORATORY mice, *ENZYME activation, *GENETIC mutation, *NATURAL immunity
Abstract

We describe a spontaneously derived mouse line that completely failed to induce Ig class switching in vitro and in vivo. The mice inherited abolished IgG serum titers in a recessive manner caused by a spontaneous G→A transition mutation in codon 112 of the aicda gene, leading to an arginine to histidine replacement (AIDR112H). Ig class switching was completely reconstituted by expressing wild-type AID. Mice homozygous for AIDR112H had peripheral B cell hyperplasia and large germinal centers in the absence of Ag challenge. Immunization with SRBCs elicited an Ag-specific IgG1 response in wild-type mice, whereas AIDR112H mice failed to produce IgG1 and had reduced somatic hypermutation. The phenotype recapitulates the human hyper-IgM (HIGM) syndrome that is caused by point mutations in the orthologous gene in humans, and the AIDR112H mutation is frequently found in HIGM patients. The AIDR112H mouse model for HIGM provides a powerful and more precise tool than conventional knockout strategies. [ABSTRACT FROM AUTHOR]

Published
2014
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