Your search keyword '"Antigen-Presenting Cells physiology"' showing total 389 results

1. MHCII restriction demonstrates B cells have very limited capacity to activate tumour-specific CD4 + T cells in vivo.

Author

Guy TV, Terry AM, McGuire HM, Shklovskaya E, and Fazekas de St Groth B

Subjects

Mice, Animals, CD4-Positive T-Lymphocytes, Lymphocyte Activation, B-Lymphocytes, Antigen-Presenting Cells physiology, Neoplasms

Abstract

There has been growing interest in the role of B cells in antitumour immunity and potential use in adoptive cellular therapies. To date, the success of such therapies is limited. The intrinsic capacity of B cells to specifically activate tumour-specific CD4+ T cells in vivo via TCR-dependent interactions remains poorly defined. We have developed an in vivo tumour model that utilizes MHCII I-E restriction which limits antigen presentation to tumour-specific CD4 T cells to either tumour-specific B cells or host myeloid antigen presenting cells (APCs) in lymphopenic RAG-/-mice. We have previously shown that these naive tumour-specific CD4+ T cells can successfully eradicate established tumours in this model when activated by host APCs. When naïve tumour-specific B cells are the only source of I-E+ APC, very limited proliferation of naïve CD4+ T cells is observed, whereas host I-E+ APCs are potent T cell activators. B cells pre-activated with an anti-CD40 agonistic antibody in vivo support increased T cell proliferation, although far less than host APCs. CD4+ T cells that have already differentiated to an effector/central memory phenotype proliferate more readily in response to naïve B cells, although still 100-fold less than in response to host APCs. This study demonstrates that even in a significantly lymphopenic environment, myeloid APCs are the dominant primary activators of tumour-specific T cells, in contrast to the very limited capacity of tumour-specific B cells. This suggests that future anti-tumour therapies that incorporate activated B cells should also include mechanisms that activate host APCs., Competing Interests: No potential conflict of interest was reported by the author(s)., (© 2023 The Author(s). Published with license by Taylor & Francis Group, LLC.)

Published

2023

2. Mitochondrial respiration contributes to the interferon gamma response in antigen-presenting cells.

Author

Kiritsy MC, McCann K, Mott D, Holland SM, Behar SM, Sassetti CM, and Olive AJ

Subjects

Animals, Cell Line, Humans, Mice, Antigen-Presenting Cells physiology, Cell Respiration, Interferon-gamma metabolism, Mitochondria metabolism, Mitochondria physiology

Abstract

The immunological synapse allows antigen-presenting cells (APCs) to convey a wide array of functionally distinct signals to T cells, which ultimately shape the immune response. The relative effect of stimulatory and inhibitory signals is influenced by the activation state of the APC, which is determined by an interplay between signal transduction and metabolic pathways. While pathways downstream of toll-like receptors rely on glycolytic metabolism for the proper expression of inflammatory mediators, little is known about the metabolic dependencies of other critical signals such as interferon gamma (IFNγ). Using CRISPR-Cas9, we performed a series of genome-wide knockout screens in murine macrophages to identify the regulators of IFNγ-inducible T cell stimulatory or inhibitory proteins MHCII, CD40, and PD-L1. Our multiscreen approach enabled us to identify novel pathways that preferentially control functionally distinct proteins. Further integration of these screening data implicated complex I of the mitochondrial respiratory chain in the expression of all three markers, and by extension the IFNγ signaling pathway. We report that the IFNγ response requires mitochondrial respiration, and APCs are unable to activate T cells upon genetic or chemical inhibition of complex I. These findings suggest a dichotomous metabolic dependency between IFNγ and toll-like receptor signaling, implicating mitochondrial function as a fulcrum of innate immunity., Competing Interests: MK, KM, DM, SH, SB, CS, AO No competing interests declared

Published

2021

3. Time-Dependent Serial Changes of Antigen-Presenting Cell Subsets in the Ocular Surface Are Distinct between Corneal Sterile Inflammation and Allosensitization in a Murine Model.

Author

Kim KW, Lee HJ, Kim HJ, and Kim MK

Subjects

Allografts immunology, Animals, Antigen-Presenting Cells physiology, Cell Movement, Corneal Transplantation methods, Dendritic Cells immunology, Female, Inflammation metabolism, Lymphocyte Activation immunology, Macrophages immunology, Mice, Mice, Inbred BALB C, T-Lymphocyte Subsets immunology, T-Lymphocyte Subsets metabolism, Antigen-Presenting Cells immunology, Antigen-Presenting Cells metabolism, Cornea immunology

Abstract

The kinetics of antigen-presenting cells (APCs) vary depending on their resident tissues and the manner of immunization. We investigated the long-term changes in mature APC and T-cell subsets over 4 weeks in the ocular surface in murine models of corneal quiescent or potent sterile inflammation, and allosensitization using partial (PT), syngeneic (Syn), and allogeneic (Allo) corneal transplantation. In PT, CD11b int CD11c hi MHCII hi CD86 hi cells increased until 4 weeks with an increase in IFNγ hi T cells. In Syn, both CD11b int CD11c hi MHCII hi CD86 hi and CD11b hi CD11c hi MHCII hi CD86 hi APC subsets increased until 4 weeks with a brief increase in CD69 hi T cells at 2 weeks. In Allo, CD11b int CD11c hi MHCII hi CD86 hi and CD11b hi CD11c hi MHCII hi CD86 hi APC subsets increased until 4 weeks, and an early increase in CD69 hi T cells was observed at 2 weeks followed by a late increase in IFNγ hi T cells at 4 weeks. The frequency of the IFNγ hi T cell subset was positively correlated with the frequency of the CD11b int CD11c hi MHCII hi CD86 hi subset, indicating the existence of APC-T cell interaction in the ocular surface. Together, the results indicate that allosensitization in mature APCs leads to T-cell activation in the ocular surface, whereas sterile inflammation merely induces a brief and non-specific T-cell activation in the ocular surface.

Published

2021

4. Co-Administration of Anticancer Candidate MK-2206 Enhances the Efficacy of BCG Vaccine Against Mycobacterium tuberculosis in Mice and Guinea Pigs.

Author

Bouzeyen R, Chugh S, Gosain TP, Barbouche MR, Haoues M, Rao KVS, Essafi M, and Singh R

Subjects

Animals, Antigen-Presenting Cells drug effects, Antigen-Presenting Cells physiology, Apoptosis drug effects, Cells, Cultured, Forkhead Box Protein O3 physiology, Guinea Pigs, Immunologic Memory drug effects, Macrophages microbiology, Mice, T-Lymphocytes drug effects, T-Lymphocytes immunology, BCG Vaccine immunology, Heterocyclic Compounds, 3-Ring pharmacology, Tuberculosis prevention & control

Abstract

The failure of M. bovis BCG to induce long-term protection has been endowed to its inability to escape the phagolysosome, leading to mild activation of CD8 + mediated T cell response. Induction of apoptosis in host cells plays an important role in potentiating dendritic cells-mediated priming of CD8 + T cells, a process defined as "cross-priming." Moreover, IL-10 secretion by infected cells has been reported to hamper BCG-induced immunity against Tuberculosis (TB). Previously, we have reported that apoptosis of BCG-infected macrophages and inhibition of IL-10 secretion is FOXO3 dependent, a transcription factor negatively regulated by the pro-survival activated threonine kinase, Akt. We speculate that FOXO3-mediated induction of apoptosis and abrogation of IL-10 secretion along with M. bovis BCG immunization might enhance the protection imparted by BCG. Here, we have assessed whether co-administration of a known anti-cancer Akt inhibitor, MK-2206, enhances the protective efficacy of M. bovis BCG in mice model of infection. We observed that in vitro MK-2206 treatment resulted in FOXO3 activation, enhanced BCG-induced apoptosis of macrophages and inhibition of IL-10 secretion. Co-administration of M. bovis BCG along with MK-2206 also increased apoptosis of antigen-presenting cells in draining lymph nodes of immunized mice. Further, MK-2206 administration improved BCG-induced CD4 + and CD8 + effector T cells responses and its ability to induce both effector and central memory T cells. Finally, we show that co-administration of MK-2206 enhanced the protection imparted by M. bovis BCG against Mtb in aerosol infected mice and guinea pigs. Taken together, we provide evidence that MK-2206-mediated activation of FOXO3 potentiates BCG-induced immunity and imparts protection against Mtb through enhanced innate immune response., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Bouzeyen, Chugh, Gosain, Barbouche, Haoues, Rao, Essafi and Singh.)

Published

2021

5. In-Vitro Approaches to Predict and Study T-Cell Mediated Hypersensitivity to Drugs.

Author

Hammond S, Thomson P, Meng X, and Naisbitt D

Subjects

Antigen-Presenting Cells physiology, Biomarkers, Cytokines biosynthesis, Drug Hypersensitivity immunology, HLA Antigens immunology, Humans, Lymphocyte Activation, Drug Hypersensitivity diagnosis, T-Lymphocytes immunology

Abstract

Mitigating the risk of drug hypersensitivity reactions is an important facet of a given pharmaceutical, with poor performance in this area of safety often leading to warnings, restrictions and withdrawals. In the last 50 years, efforts to diagnose, manage, and circumvent these obscure, iatrogenic diseases have resulted in the development of assays at all stages of a drugs lifespan. Indeed, this begins with intelligent lead compound selection/design to minimize the existence of deleterious chemical reactivity through exclusion of ominous structural moieties. Preclinical studies then investigate how compounds interact with biological systems, with emphasis placed on modeling immunological/toxicological liabilities. During clinical use, competent and accurate diagnoses are sought to effectively manage patients with such ailments, and pharmacovigilance datasets can be used for stratification of patient populations in order to optimise safety profiles. Herein, an overview of some of the in-vitro approaches to predict intrinsic immunogenicity of drugs and diagnose culprit drugs in allergic patients after exposure is detailed, with current perspectives and opportunities provided., Competing Interests: SH was employed by the company ApconiX. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Hammond, Thomson, Meng and Naisbitt.)

Published

2021

6. Periodic Membrane Potential and Ca 2+ Oscillations in T Cells Forming an Immune Synapse.

Author

Papp F, Hajdu P, Tajti G, Toth A, Nagy E, Fazekas Z, Kovacs S, Vámosi G, Varga Z, and Panyi G

Subjects

Animals, Antigen-Presenting Cells metabolism, Antigen-Presenting Cells physiology, Calcium metabolism, Calcium Release Activated Calcium Channels metabolism, Cell Line, Immunological Synapses physiology, Intermediate-Conductance Calcium-Activated Potassium Channels metabolism, Kv1.3 Potassium Channel metabolism, Mice, Potassium metabolism, T-Lymphocytes physiology, Calcium Signaling, Immunological Synapses metabolism, Membrane Potentials, T-Lymphocytes metabolism

Abstract

The immunological synapse (IS) is a specialized contact area formed between a T cell and an antigen presenting cell (APC). Besides molecules directly involved in antigen recognition such as the TCR/CD3 complex, ion channels important in the membrane potential and intracellular free Ca 2+ concentration control of T cells are also recruited into the IS. These are the voltage-gated Kv1.3 and Ca 2+ -activated KCa3.1 K + channels and the calcium release-activated Ca 2+ channel (CRAC). However, the consequence of this recruitment on membrane potential and Ca 2+ level control is not known. Here we demonstrate that the membrane potential (MP) of murine T cells conjugated with APCs in an IS shows characteristic oscillations. We found that depolarization of the membrane by current injection or by increased extracellular K + concentration produced membrane potential oscillations (MPO) significantly more frequently in conjugated T cells than in lone T cells. Furthermore, oscillation of the free intracellular Ca 2+ concentration could also be observed more frequently in cells forming an IS than in lone cells. We suggest that in the IS the special arrangement of channels and the constrained space between the interacting cells creates a favorable environment for these oscillations, which may enhance the signaling process leading to T cell activation., Competing Interests: The authors declare no conflict of interest.

Published

2020

7. Endothelial IL-8 induced by porcine circovirus type 2 affects dendritic cell maturation and antigen-presenting function.

Author

Liu S, Li Q, Qiao J, Wang J, Cui D, Gu K, Zhou S, and Li H

Subjects

Animals, Antigen-Presenting Cells physiology, Cells, Cultured, Circovirus growth & development, Coculture Techniques, Dendritic Cells physiology, Endothelial Cells metabolism, Swine, Antigen-Presenting Cells immunology, Cell Differentiation, Circovirus immunology, Dendritic Cells immunology, Endothelial Cells virology, Immunologic Factors metabolism, Interleukin-8 metabolism

Abstract

Background: Porcine circovirus (PCV) disease caused by PCV type 2 (PCV2) is mainly attributed to immunosuppression and immune damage. PCV2 can infect vascular endothelial cells and induce high expression of endothelial IL-8. Dendritic cells (DCs), as professional antigen-presenting cells, can not only present antigens but also activate naïve T-cells, causing an immune response., Methods: To demonstrate whether endothelial IL-8 is the main factor inhibiting the maturation and related functions of dendritic cells during PCV2 infection, monocyte-derived DCs (MoDCs) and porcine iliac artery endothelial cells (PIECs) processed by different methods were co-cultured in two ways. Flow cytometry, molecular probe labeling, fluorescence quantitative PCR, and the MTS assay were used to detect the changes in related functions and molecules of MoDCs., Results: Compared to those in the PIEC-DC group, the endothelial IL-8 upregulation co-culture group showed significantly lower double-positive rates for CD80/86 and MHC-II of MoDCs and significantly increased endocytosis of MoDCs. Meanwhile, the adhesion rate and average fluorescence intensity of MoDCs were significantly downregulated in migration and adhesion experiments. Furthermore, the MHC-I and LAMP7 mRNA levels in MoDCs and the proliferation of MoDC-stimulated T-cells were markedly reduced. However, the changes in MoDCs of the endothelial IL-8 downregulation co-culture group were the opposite., Conclusions: PCV2-induced endothelial IL-8 reduces the adhesion and migration ability of MoDCs, resulting in a decreased maturation rate of MoDCs, and further inhibits antigen presentation by DCs. These results may explain the immunosuppressive mechanism of PCV2 from the perspective of the interaction between endothelial cells and DCs in vitro.

Published

2019

8. Monocytes and Monocyte-Derived Antigen-Presenting Cells Have Distinct Gene Signatures in Experimental Model of Multiple Sclerosis.

Author

Monaghan KL, Zheng W, Hu G, and Wan ECK

Subjects

Animals, Antigens, Ly metabolism, Cell Differentiation, Female, Humans, Mice, Mice, Inbred C57BL, Models, Animal, Myelin-Oligodendrocyte Glycoprotein immunology, Transcriptome, Antigen-Presenting Cells physiology, Central Nervous System immunology, Dendritic Cells physiology, Encephalomyelitis, Autoimmune, Experimental immunology, Macrophages physiology, Monocytes physiology, Multiple Sclerosis immunology

Abstract

Multiple sclerosis (MS) is a chronic inflammatory disease mediated by a complex interaction between the autoreactive lymphocytes and the effector myeloid cells within the central nervous system (CNS). In a murine model of MS, experimental autoimmune encephalomyelitis (EAE), Ly6C hi monocytes migrate into the CNS and further differentiate into antigen-presenting cells (APCs) during disease progression. Currently, there is no information about gene signatures that can distinguish between monocytes and the monocyte-derived APCs. We developed a surface marker-based strategy to distinguish between these two cell types during the stage of EAE when the clinical symptoms were most severe, and performed transcriptome analysis to compare their gene expression. We report here that the inflammatory CNS environment substantially alters gene expression of monocytes, compared to the monocyte differentiation process within CNS. Monocytes in the CNS express genes that encode proinflammatory cytokines and chemokines, and their expression is mostly maintained when the cells differentiate. Moreover, monocyte-derived APCs express surface markers associated with both dendritic cells and macrophages, and have a significant up-regulation of genes that are critical for antigen presentation. Furthermore, we found that Ccl17, Ccl22 , and Ccr7 are expressed in monocyte-derived APCs but not the Ly6C hi monocytes. These findings may shed light on identifying molecular signals that control monocyte differentiation and functions during EAE., (Copyright © 2019 Monaghan, Zheng, Hu and Wan.)

Published

2019

9. Transient protein accumulation at the center of the T cell antigen-presenting cell interface drives efficient IL-2 secretion.

Author

Clark DJ, McMillan LE, Tan SL, Bellomo G, Massoue C, Thompson H, Mykhaylechko L, Alibhai D, Ruan X, Singleton KL, Du M, Hedges A, Schwartzberg PL, Verkade P, Murphy RF, and Wülfing C

Subjects

Adaptor Proteins, Signal Transducing metabolism, Animals, CD28 Antigens metabolism, Cells, Cultured, GRB2 Adaptor Protein metabolism, Membrane Proteins metabolism, Mice, Phosphoproteins metabolism, Receptor Protein-Tyrosine Kinases metabolism, Antigen-Presenting Cells physiology, Cell Communication, Interleukin-2 metabolism, T-Lymphocytes physiology

Abstract

Supramolecular signaling assemblies are of interest for their unique signaling properties. A µm scale signaling assembly, the central supramolecular signaling cluster (cSMAC), forms at the center of the interface of T cells activated by antigen-presenting cells. We have determined that it is composed of multiple complexes of a supramolecular volume of up to 0.5 µm 3 and associated with extensive membrane undulations. To determine cSMAC function, we have systematically manipulated the localization of three adaptor proteins, LAT, SLP-76, and Grb2. cSMAC localization varied between the adaptors and was diminished upon blockade of the costimulatory receptor CD28 and deficiency of the signal amplifying kinase Itk. Reconstitution of cSMAC localization restored IL-2 secretion which is a key T cell effector function as dependent on reconstitution dynamics. Our data suggest that the cSMAC enhances early signaling by facilitating signaling interactions and attenuates signaling thereafter through sequestration of a more limited set of signaling intermediates., Competing Interests: DC, LM, ST, GB, CM, HT, LM, DA, XR, KS, MD, AH, PS, PV, RM, CW No competing interests declared

Published

2019

10. Forensic implications of the presence of chimerism after hematopoietic stem cell transplantation.

Author

Sanz-Piña E, Santurtún A, and Zarrabeitia MT

Subjects

Antigen-Presenting Cells physiology, Blood Chemical Analysis, Cell Plasticity physiology, Forensic Genetics, Hair Follicle chemistry, Humans, Male, Microsatellite Repeats, Mouth Mucosa chemistry, Nails chemistry, Polymorphism, Single Nucleotide, Skin chemistry, Spermatozoa chemistry, Urine chemistry, Chimerism, DNA Fingerprinting, Hematopoietic Stem Cell Transplantation

Abstract

Biological vestiges are used in forensic science to resolve a large number of cases by typing the genetic profile and identifying the individual to whom it belongs. However, chimeric persons that possess cells with two or more different DNA make these types of analyses difficult. This situation can occur naturally, by errors in the fertilization or early embryogenesis, or in an artificial way, for example after hematopoietic stem cell transplantation (HSCT), when host and donor cells coexist in the patient. In this paper, we will specially focus on the latter. The vestiges from transplant patients represent a challenge from a forensic perspective since the interpretation of the genetic fingerprint can be misleading because of the presence of chimerism. Due to the high number of transplant patients (and their increase over the years) and the existence of natural chimeras (probably many of them hidden), it is necessary to consider whether we are facing a possible chimeric person or someone who has been a donor of hematopoietic stem cells in a forensic context. In this review, the presence of donor bone marrow derived cells in some tissues of forensic interest will be discussed. Finally, to emphasize the importance of chimerism after HSCT in forensic genetics, some real-life cases will be examined., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

11. Targeting Antiviral Pathways for Treatment of Allergic Diseases.

Author

Rowe RK and Gill MA

Subjects

Antigen-Presenting Cells physiology, Humans, Hypersensitivity immunology, Signal Transduction drug effects, Virus Physiological Phenomena, Hypersensitivity virology, Virus Diseases immunology, Viruses immunology

Published

2018

12. Zinc in Keratinocytes and Langerhans Cells: Relevance to the Epidermal Homeostasis.

Author

Ogawa Y, Kinoshita M, Shimada S, and Kawamura T

Subjects

Animals, Homeostasis, Humans, Antigen-Presenting Cells physiology, Epidermis pathology, Keratinocytes physiology, Langerhans Cells physiology, Tight Junctions metabolism, Zinc metabolism

Abstract

In the skin, the epidermis is continuously exposed to various kinds of external substances and stimuli. Therefore, epidermal barriers are crucial for providing protection, safeguarding health, and regulating water balance by maintaining skin homeostasis. Disruption of the epidermal barrier allows external substances and stimuli to invade or stimulate the epidermal cells, leading to the elicitation of skin inflammation. The major components of the epidermal barrier are the stratum corneum (SC) and tight junctions (TJs). The presence of zinc in the epidermis promotes epidermal homeostasis; hence, this study reviewed the role of zinc in the formation and function of the SC and TJs. Langerhans cells (LCs) are one of the antigen-presenting cells found in the epidermis. They form TJs with adjacent keratinocytes (KCs), capture external antigens, and induce antigen-specific immune reactions. Thus, the function of zinc in LCs was examined in this review. We also summarized the general knowledge of zinc and zinc transporters in the epidermis with updated findings.

Published

2018

13. The Role of Autoimmune Regulator (AIRE) in Peripheral Tolerance.

Author

Zhao B, Chang L, Fu H, Sun G, and Yang W

Subjects

Animals, Autoimmunity genetics, Cell Differentiation, Gene Expression Regulation, Humans, Mutation genetics, Peripheral Tolerance, Polyendocrinopathies, Autoimmune genetics, Toll-Like Receptors metabolism, Transcription Factors genetics, AIRE Protein, Antigen-Presenting Cells physiology, Polyendocrinopathies, Autoimmune immunology, T-Lymphocytes immunology, Transcription Factors metabolism

Abstract

Autoimmune regulator (AIRE), whose gene mutation is considered to be a causative factor of autoimmune polyglandular syndrome type 1 (APS1), is an important transcriptional regulator. Studies on the role of AIRE in the central immune system have demonstrated that AIRE can eliminate autoreactive T cells by regulating the expression of a series of tissue specific antigens promiscuously in medullary thymic epithelial cells (mTECs) and induce regulatory T cell (Treg) production to maintain central immune tolerance. However, the related research of AIRE in peripheral tolerance is few. In order to understand the current research progress on AIRE in peripheral tolerance, this review mainly focuses on the expression and distribution of AIRE in peripheral tissues and organs, and the role of AIRE in peripheral immune tolerance such as regulating Toll-like receptor (TLR) expression and the maturation status of antigen presenting cells (APCs), inducing T cell tolerance and differentiation. This review will show us that AIRE also plays an indispensable role in the periphery.

Published

2018

14. Transcriptional profiling reveals monocyte-related macrophages phenotypically resembling DC in human intestine.

Author

Richter L, Landsverk OJB, Atlasy N, Bujko A, Yaqub S, Horneland R, Øyen O, Aandahl EM, Lundin KEA, Stunnenberg HG, Bækkevold ES, and Jahnsen FL

Subjects

Aged, Aged, 80 and over, Antigen-Presenting Cells metabolism, Antigen-Presenting Cells physiology, Cell Lineage physiology, Dendritic Cells metabolism, Female, Humans, Inflammation metabolism, Inflammation physiopathology, Lipopolysaccharide Receptors metabolism, Macrophages metabolism, Male, Middle Aged, Monocytes metabolism, Receptors, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, T-Lymphocytes metabolism, T-Lymphocytes physiology, fms-Like Tyrosine Kinase 3 metabolism, Dendritic Cells physiology, Intestines physiology, Macrophages physiology, Monocytes physiology, Transcription, Genetic physiology, Transcriptome physiology

Abstract

The tissue dendritic cell (DC) compartment is heterogeneous, and the ontogeny and functional specialization of human tissue conventional DC (cDC) subsets and their relationship with monocytes is unresolved. Here we identify monocyte-related CSF1R + Flt3 - antigen presenting cells (APCs) that constitute about half of the cells classically defined as SIRPα + DCs in the steady-state human small intestine. CSF1R + Flt3 - APCs express calprotectin and very low levels of CD14, are transcriptionally related to monocyte-derived cells, and accumulate during inflammation. CSF1R + Flt3 - APCs show typical macrophage characteristics functionally distinct from their Flt3 + cDC counterparts: under steady-state conditions they excel at antigen uptake, have a lower migratory potential, and are inefficient activators of naïve T cells. These results have important implications for the understanding of the ontogenetic and functional heterogeneity within human tissue DCs and their relation to the monocyte lineage.

Published

2018

15. Oestrogen, an evolutionary conserved regulator of T cell differentiation and immune tolerance in jawed vertebrates?

Author

Paiola M, Knigge T, Duflot A, Pinto PIS, Farcy E, and Monsinjon T

Subjects

Animals, Bass genetics, Cell Differentiation genetics, Clonal Deletion, Estrogens immunology, Evolution, Molecular, Female, Immune Tolerance genetics, Lymphocyte Activation, Male, Sex, Antigen-Presenting Cells physiology, B-Lymphocytes physiology, Bass immunology, Estrogens metabolism, T-Lymphocyte Subsets physiology, T-Lymphocytes, Regulatory physiology

Abstract

In teleosts, as in mammals, the immune system is tightly regulated by sexual steroid hormones, such as oestrogens. We investigated the effects of 17β-oestradiol on the expression of several genes related to T cell development and resulting T cell subpopulations in sea bass, Dicentrarchus labrax, for a primary lymphoid organ, the thymus, and two secondary lymphoid organs, the head-kidney and the spleen. In parallel, the oxidative burst capacity was assessed in leucocytes of the secondary lymphoid organs. Apoptosis- and proliferation-related genes, indicative of B and T cell clonal selection and lymphoid progenitor activity, were not affected by elevated oestrogen-levels. Sex-related oestrogen-responsiveness in T cell and antigen-presenting cell markers was observed, the expression of which was differentially induced by oestrogen-exposure in the three lymphoid organs. Remarkably, in the spleen, oestrogen increased regulatory T cell-related gene expression was associated with a decrease in oxidative burst capacity. To the best of our knowledge, this study indicates for the first time that physiological levels of oestrogen are likely to promote immune tolerance by modulating thymic function (i.e., T cell development and output) and peripheral T cells in teleosts, similar to previously reported oestrogenic effects in mammals., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

16. A correlative and quantitative imaging approach enabling characterization of primary cell-cell communication: Case of human CD4 + T cell-macrophage immunological synapses.

Author

Kasprowicz R, Rand E, O'Toole PJ, and Signoret N

Subjects

Antigen-Presenting Cells cytology, Antigen-Presenting Cells physiology, CD4-Positive T-Lymphocytes cytology, Cell Communication immunology, Cells, Cultured, Evaluation Studies as Topic, Humans, Macrophages cytology, Molecular Imaging statistics & numerical data, Principal Component Analysis, Signal Transduction immunology, Single-Cell Analysis methods, Video Recording, CD4-Positive T-Lymphocytes physiology, Cell Communication physiology, Immunological Synapses physiology, Macrophages physiology, Molecular Imaging methods, Single-Cell Analysis instrumentation

Abstract

Cell-to-cell communication engages signaling and spatiotemporal reorganization events driven by highly context-dependent and dynamic intercellular interactions, which are difficult to capture within heterogeneous primary cell cultures. Here, we present a straightforward correlative imaging approach utilizing commonly available instrumentation to sample large numbers of cell-cell interaction events, allowing qualitative and quantitative characterization of rare functioning cell-conjugates based on calcium signals. We applied this approach to examine a previously uncharacterized immunological synapse, investigating autologous human blood CD4 + T cells and monocyte-derived macrophages (MDMs) forming functional conjugates in vitro. Populations of signaling conjugates were visualized, tracked and analyzed by combining live imaging, calcium recording and multivariate statistical analysis. Correlative immunofluorescence was added to quantify endogenous molecular recruitments at the cell-cell junction. By analyzing a large number of rare conjugates, we were able to define calcium signatures associated with different states of CD4 + T cell-MDM interactions. Quantitative image analysis of immunostained conjugates detected the propensity of endogenous T cell surface markers and intracellular organelles to polarize towards cell-cell junctions with high and sustained calcium signaling profiles, hence defining immunological synapses. Overall, we developed a broadly applicable approach enabling detailed single cell- and population-based investigations of rare cell-cell communication events with primary cells.

Published

2018

17. MERS-CoV pathogenesis and antiviral efficacy of licensed drugs in human monocyte-derived antigen-presenting cells.

Author

Cong Y, Hart BJ, Gross R, Zhou H, Frieman M, Bollinger L, Wada J, Hensley LE, Jahrling PB, Dyall J, and Holbrook MR

Subjects

Animals, Antigen-Presenting Cells physiology, Cells, Cultured, Chlorocebus aethiops, Coronavirus Infections immunology, Drug Approval, Drug Evaluation, Preclinical, Humans, Macrophages physiology, Monocytes physiology, Treatment Outcome, Vero Cells, Antigen-Presenting Cells drug effects, Antiviral Agents therapeutic use, Coronavirus Infections drug therapy, Macrophages drug effects, Middle East Respiratory Syndrome Coronavirus drug effects

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) presents an emerging threat to public health worldwide by causing severe respiratory disease in humans with high virulence and case fatality rate (about 35%) since 2012. Little is known about the pathogenesis and innate antiviral response in primary human monocyte-derived macrophages (MDMs) and dendritic cells (MDDCs) upon MERS-CoV infection. In this study, we assessed MERS-CoV replication as well as induction of inflammatory cytokines and chemokines in MDMs and immature and mature MDDCs. Immature MDDCs and MDMs were permissive for MERS-CoV infection, while mature MDDCs were not, with stimulation of proinflammatory cytokine and chemokine upregulation in MDMs, but not in MDDCs. To further evaluate the antiviral activity of well-defined drugs in primary antigen presenting cells (APCs), three compounds (chloroquine, chlorpromazine and toremifine), each with broad-spectrum antiviral activity in immortalized cell lines, were evaluated in MDMs and MDDCs to determine their antiviral effect on MERS-CoV infection. While chloroquine was not active in these primary cells, chlorpromazine showed strong anti-MERS-CoV activity, but it was associated with high cytotoxicity narrowing the potential window for drug utilization. Unlike in established cells, toremifene had marginal activity when tested in antigen presenting cells, with high apparent cytotoxicity, also limiting its potential as a therapeutic option. These results demonstrate the value of testing drugs in primary cells, in addition to established cell lines, before initiating preclinical or clinical studies for MERS treatment and the importance of carefully assessing cytotoxicity in drug screen assays. Furthermore, these studies also highlight the role of APCs in stimulating a robust protective immune response to MERS-CoV infection.

Published

2018

18. Disruption of the Epidermal Barrier Induces Regulatory T Cells via IL-33 in Mice.

Author

Bruhs A, Proksch E, Schwarz T, and Schwarz A

Subjects

Animals, Antigen-Presenting Cells physiology, Epidermis immunology, Epidermis radiation effects, Female, Forkhead Transcription Factors analysis, Mice, Mice, Inbred C57BL, Ultraviolet Rays, Dermatitis, Contact prevention & control, Interleukin-33 physiology, T-Lymphocytes, Regulatory pathology

Abstract

Disturbance of the epidermal barrier by UVR is associated with the release of antimicrobial peptides and inflammatory cytokines for the purpose of a danger response. On the other hand, UVR causes immunosuppression via regulatory T cells (Treg) that limit the inflammatory reaction. The concurrent induction of antimicrobial peptides and Treg by UVR may represent a counter-regulatory mechanism in response to barrier disruption, preventing microbial superinfection and sensitization to contact allergens, respectively, both of which cross impaired epidermis more easily. Thus, using a model of murine contact hypersensitivity we examined if disruption of the epidermal barrier only initiates similar counter-regulatory mechanisms via the generation of Treg. Sensitization through tape-stripped skin induced a weaker contact hypersensitivity response than in control mice. This was due to the induction of antigen-specific Treg, as demonstrated in adoptive transfer and depletion experiments utilizing DEREG mice. Treg induction by tape stripping was linked to the expression of the alarmin IL-33, as blockade of IL-33 exacerbated contact hypersensitivity, whereas injection of IL-33 inhibited contact hypersensitivity and induced Treg. These results demonstrate that epidermal barrier disruption, in addition to danger signals, induces regulatory events that prevent exaggerated skin inflammation and that IL-33 appears to be critically involved in this process., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2018

19. Activation of p53 in Immature Myeloid Precursor Cells Controls Differentiation into Ly6c + CD103 + Monocytic Antigen-Presenting Cells in Tumors.

Author

Sharma MD, Rodriguez PC, Koehn BH, Baban B, Cui Y, Guo G, Shimoda M, Pacholczyk R, Shi H, Lee EJ, Xu H, Johnson TS, He Y, Mergoub T, Venable C, Bronte V, Wolchok JD, Blazar BR, and Munn DH

Subjects

Animals, Antigen-Presenting Cells immunology, Antigens, CD metabolism, Antigens, Ly metabolism, Cell Differentiation genetics, Cell Differentiation physiology, Cell Line, Flow Cytometry, Humans, Immunotherapy methods, Integrin alpha Chains metabolism, Mice, Monocytes immunology, Myeloid Cells physiology, Antigen-Presenting Cells physiology, Monocytes physiology, Myeloid Cells metabolism, Neoplasms immunology, Tumor Suppressor Protein p53 metabolism

Abstract

CD103 + dendritic cells are critical for cross-presentation of tumor antigens. Here we have shown that during immunotherapy, large numbers of cells expressing CD103 arose in murine tumors via direct differentiation of Ly6c + monocytic precursors. These Ly6c + CD103 + cells could derive from bone-marrow monocytic progenitors (cMoPs) or from peripheral cells present within the myeloid-derived suppressor cell (MDSC) population. Differentiation was controlled by inflammation-induced activation of the transcription factor p53, which drove upregulation of Batf3 and acquisition of the Ly6c + CD103 + phenotype. Mice with a targeted deletion of p53 in myeloid cells selectively lost the Ly6c + CD103 + population and became unable to respond to multiple forms of immunotherapy and immunogenic chemotherapy. Conversely, increasing p53 expression using a p53-agonist drug caused a sustained increase in Ly6c + CD103 + cells in tumors during immunotherapy, which markedly enhanced the efficacy and duration of response. Thus, p53-driven differentiation of Ly6c + CD103 + monocytic cells represents a potent and previously unrecognized target for immunotherapy., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

20. Co-stimulatory function in primary germinal center responses: CD40 and B7 are required on distinct antigen-presenting cells.

Author

Watanabe M, Fujihara C, Radtke AJ, Chiang YJ, Bhatia S, Germain RN, and Hodes RJ

Subjects

Animals, Antibody Formation physiology, B-Lymphocytes physiology, Dendritic Cells physiology, Immunoglobulin G metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, T-Cell Antigen Receptor Specificity physiology, T-Lymphocytes physiology, Antigen-Presenting Cells physiology, B7 Antigens physiology, CD40 Antigens physiology, Germinal Center physiology

Abstract

T cell-dependent germinal center (GC) responses require coordinated interactions of T cells with two antigen-presenting cell (APC) populations, B cells and dendritic cells (DCs), in the presence of B7- and CD40-dependent co-stimulatory pathways. Contrary to the prevailing paradigm, we found unique cellular requirements for B7 and CD40 expression in primary GC responses to vaccine immunization with protein antigen and adjuvant: B7 was required on DCs but was not required on B cells, whereas CD40 was required on B cells but not on DCs in the generation of antigen-specific follicular helper T cells, antigen-specific GC B cells, and high-affinity class-switched antibody production. There was, in fact, no requirement for coexpression of B7 and CD40 on the same cell in these responses. Our findings support a substantially revised model for co-stimulatory function in the primary GC response, with crucial and distinct contributions of B7- and CD40-dependent pathways expressed by different APC populations and with important implications for understanding how to optimize vaccine responses or limit autoimmunity., (This is a work of the U.S. Government and is not subject to copyright protection in the United States. Foreign copyrights may apply.)

Published

2017

21. Biopolymers codelivering engineered T cells and STING agonists can eliminate heterogeneous tumors.

Author

Smith TT, Moffett HF, Stephan SB, Opel CF, Dumigan AG, Jiang X, Pillarisetty VG, Pillai SPS, Wittrup KD, and Stephan MT

Subjects

Adoptive Transfer, Animals, Antigen-Presenting Cells physiology, Antineoplastic Agents administration & dosage, Carcinoma, Pancreatic Ductal immunology, Cell Line, Tumor, Cyclic GMP administration & dosage, Cyclic GMP analogs & derivatives, Drug Carriers administration & dosage, Female, Implants, Experimental, Melanoma, Experimental immunology, Membrane Proteins agonists, Mice, Inbred C57BL, Mice, Transgenic, Neoplasm Transplantation, Pancreatic Neoplasms immunology, T-Lymphocytes physiology, Biopolymers administration & dosage, Carcinoma, Pancreatic Ductal therapy, Melanoma, Experimental therapy, Pancreatic Neoplasms therapy

Abstract

Therapies using T cells that are programmed to express chimeric antigen receptors (CAR T cells) consistently produce positive results in patients with hematologic malignancies. However, CAR T cell treatments are less effective in solid tumors for several reasons. First, lymphocytes do not efficiently target CAR T cells; second, solid tumors create an immunosuppressive microenvironment that inactivates T cell responses; and third, solid cancers are typified by phenotypic diversity and thus include cells that do not express proteins targeted by the engineered receptors, enabling the formation of escape variants that elude CAR T cell targeting. Here, we have tested implantable biopolymer devices that deliver CAR T cells directly to the surfaces of solid tumors, thereby exposing them to high concentrations of immune cells for a substantial time period. In immunocompetent orthotopic mouse models of pancreatic cancer and melanoma, we found that CAR T cells can migrate from biopolymer scaffolds and eradicate tumors more effectively than does systemic delivery of the same cells. We have also demonstrated that codelivery of stimulator of IFN genes (STING) agonists stimulates immune responses to eliminate tumor cells that are not recognized by the adoptively transferred lymphocytes. Thus, these devices may improve the effectiveness of CAR T cell therapy in solid tumors and help protect against the emergence of escape variants.

Published

2017

22. Intrinsic Resistance of Solid Tumors to Immune Checkpoint Blockade Therapy.

Author

Zhao X and Subramanian S

Subjects

Antigen-Presenting Cells physiology, Cancer-Associated Fibroblasts physiology, Drug Resistance, Neoplasm, Genes, Tumor Suppressor, Humans, Myeloid-Derived Suppressor Cells physiology, Neoplasms genetics, Neoplasms immunology, T-Lymphocytes, Cytotoxic physiology, Tumor Microenvironment, CTLA-4 Antigen antagonists & inhibitors, Neoplasms drug therapy, Programmed Cell Death 1 Receptor antagonists & inhibitors

Abstract

Immune checkpoint blockade therapy (ICBT), which blocks negative immune-activating signals and maintains the antitumor response, has elicited a remarkable clinical response in certain cancer patients. However, intrinsic resistance (i.e., insensitivity of the tumors to therapy) remains a daunting challenge. The efficacy of ICBT is tightly modulated by the function of each step in the antitumor immunity cycle. Mechanistically, the number of mutations determines tumor immunogenicity. The properties of the tumor microenvironment control T-cell infiltration, distribution, and function in tumor tissues. Low tumor immunogenicity and a strong immunosuppressive tumor microenvironment cause significant intrinsic resistance to ICBT. With our evolving understanding of intrinsic resistance, people have successfully tested, in preclinical models, treatments targeting specific resistance mechanisms to sensitize ICBT-resistant tumors. Translation of those preclinical findings to the clinical arena will help generate personalized ICBT strategies that target tumor-specific resistance mechanisms. Progress in the new personalized ICBT strategies will expand the reach of immunotherapy to more cancer types, thus enabling more patients to benefit. Cancer Res; 77(4); 817-22. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published

2017

23. Tumor Eradication by Cisplatin Is Sustained by CD80/86-Mediated Costimulation of CD8+ T Cells.

Author

Beyranvand Nejad E, van der Sluis TC, van Duikeren S, Yagita H, Janssen GM, van Veelen PA, Melief CJ, van der Burg SH, and Arens R

Subjects

Animals, Antigen-Presenting Cells physiology, CD27 Ligand physiology, Interferon-gamma biosynthesis, Lymphocyte Activation, Mice, Mice, Inbred C57BL, Myeloid-Derived Suppressor Cells physiology, Neoplasms, Experimental immunology, Vaccination, Antineoplastic Agents therapeutic use, B7-1 Antigen physiology, B7-2 Antigen physiology, CD8-Positive T-Lymphocytes immunology, Cisplatin therapeutic use, Neoplasms, Experimental drug therapy

Abstract

Certain cytotoxic chemotherapeutic drugs are immunogenic, stimulating tumor immunity through mechanisms that are not completely understood. Here we show how the DNA-damaging drug cisplatin modulates tumor immunity. At the maximum tolerated dose (MTD), cisplatin cured 50% of mice with established murine TC-1 or C3 tumors, which are preclinical models of human papillomavirus (HPV)-associated cancer. Notably, the curative benefit of cisplatin relied entirely upon induction of tumor-specific CD8 + T cells. Mechanistic investigations showed that cisplatin stimulated tumor infiltration of inflammatory antigen-presenting cells (APC) expressing relatively higher levels of the T-cell costimulatory ligands CD70, CD80, and CD86. Cell death triggered by cisplatin was associated with the release of at least 19 proteins in the tumor environment that could act as damage-associated molecular patterns and upregulate costimulatory molecules, either alone or in concert, but the responsible proteins remain unknown. Essentially, the curative effect of cisplatin was abrogated in mice lacking expression of CD80 and CD86 on APCs. Furthermore, cisplatin treatment was improved by CTLA-4 blockade, which increases the availability of CD80/86 to bind to CD28. In contrast, there was no effect of CD27 stimulation, which replaces CD70 interaction. At the cisplatin MTD, cure rates could also be increased by vaccination with synthetic long peptides, whereas cures could also be achieved at similar rates at 80% of the MTD with reduced side effects. Our findings reveal an essential basis for the immunogenic properties of cisplatin, which are mediated by the induction of costimulatory signals for CD8 + T-cell-dependent tumor destruction. Cancer Res; 76(20); 6017-29. ©2016 AACR., (©2016 American Association for Cancer Research.)

Published

2016

24. The Regulatory Function of Eosinophils.

Author

Wen T and Rothenberg ME

Subjects

Adaptive Immunity, Animals, Antigen-Presenting Cells immunology, Antigen-Presenting Cells metabolism, Antigen-Presenting Cells physiology, Eosinophils immunology, Eosinophils metabolism, Humans, Immunity, Innate, Eosinophils physiology

Abstract

Eosinophils are a minority circulating granulocyte classically viewed as being involved in host defense against parasites and promoting allergic reactions. However, a series of new regulatory functions for these cells have been identified in the past decade. During homeostasis, eosinophils develop in the bone marrow and migrate from the blood into target tissues following an eotaxin gradient, with interleukin-5 being a key cytokine for eosinophil proliferation, survival, and priming. In multiple target tissues, eosinophils actively regulate a variety of immune functions through their vast arsenal of granule products and cytokines, as well as direct cellular interaction with cells in proximity. The immunologic regulation of eosinophils extends from innate immunity to adaptive immunity and also involves non-immune cells. Herein, we summarize recent findings regarding novel roles of murine and human eosinophils, focusing on interactions with other hematopoietic cells. We also review new experimental tools available and remaining questions to uncover a greater understanding of this enigmatic cell.

Published

2016

25. Positive and negative functions of B lymphocytes in tumors.

Author

Shen M, Sun Q, Wang J, Pan W, and Ren X

Subjects

Animals, Antibody Formation, Antigen-Presenting Cells physiology, B-Lymphocytes, Regulatory physiology, Cytokines biosynthesis, Humans, Lymphocyte Cooperation, B-Lymphocytes physiology, Neoplasms immunology

Abstract

Accumulating evidence indicated that B lymphocytes exerted complex functions in tumor immunity. On the one hand, B lymphocytes can inhibit tumor development through antibody generation, antigen presentation, tumor tissue interaction, and direct killing. On the other hand, B lymphocytes have tumor-promoting functions. A typical type of B lymphocytes, termed regulatory B cells, is confirmed to attenuate immune response in a tumor environment. In this paper, we summarize the current understanding of B-cell functions in tumor immunology, which may shed light on potential therapeutic strategies against cancer.

Published

2016

26. Runx1 Regulates Myeloid Precursor Differentiation Into Osteoclasts Without Affecting Differentiation Into Antigen Presenting or Phagocytic Cells in Both Males and Females.

Author

Paglia DN, Yang X, Kalinowski J, Jastrzebski S, Drissi H, and Lorenzo J

Subjects

Animals, Bone Resorption genetics, Cells, Cultured, Female, Hematopoiesis genetics, Male, Mice, Mice, Transgenic, Antigen-Presenting Cells physiology, Cell Differentiation genetics, Cell Transdifferentiation genetics, Core Binding Factor Alpha 2 Subunit physiology, Myeloid Progenitor Cells physiology, Osteoclasts physiology, Phagocytes physiology

Abstract

Runt-related transcription factor 1 (Runx1), a master regulator of hematopoiesis, is expressed in preosteoclasts. Previously we evaluated the bone phenotype of CD11b-Cre Runx1(fl/fl) mice and demonstrated enhanced osteoclasts and decreased bone mass in males. However, an assessment of the effects of Runx1 deletion in female osteoclast precursors was impossible with this model. Moreover, the role of Runx1 in myeloid cell differentiation into other lineages is unknown. Therefore, we generated LysM-Cre Runx1(fl/fl) mice, which delete Runx1 equally (∼80% deletion) in myeloid precursor cells from both sexes and examined the capacity of these cells to differentiate into osteoclasts and phagocytic and antigen-presenting cells. Both female and male LysM-Cre Runx1(fl/fl) mice had decreased trabecular bone mass (72% decrease in bone volume fraction) and increased osteoclast number (2-3 times) (P < .05) without alteration of osteoblast histomorphometric indices. We also demonstrated that loss of Runx1 in pluripotential myeloid precursors with LysM-Cre did not alter the number of myeloid precursor cells in bone marrow or their ability to differentiate into phagocytizing or antigen-presenting cells. This study demonstrates that abrogation of Runx1 in multipotential myeloid precursor cells significantly and specifically enhanced the ability of receptor activator of nuclear factor-κB ligand to stimulate osteoclast formation and fusion in female and male mice without affecting other myeloid cell fates. In turn, increased osteoclast activity in LysM-Cre Runx1(fl/fl) mice likely contributed to a decrease in bone mass. These dramatic effects were not due to increased osteoclast precursors in the deleted mutants and argue that inhibition of Runx1 in multipotential myeloid precursor cells is important for osteoclast formation and function.

Published

2016

27. Calcium influx through CRAC channels controls actin organization and dynamics at the immune synapse.

Author

Hartzell CA, Jankowska KI, Burkhardt JK, and Lewis RS

Subjects

Cells, Cultured, Humans, Actins metabolism, Antigen-Presenting Cells physiology, Calcium metabolism, Calcium Release Activated Calcium Channels metabolism, Cell Adhesion, Protein Multimerization, T-Lymphocytes physiology

Abstract

T cell receptor (TCR) engagement opens Ca(2+) release-activated Ca(2+) (CRAC) channels and triggers formation of an immune synapse between T cells and antigen-presenting cells. At the synapse, actin reorganizes into a concentric lamellipod and lamella with retrograde actin flow that helps regulate the intensity and duration of TCR signaling. We find that Ca(2+) influx is required to drive actin organization and dynamics at the synapse. Calcium acts by promoting actin depolymerization and localizing actin polymerization and the actin nucleation promotion factor WAVE2 to the periphery of the lamellipod while suppressing polymerization elsewhere. Ca(2+)-dependent retrograde actin flow corrals ER tubule extensions and STIM1/Orai1 complexes to the synapse center, creating a self-organizing process for CRAC channel localization. Our results demonstrate a new role for Ca(2+) as a critical regulator of actin organization and dynamics at the synapse, and reveal potential feedback loops through which Ca(2+) influx may modulate TCR signaling.

Published

2016

28. Ablating the aryl hydrocarbon receptor (AhR) in CD11c+ cells perturbs intestinal epithelium development and intestinal immunity.

Author

Chng SH, Kundu P, Dominguez-Brauer C, Teo WL, Kawajiri K, Fujii-Kuriyama Y, Mak TW, and Pettersson S

Subjects

Animals, Antigen-Presenting Cells chemistry, Basic Helix-Loop-Helix Transcription Factors deficiency, Basic Helix-Loop-Helix Transcription Factors genetics, Cell Differentiation, Coculture Techniques, Gene Deletion, Gene Expression Regulation, Immunity, Innate, Mice, Inbred C57BL, Organoids, Receptors, Aryl Hydrocarbon deficiency, Receptors, Aryl Hydrocarbon genetics, Wnt Signaling Pathway, Antigen-Presenting Cells physiology, Basic Helix-Loop-Helix Transcription Factors metabolism, CD11c Antigen analysis, Colitis pathology, Intestinal Mucosa growth & development, Intestinal Mucosa immunology, Receptors, Aryl Hydrocarbon metabolism

Abstract

Diet and microbiome derived indole derivatives are known to activate the ligand induced transcription factor, the Aryl hydrocarbon Receptor (AhR). While the current understanding of AhR biology has confirmed its role in mucosal lymphocytes, its function in intestinal antigen presenting cells (APCs) is poorly understood. Here, we report that Cre-mediated deletion of AhR in CD11c-expressing cells in C57/BL6 mice is associated with altered intestinal epithelial morphogenesis in vivo. Moreover, when co-cultured with AhR-deficient DCs ex vivo, intestinal organoids showed reduced SRY (sex determining region Y)-box 9 and increased Mucin 2 expression, which correlates with reduced Paneth cells and increased goblet cell differentiation, similar to the data obtained in vivo. Further, characterization of intestinal APC subsets, devoid of AhR, revealed an expression pattern associated with aberrant intrinsic Wnt pathway regulation. At a functional level, the loss of AhR in APCs resulted in a dysfunctional epithelial barrier, associated with a more aggressive chemically induced colitis compared to wild type animals. Our results are consistent with a model whereby the AhR signalling pathway may participate in the regulation of innate immunity through intestinal epithelium development and mucosal immunity.

Published

2016

29. B Cells, Antibodies, and More.

Author

Hoffman W, Lakkis FG, and Chalasani G

Subjects

Acute Kidney Injury immunology, Animals, Antigen-Presenting Cells physiology, B-Cell Activating Factor physiology, Cell Differentiation, Glomerulonephritis immunology, Glomerulonephritis, Membranous immunology, Humans, Immune Tolerance, Immunity, Cellular, Kidney Transplantation, Lupus Nephritis immunology, Lymphocyte Activation, Antibodies physiology, B-Lymphocytes physiology

Abstract

B cells play a central role in the immunopathogenesis of glomerulonephritides and transplant rejection. B cells secrete antibodies that contribute to tissue injury via multiple mechanisms. In addition, B cells contribute to disease pathogenesis in autoimmunity and alloimmunity by presenting antigens as well as providing costimulation and cytokines to T cells. B cells also play an immunomodulatory role in regulating the immune response by secreting cytokines that inhibit disease onset and/or progression. B cell-targeted approaches for treating immune diseases of the kidney and other organs have gained significant momentum. However, much remains to be understood about B-cell biology in order to determine the timing, duration, and context of optimal therapeutic response to B cell-targeted approaches. In this review, we discuss the multifaceted roles of B cells as enhancers and regulators of immunity with relevance to kidney disease and transplantation., (Copyright © 2016 by the American Society of Nephrology.)

Published

2016

30. Gatekeeper role of brain antigen-presenting CD11c+ cells in neuroinflammation.

Author

Paterka M, Siffrin V, Voss JO, Werr J, Hoppmann N, Gollan R, Belikan P, Bruttger J, Birkenstock J, Jung S, Esplugues E, Yogev N, Flavell RA, Bopp T, and Zipp F

Subjects

Animals, Antigen-Presenting Cells chemistry, Brain immunology, Cell Movement, Dendritic Cells chemistry, Encephalomyelitis, Autoimmune, Experimental immunology, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Interleukin-17 metabolism, Mice, Inbred C57BL, T-Lymphocytes physiology, Th17 Cells physiology, Antigen-Presenting Cells physiology, Brain pathology, CD11c Antigen analysis, Dendritic Cells physiology, Encephalomyelitis, Autoimmune, Experimental pathology, T-Lymphocytes immunology

Abstract

Multiple sclerosis is the most frequent chronic inflammatory disease of the CNS. The entry and survival of pathogenic T cells in the CNS are crucial for the initiation and persistence of autoimmune neuroinflammation. In this respect, contradictory evidence exists on the role of the most potent type of antigen-presenting cells, dendritic cells. Applying intravital two-photon microscopy, we demonstrate the gatekeeper function of CNS professional antigen-presenting CD11c(+) cells, which preferentially interact with Th17 cells. IL-17 expression correlates with expression of GM-CSF by T cells and with accumulation of CNS CD11c(+) cells. These CD11c(+) cells are organized in perivascular clusters, targeted by T cells, and strongly express the inflammatory chemokines Ccl5, Cxcl9, and Cxcl10. Our findings demonstrate a fundamental role of CNS CD11c(+) cells in the attraction of pathogenic T cells into and their survival within the CNS. Depletion of CD11c(+) cells markedly reduced disease severity due to impaired enrichment of pathogenic T cells within the CNS., (© 2015 The Authors.)

Published

2016

31. Nanoparticulate carbon black in cigarette smoke induces DNA cleavage and Th17-mediated emphysema.

Author

You R, Lu W, Shan M, Berlin JM, Samuel EL, Marcano DC, Sun Z, Sikkema WK, Yuan X, Song L, Hendrix AY, Tour JM, Corry DB, and Kheradmand F

Subjects

Animals, Antigen-Presenting Cells drug effects, Antigen-Presenting Cells physiology, Dendritic Cells drug effects, Dendritic Cells physiology, Inflammasomes metabolism, Mice, Phagocytes metabolism, Smoke, Th17 Cells drug effects, DNA Cleavage drug effects, Inflammation chemically induced, Nanoparticles toxicity, Pulmonary Emphysema pathology, Smoking, Soot toxicity, Th17 Cells physiology

Abstract

Chronic inhalation of cigarette smoke is the major cause of sterile inflammation and pulmonary emphysema. The effect of carbon black (CB), a universal constituent of smoke derived from the incomplete combustion of organic material, in smokers and non-smokers is less known. In this study, we show that insoluble nanoparticulate carbon black (nCB) accumulates in human myeloid dendritic cells (mDCs) from emphysematous lung and in CD11c(+) lung antigen presenting cells (APC) of mice exposed to smoke. Likewise, nCB intranasal administration induced emphysema in mouse lungs. Delivered by smoking or intranasally, nCB persisted indefinitely in mouse lung, activated lung APCs, and promoted T helper 17 cell differentiation through double-stranded DNA break (DSB) and ASC-mediated inflammasome assembly in phagocytes. Increasing the polarity or size of CB mitigated many adverse effects. Thus, nCB causes sterile inflammation, DSB, and emphysema and explains adverse health outcomes seen in smokers while implicating the dangers of nCB exposure in non-smokers.

Published

2015

32. Reversal of New-Onset Type 1 Diabetes With an Agonistic TLR4/MD-2 Monoclonal Antibody.

Author

Bednar KJ, Tsukamoto H, Kachapati K, Ohta S, Wu Y, Katz JD, Ascherman DP, and Ridgway WM

Subjects

Animals, Biomarkers metabolism, Blood Glucose, Cytokines genetics, Cytokines metabolism, Female, Gene Expression Regulation, Immunotherapy methods, Islets of Langerhans immunology, Islets of Langerhans physiopathology, Lymphocyte Antigen 96 immunology, Mice, Mice, Inbred NOD, Mice, SCID, Toll-Like Receptor 4 immunology, Antibodies, Monoclonal therapeutic use, Antigen-Presenting Cells physiology, Diabetes Mellitus, Type 1 therapy, Lymphocyte Antigen 96 agonists, Toll-Like Receptor 4 agonists

Abstract

Type 1 diabetes (T1D) is currently an incurable disease, characterized by a silent prodromal phase followed by an acute clinical phase, reflecting progressive autoimmune destruction of insulin-producing pancreatic β-cells. Autoreactive T cells play a major role in β-cell destruction, but innate immune cell cytokines and costimulatory molecules critically affect T-cell functional status. We show that an agonistic monoclonal antibody to TLR4/MD-2 (TLR4-Ab) reverses new-onset diabetes in a high percentage of NOD mice. TLR4-Ab induces antigen-presenting cell (APC) tolerance in vitro and in vivo, resulting in an altered cytokine profile, decreased costimulatory molecule expression, and decreased T-cell proliferation in APC:T-cell assays. TLR4-Ab treatment increases T-regulatory cell (Treg) numbers in both the periphery and the pancreatic islet, predominantly expanding the Helios(+)Nrp-1(+)Foxp3(+) Treg subset. TLR4-Ab treatment in the absence of B cells in NOD.scid mice prevents subsequent T cell-mediated disease, further suggesting a major role for APC tolerization in disease protection. Specific stimulation of the innate immune system through TLR4/MD-2, therefore, can restore tolerance in the aberrant adaptive immune system and reverse new-onset T1D, suggesting a novel immunological approach to treatment of T1D in humans., (© 2015 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.)

Published

2015

33. Human Primary Immune Cells Exhibit Distinct Mechanical Properties that Are Modified by Inflammation.

Author

Bufi N, Saitakis M, Dogniaux S, Buschinger O, Bohineust A, Richert A, Maurin M, Hivroz C, and Asnacios A

Subjects

Antigen-Presenting Cells physiology, Biomechanical Phenomena, Cells, Cultured, Humans, Inflammation pathology, T-Lymphocytes physiology, Antigen-Presenting Cells cytology, Elasticity, T-Lymphocytes cytology, Viscosity

Abstract

T lymphocytes are key modulators of the immune response. Their activation requires cell-cell interaction with different myeloid cell populations of the immune system called antigen-presenting cells (APCs). Although T lymphocytes have recently been shown to respond to mechanical cues, in particular to the stiffness of their environment, little is known about the rigidity of APCs. In this study, single-cell microplate assays were performed to measure the viscoelastic moduli of different human myeloid primary APCs, i.e., monocytes (Ms, storage modulus of 520 +90/-80 Pa), dendritic cells (DCs, 440 +110/-90 Pa), and macrophages (MPHs, 900 +110/-100 Pa). Inflammatory conditions modulated these properties, with storage moduli ranging from 190 Pa to 1450 Pa. The effect of inflammation on the mechanical properties was independent of the induction of expression of commonly used APC maturation markers, making myeloid APC rigidity an additional feature of inflammation. In addition, the rigidity of human T lymphocytes was lower than that of all myeloid cells tested and among the lowest reported (Young's modulus of 85 ± 5 Pa). Finally, the viscoelastic properties of myeloid cells were dependent on both their filamentous actin content and myosin IIA activity, although the relative contribution of these parameters varied within cell types. These results indicate that T lymphocytes face different cell rigidities when interacting with myeloid APCs in vivo and that this mechanical landscape changes under inflammation., (Copyright © 2015 Biophysical Society. Published by Elsevier Inc. All rights reserved.)

Published

2015

34. Neuronal and immune synapses on the move at traffic.

Author

Billadeau DD and Faundez V

Subjects

Animals, Antigen-Presenting Cells physiology, Cell Communication physiology, Humans, Lymphocyte Activation physiology, Biological Transport physiology, Immunological Synapses physiology

Published

2015

35. Helminth-induced immune regulation: implications for immune responses to tuberculosis.

Author

Chatterjee S and Nutman TB

Subjects

Animals, Animals, Newborn, Antigen-Presenting Cells physiology, Coinfection, Female, Helminthiasis epidemiology, Helminthiasis transmission, Humans, Immunomodulation physiology, Infant, Newborn, Mycobacterium tuberculosis immunology, Pregnancy, Pregnancy Complications, Infectious immunology, Pregnancy Complications, Parasitic immunology, T-Lymphocytes immunology, Tuberculosis epidemiology, Adaptive Immunity physiology, Helminthiasis immunology, Helminths immunology, Tuberculosis immunology

Published

2015

36. Different HIV pox viral vector-based vaccines and adjuvants can induce unique antigen presenting cells that modulate CD8 T cell avidity.

Author

Trivedi S, Jackson RJ, and Ranasinghe C

Subjects

AIDS Vaccines administration & dosage, Adoptive Transfer, Animals, Antigens, CD, CD11b Antigen, Female, Integrin alpha Chains, Interleukin-13 genetics, Interleukin-13 metabolism, Lung immunology, Mice, Mice, Inbred BALB C, Mice, Knockout, Receptors, Interleukin-4, Type II immunology, Respiratory Mucosa cytology, Respiratory Mucosa immunology, AIDS Vaccines immunology, Adjuvants, Immunologic pharmacology, Antigen-Presenting Cells physiology, CD8-Positive T-Lymphocytes physiology

Abstract

The lung-derived dendritic cell (LDC) recruitment following intranasal (i.n.) vaccination of different poxviral vector-based vaccines/adjuvants were evaluated to decipher how these factors influenced CD8(+) T cell avidity. Compared to the standard i.n. recombinant fowlpox virus (FPV)-HIV vaccination, the FPV-HIV IL-13Rα2 or IL-4Rα antagonist adjuvanted vaccines that induced higher avidity CD8(+) T cells, also recruited significantly elevated MHCII(+) CD11c(+) CD11b(+) CD103(-) CD64(-) MAR-1(-) conventional DC (cDCs) to the lung mucosae (hierarchy: IL-4R antagonist>IL-13Rα2>unadjuvanted). In contrast, elevated CD11b(-) CD103(+) LDCs were detected in animals that received recombinant HIV vaccinia virus (rVV) or Modified Vaccinia Ankara virus (MVA) vector-based vaccines. Adoptive transfer studies indicated that CD11b(-) CD103(+) LDCs significantly dampened HIV-specific CD8(+) T cell avidity compared to CD11b(+) CD103(-) LDCs. Collectively; our observations revealed that rFPV vector prime and transient inhibition of IL-4/IL-13 at the vaccination site favoured the recruitment of unique LDCs, associated with the induction of high quality immunity., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2014

37. Immunomodulatory glycan lacto-N-fucopentaose III requires clathrin-mediated endocytosis to induce alternative activation of antigen-presenting cells.

Author

Srivastava L, Tundup S, Choi BS, Norberg T, and Harn D

Subjects

Amino Sugars metabolism, Animals, Antigens, Helminth, CD4-Positive T-Lymphocytes, Cell Adhesion Molecules genetics, Cell Adhesion Molecules metabolism, Cell Line, Coculture Techniques, Dendritic Cells, Gene Expression Regulation, Gene Knockdown Techniques, Lectins, C-Type genetics, Lectins, C-Type metabolism, Macrophages, Mice, Polysaccharides metabolism, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Amino Sugars immunology, Antigen-Presenting Cells physiology, Clathrin metabolism, Endocytosis physiology, Polysaccharides immunology, Schistosoma mansoni metabolism

Abstract

The mechanism of alternative activation of antigen-presenting cells (APCs) is largely unknown. Lacto-N-fucopentaose III (LNFPIII) is a biologically conserved pentasaccharide that contains the Lewis(x) trisaccharide. LNFPIII conjugates and schistosome egg antigens, which contain the Lewis(x) trisaccharide, drive alternative activation of APCs and induce anti-inflammatory responses in vivo, preventing inflammation-based diseases, including psoriasis, transplant organ rejection, and metabolic disease. In this study, we show that LNFPIII conjugates and schistosome egg antigens interact with APCs via a receptor-mediated process, requiring internalization of these molecules through a clathrin/dynamin-dependent but caveolus-independent endocytic pathway. Using inhibitors/small interfering RNA (siRNA) against dynamin and clathrin, we show for the first time that endocytosis of Lewis(x)-containing glycans is required to drive alternative maturation of antigen-presenting cells and Th2 immune responses. We identified mouse SIGNR-1 as a cell surface receptor for LNFPIII conjugates. Elimination of SIGNR-1 showed no effect on uptake of LNFPIII conjugates, suggesting that other receptors bind to and facilitate uptake of LNFPIII conjugates. We demonstrate that disruption of actin filaments partially prevented the entry of LNFPIII conjugates into APCs and that LNFPIII colocalizes with both early and late endosomal markers and follows the classical endosomal pathway leading to lysosome maturation. The results of this study show that the ability of LNFPIII to induce alternative activation utilizes a receptor-mediated process that requires a dynamin-dependent endocytosis. Thus, key steps have been defined in the previously unknown mechanism of alternative activation that ultimately leads to induction of anti-inflammatory responses.

Published

2014

38. Distinct structural and catalytic roles for Zap70 in formation of the immunological synapse in CTL.

Author

Jenkins MR, Stinchcombe JC, Au-Yeung BB, Asano Y, Ritter AT, Weiss A, and Griffiths GM

Subjects

Actins metabolism, Animals, Cell Membrane metabolism, Gene Knockdown Techniques, Mice, Inbred BALB C, T-Lymphocytes, Cytotoxic enzymology, ZAP-70 Protein-Tyrosine Kinase antagonists & inhibitors, Antigen-Presenting Cells physiology, Immunological Synapses metabolism, T-Lymphocytes, Cytotoxic physiology, ZAP-70 Protein-Tyrosine Kinase metabolism

Abstract

T cell receptor (TCR) activation leads to a dramatic reorganisation of both membranes and receptors as the immunological synapse forms. Using a genetic model to rapidly inhibit Zap70 catalytic activity we examined synapse formation between cytotoxic T lymphocytes and their targets. In the absence of Zap70 catalytic activity Vav-1 activation occurs and synapse formation is arrested at a stage with actin and integrin rich interdigitations forming the interface between the two cells. The membranes at the synapse are unable to flatten to provide extended contact, and Lck does not cluster to form the central supramolecular activation cluster (cSMAC). Centrosome polarisation is initiated but aborts before reaching the synapse and the granules do not polarise. Our findings reveal distinct roles for Zap70 as a structural protein regulating integrin-mediated control of actin vs its catalytic activity that regulates TCR-mediated control of actin and membrane remodelling during formation of the immunological synapse. DOI: http://dx.doi.org/10.7554/eLife.01310.001.

Published

2014

39. Antigen-presenting cells are stratified within normal human corneas and are rapidly mobilized during ex vivo viral infection.

Author

Knickelbein JE, Buela KA, and Hendricks RL

Subjects

Adult, Aged, Antigens, CD metabolism, CD11c Antigen metabolism, Flow Cytometry, Histocompatibility Antigens Class II metabolism, Humans, Lectins, C-Type metabolism, Mannose-Binding Lectins metabolism, Microscopy, Confocal, Middle Aged, Phenotype, Tissue Donors, Young Adult, Antigen-Presenting Cells physiology, Cornea immunology, Herpesvirus 1, Human physiology, Keratitis, Herpetic immunology

Abstract

Purpose: To define the phenotype and location of antigen-presenting cells (APCs) in normal donor human corneas, and to assess the response of APC to herpes simplex virus type 1 (HSV-1) infection., Methods: Donor human corneal tissue was analyzed by fluorescence confocal microscopy and flow cytometry to determine the phenotype and location of tissue-resident APCs. Confocal fluorescence microscopy was also utilized to investigate the response of corneal resident APCs to ex vivo infection with HSV-1., Results: CD11c(+) dendritic cells (DCs) and CD207(+) Langerhans cells (LCs) were situated predominantly in the basal epithelium and CD68(+) macrophages in the anterior stroma of human corneas. The majority of DCs expressed major histocompatibility complex class II. Corneal resident APCs colocalized with HSV-1-infected corneal cells within 8 to 16 hours of ex vivo infection., Conclusions: The stratification of APCs found in human corneas is very similar to that previously reported in mice, confirming the relevance of murine models for the study of corneal APCs. Furthermore, corneal resident APCs are capable of rapidly mobilizing to the site of trauma and HSV-1 infection within the cornea.

Published

2014

40. Dually fluorescent core-shell microgels for ratiometric imaging in live antigen-presenting cells.

Author

Zhou X, Su F, Tian Y, and Meldrum DR

Subjects

Acrylic Resins administration & dosage, Acrylic Resins chemistry, Acrylic Resins metabolism, Animals, Antigen-Presenting Cells metabolism, Biocompatible Materials administration & dosage, Biocompatible Materials chemistry, Biocompatible Materials metabolism, Cell Line, Cytosol metabolism, Fluorescence, Gels chemistry, Gels metabolism, Lysosomes metabolism, Macrophages metabolism, Macrophages physiology, Mice, Polymerization, Temperature, Antigen-Presenting Cells physiology, Gels administration & dosage, Molecular Imaging methods

Abstract

Core-shell microgels containing sensors/dyes in a matrix were fabricated by two-stage free radical precipitation polymerization method for ratiometric sensing/imaging. The microgels composing of poly(N-isopropylacrylamide) (PNIPAm) shell exhibits a low critical solution temperature (LCST), underwent an entropically driven transition from a swollen state to a deswollen state, which exhibit a hydrodynamic radius of ∼ 450 nm at 25 °C (in vitro) and ∼ 190 nm at 37 °C (in vivo). The microgel's ability of escaping from lysosome into cytosol makes the microgel be a potential candidate for cytosolic delivery of sensors/probes. Non-invasive imaging/sensing in Antigen-presenting cells (APCs) was feasible by monitoring the changes of fluorescence intensity ratios. Thus, these biocompatible microgels-based imaging/sensing agents may be expected to expand current molecular imaging/sensing techniques into methods applicable to studies in vivo, which could further drive APC-based treatments.

Published

2014

41. CC chemokine receptor 8 potentiates donor Treg survival and is critical for the prevention of murine graft-versus-host disease.

Author

Coghill JM, Fowler KA, West ML, Fulton LM, van Deventer H, McKinnon KP, Vincent BG, Lin K, Panoskaltsis-Mortari A, Cook DN, Blazar BR, and Serody JS

Subjects

Animals, Antigen-Presenting Cells immunology, Antigen-Presenting Cells metabolism, Antigen-Presenting Cells physiology, CD11c Antigen metabolism, Cell Survival genetics, Cell Survival immunology, Cells, Cultured, Graft Survival genetics, Graft Survival immunology, Graft vs Host Disease immunology, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Mice, Transgenic, Receptors, CCR8 genetics, Receptors, CCR8 metabolism, T-Lymphocytes, Regulatory metabolism, Tissue Donors, Graft vs Host Disease genetics, Graft vs Host Disease prevention & control, Receptors, CCR8 physiology, T-Lymphocytes, Regulatory physiology

Abstract

The infusion of donor regulatory T cells (Tregs) has been used to prevent acute graft-versus-host disease (GVHD) in mice and has shown promise in phase 1 clinical trials. Previous work suggested that early Treg migration into lymphoid tissue was important for GVHD prevention. However, it is unclear how and where Tregs function longitudinally to affect GVHD. To better understand their mechanism of action, we studied 2 Treg-associated chemokine receptors in murine stem cell transplant models. CC chemokine receptor (CCR) 4 was dispensable for donor Treg function in the transplant setting. Donor Tregs lacking CCR8 (CCR8(-/-)), however, were severely impaired in their ability to prevent lethal GVHD because of increased cell death. By itself, CCR8 stimulation was unable to rescue Tregs from apoptosis. Instead, CCR8 potentiated Treg survival by promoting critical interactions with dendritic cells. In vivo, donor bone marrow-derived CD11c(+) antigen-presenting cells (APCs) were important for promoting donor Treg maintenance after transplant. In contrast, host CD11c(+) APCs appeared to be dispensable for early activation and expansion of donor Tregs. Collectively, our data indicate that a sustained donor Treg presence is critical for their beneficial properties, and that their survival depends on CCR8 and donor but not host CD11c(+) APCs.

Published

2013

42. Naive B-cell trafficking is shaped by local chemokine availability and LFA-1-independent stromal interactions.

Author

Coelho FM, Natale D, Soriano SF, Hons M, Swoger J, Mayer J, Danuser R, Scandella E, Pieczyk M, Zerwes HG, Junt T, Sailer AW, Ludewig B, Sharpe J, Figge MT, and Stein JV

Subjects

Animals, Antigen-Presenting Cells immunology, Antigen-Presenting Cells physiology, B-Lymphocytes drug effects, B-Lymphocytes metabolism, Cell Communication drug effects, Chemokines metabolism, Chemokines pharmacology, Chemotaxis, Leukocyte drug effects, Female, Gene Deletion, Lymphocyte Function-Associated Antigen-1 physiology, Lymphoid Tissue cytology, Lymphoid Tissue immunology, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Receptors, CCR7 genetics, Receptors, CCR7 metabolism, Receptors, CXCR4 genetics, Receptors, CXCR4 metabolism, Receptors, CXCR5 genetics, Receptors, CXCR5 metabolism, Stromal Cells metabolism, B-Lymphocytes physiology, Cell Communication physiology, Chemokines physiology, Chemotaxis, Leukocyte genetics, Lymphocyte Function-Associated Antigen-1 metabolism, Receptors, CCR7 physiology, Receptors, CXCR4 physiology, Receptors, CXCR5 physiology, Stromal Cells physiology

Abstract

It is not known how naive B cells compute divergent chemoattractant signals of the T-cell area and B-cell follicles during in vivo migration. Here, we used two-photon microscopy of peripheral lymph nodes (PLNs) to analyze the prototype G-protein-coupled receptors (GPCRs) CXCR4, CXCR5, and CCR7 during B-cell migration, as well as the integrin LFA-1 for stromal guidance. CXCR4 and CCR7 did not influence parenchymal B-cell motility and distribution, despite their role during B-cell arrest in venules. In contrast, CXCR5 played a nonredundant role in B-cell motility in follicles and in the T-cell area. B-cell migration in the T-cell area followed a random guided walk model, arguing against directed migration in vivo. LFA-1, but not α4 integrins, contributed to B-cell motility in PLNs. However, stromal network guidance was LFA-1 independent, uncoupling integrin-dependent migration from stromal attachment. Finally, we observed that despite a 20-fold reduction of chemokine expression in virus-challenged PLNs, CXCR5 remained essential for B-cell screening of antigen-presenting cells. Our data provide an overview of the contribution of prototype GPCRs and integrins during naive B-cell migration and shed light on the local chemokine availability that these cells compute.

Published

2013

43. Tat engagement of p38 MAP kinase and IRF7 pathways leads to activation of interferon-stimulated genes in antigen-presenting cells.

Author

Kim N, Kukkonen S, Martinez-Viedma Mdel P, Gupta S, and Aldovini A

Subjects

Antigen-Presenting Cells immunology, Antigen-Presenting Cells physiology, Cells, Cultured, Chemokines genetics, Chemokines metabolism, Gene Products, tat physiology, HIV Infections genetics, HIV Infections immunology, HIV-1 physiology, Humans, Interferon Regulatory Factor-7 metabolism, Interferon Regulatory Factor-7 physiology, Lymphocyte Activation drug effects, Lymphocyte Activation genetics, MAP Kinase Kinase 3 metabolism, MAP Kinase Kinase 6 metabolism, Protein Binding, Receptors, Chemokine genetics, Receptors, Chemokine metabolism, Signal Transduction genetics, Signal Transduction physiology, Up-Regulation drug effects, Up-Regulation genetics, p38 Mitogen-Activated Protein Kinases genetics, p38 Mitogen-Activated Protein Kinases physiology, Antigen-Presenting Cells metabolism, Gene Products, tat metabolism, Interferon Regulatory Factor-7 genetics, Interferons pharmacology, MAP Kinase Kinase 3 genetics, MAP Kinase Kinase 6 genetics, Promoter Regions, Genetic, p38 Mitogen-Activated Protein Kinases metabolism

Abstract

As a result of its interaction with transcription factors, HIV type 1 (HIV-1) Tat can modulate the expression of both HIV and cellular genes. In antigen-presenting cells Tat induces the expression of a subset of interferon (IFN)-stimulated genes (ISGs) in the absence of IFNs. We investigated the genome-wide Tat association with promoters in immature dendritic cells and in monocyte-derived macrophages. Among others, Tat associated with the MAP2K6, MAP2K3, and IRF7 promoters that are functionally part of IL-1 and p38 mitogen-activated protein kinase (MAPK) signaling pathways. The association correlated with their increased gene expression, increased activation of p38 MAPK and of phosphorylated signal transducer and activator of transcription 1 (STAT1), and consequent induction of ISGs. Probing these pathways with RNA interference, pharmacological p38 MAPK inhibition, and in cell lines lacking STAT1s or the type I IFN receptor chain confirmed the role of MAPKKs and IRF7 in Tat-mediated modulation of ISGs and excluded the involvement of IFNs in this modulation. Tat interaction with the 2 MAPKK and IRF7 promoters in HIV-1-infected cells and the resulting persistent activation of ISGs, which include inflammatory cytokines and chemokines, can contribute to the increased immune activation that characterizes HIV infection.

Published

2013

44. A potential role for dendritic cell/macrophage-expressing DPP4 in obesity-induced visceral inflammation.

Author

Zhong J, Rao X, Deiuliis J, Braunstein Z, Narula V, Hazey J, Mikami D, Needleman B, Satoskar AR, and Rajagopalan S

Subjects

Adenosine Deaminase metabolism, Animals, Antigen-Presenting Cells physiology, Dipeptidyl-Peptidase IV Inhibitors pharmacology, Humans, Lymphocyte Activation, Mice, Mice, Inbred C57BL, T-Lymphocytes immunology, Dendritic Cells physiology, Dipeptidyl Peptidase 4 physiology, Inflammation etiology, Intra-Abdominal Fat pathology, Macrophages physiology, Obesity complications

Abstract

Dipeptidyl peptidase-4 (DDP4) inhibitors target the enzymatic degradation of incretin peptides and represent a major advance in the treatment of type 2 diabetes. DPP4 has a number of nonenzymatic functions that involve its interaction with adenosine deaminase (ADA) and other extracellular matrix proteins. Here, we assessed the nonenzymatic role of DPP4 in regulating dendritic cell (DC)/macrophage-mediated adipose inflammation in obesity. Both obese humans and rodents demonstrated increased levels of DPP4 expression in DC/macrophage cell populations from visceral adipose tissue (VAT). The DPP4 expression increased during monocyte differentiation to DC/macrophages and with lipopolysaccharide (LPS)-induced activation of DC/macrophages. The DPP4 colocalized with membrane-bound ADA on human DCs and enhanced the ability of the latter to stimulate T-cell proliferation. The DPP4 interaction with ADA in human DC/macrophages was competitively inhibited by the addition of exogenous soluble DPP4. Knockdown of DPP4 in human DCs, but not pharmacologic inhibition of their enzymatic function, significantly attenuated the ability to activate T cells without influencing its capacity to secrete proinflammatory cytokines. The nonenzymatic function of DPP4 on DC may play a role in potentiation of inflammation in obesity by interacting with ADA. These findings suggest a novel role for the paracrine regulation of inflammation in adipose tissue by DPP4.

Published

2013

45. Elucidating the regulation of T cell subsets (review).

Author

Kitagishi Y, Kobayashi M, Yamashina Y, and Matsuda S

Subjects

Antigen-Presenting Cells physiology, Cell Differentiation, Cytokines physiology, Epigenesis, Genetic, Genes, MHC Class II, Humans, Immunity, Cellular, Signal Transduction, CD4-Positive T-Lymphocytes physiology, T-Lymphocyte Subsets physiology

Abstract

CD4-positive T lymphocytes mainly direct immune as well as autoimmune responses against a variety of pathogens or allergens. This is achieved through the acquisition of specialized functions followed by differentiation into various T cell subsets. The differentiation process of naive T cells into effector subsets is regulated by dendritic cells and secreted cytokines. Signal transducer and activator of transcription proteins play critical roles in transmitting cytokine-mediated signals and specifying T cell differentiation. Epigenetic changes such as histone acetylation and methylation along with DNA methylation also regulate expression of differentiation-specific genes. Defining exactly how extrinsic signals control the specification of T cells will provide important insights and therapeutic opportunities.

Published

2012

46. Intravenous mesenchymal stem cells prevented rejection of allogeneic corneal transplants by aborting the early inflammatory response.

Author

Oh JY, Lee RH, Yu JM, Ko JH, Lee HJ, Ko AY, Roddy GW, and Prockop DJ

Subjects

Administration, Intravenous, Animals, Anti-Inflammatory Agents administration & dosage, Antigen-Presenting Cells immunology, Antigen-Presenting Cells physiology, Cell Adhesion Molecules administration & dosage, Cell Adhesion Molecules genetics, Cell Adhesion Molecules metabolism, Cells, Cultured, Cornea immunology, Cornea metabolism, Cornea pathology, Female, Gene Knockdown Techniques, Graft Rejection immunology, Histocompatibility Antigens Class II metabolism, Humans, Inflammation Mediators metabolism, Lung immunology, Lung pathology, Lymph Nodes immunology, Lymph Nodes pathology, Macrophages immunology, Macrophages metabolism, Mesenchymal Stem Cells metabolism, Mice, Mice, Inbred C57BL, NF-kappa B metabolism, RNA, Small Interfering genetics, Signal Transduction, Transcriptome, Transplantation, Homologous, Corneal Transplantation methods, Graft Rejection prevention & control, Mesenchymal Stem Cell Transplantation

Abstract

Mesenchymal stem/progenitor cells (MSCs) were reported to enhance the survival of cellular and organ transplants. However, their mode of action was not established. We here used a mouse model of corneal allotransplantation and demonstrated that peri-transplant intravenous (i.v.) infusion of human MSCs (hMSCs) decreased the early surgically induced inflammation and reduced the activation of antigen-presenting cells (APCs) in the cornea and draining lymph nodes (DLNs). Subsequently, immune rejection was decreased, and allograft survival was prolonged. Quantitative assays for human GAPDH revealed that <10 hMSCs out of 1 × 10(6) injected cells were recovered in the cornea 10 hours to 28 days after i.v. infusion. Most of hMSCs were trapped in lungs where they were activated to increase expression of the gene for a multifunctional anti-inflammatory protein tumor necrosis factor-α stimulated gene/protein 6 (TSG-6). i.v. hMSCs with a knockdown of TSG-6 did not suppress the early inflammation and failed to prolong the allograft survival. Also, i.v. infusion of recombinant TSG-6 reproduced the effects of hMSCs. Results suggest that hMSCs improve the survival of corneal allografts without engraftment and primarily by secreting TSG-6 that acts by aborting early inflammatory responses. The same mechanism may explain previous reports that MSCs decrease rejection of other organ transplants.

Published

2012

47. Dynamic T cell-APC interactions sustain chronic inflammation in atherosclerosis.

Author

Koltsova EK, Garcia Z, Chodaczek G, Landau M, McArdle S, Scott SR, von Vietinghoff S, Galkina E, Miller YI, Acton ST, and Ley K

Subjects

Adventitia metabolism, Adventitia pathology, Animals, Antigen-Presenting Cells immunology, Antigen-Presenting Cells physiology, Aorta immunology, Aorta metabolism, Aorta pathology, Apolipoproteins E deficiency, Apolipoproteins E genetics, Atherosclerosis immunology, CD11 Antigens metabolism, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes physiology, Cell Movement, Cell Proliferation, Cell Tracking, Cells, Cultured, Coculture Techniques, Cytokines metabolism, Dendritic Cells immunology, Dendritic Cells metabolism, Dendritic Cells physiology, Diet, High-Fat, Female, Leukocyte Common Antigens metabolism, Lipoproteins, LDL metabolism, Macrophages immunology, Macrophages metabolism, Macrophages physiology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Plaque, Atherosclerotic pathology, Tissue Culture Techniques, Vasculitis immunology, Antigen-Presenting Cells metabolism, Atherosclerosis pathology, CD4-Positive T-Lymphocytes metabolism, Cell Communication, Vasculitis pathology

Abstract

Atherosclerosis is a chronic inflammatory disease of large and medium-sized arteries characterized by leukocyte accumulation in the vessel wall. Both innate and adaptive immune responses contribute to atherogenesis, but the identity of atherosclerosis-relevant antigens and the role of antigen presentation in this disease remain poorly characterized. We developed live-cell imaging of explanted aortas to compare the behavior and role of APCs in normal and atherosclerotic mice. We found that CD4+ T cells were capable of interacting with fluorescently labeled (CD11c-YFP+) APCs in the aortic wall in the presence, but not the absence, of cognate antigen. In atherosclerosis-prone Apoe-/-CD11c-YFP+ mice, APCs extensively interacted with CD4+ T cells in the aorta, leading to cell activation and proliferation as well as secretion of IFN-γ and TNF-α. These cytokines enhanced uptake of oxidized and minimally modified LDL by macrophages. We conclude that antigen presentation by APCs to CD4+ T cells in the arterial wall causes local T cell activation and production of proinflammatory cytokines, which promote atherosclerosis by maintaining chronic inflammation and inducing foam cell formation.

Published

2012

48. Intestinal epithelial cells modulate antigen-presenting cell responses to bacterial DNA.

Author

Campeau JL, Salim SY, Albert EJ, Hotte N, and Madsen KL

Subjects

Animals, Bifidobacterium immunology, CD4-Positive T-Lymphocytes, Cell Line, Coculture Techniques, Culture Media, Conditioned, Cytokines genetics, Cytokines metabolism, Gene Expression Regulation physiology, Inflammation microbiology, Mice, Salmonella Infections, Animal microbiology, Salmonella enterica immunology, Antigen-Presenting Cells physiology, Bifidobacterium genetics, DNA, Bacterial immunology, Epithelial Cells physiology, Intestinal Mucosa cytology, Salmonella enterica genetics

Abstract

Intestinal epithelial cells and antigen-presenting cells orchestrate mucosal innate immunity. This study investigated the role of bacterial DNA in modulating epithelial and bone marrow-derived antigen-presenting cells (BM-APCs) and subsequent T-lymphocyte responses. Murine MODE-K epithelial cells and BM-APCs were treated with DNA from either Bifidobacterium breve or Salmonella enterica serovar Dublin directly and under coculture conditions with CD4(+) T cells. Apical stimulation of MODE-K cells with S. Dublin DNA enhanced secretion of cytokines from underlying BM-APCs and induced interleukin-17 (IL-17) and gamma interferon (IFN-γ) secretion from CD4(+) T cells. Bacterial DNA isolated from either strain induced maturation and increased cytokine secretion from BM-APCs. Conditioned medium from S. Dublin-treated MODE-K cells elicited an increase in cytokine secretion similar to that seen for S. Dublin DNA. Treatment of conditioned medium from MODE-K cells with RNase and protease prevented the S. Dublin-induced increased cytokine secretion. Oral feeding of mice with B. breve DNA resulted in enhanced levels of colonic IL-10 and transforming growth factor β (TGFβ) compared with what was seen for mice treated with S. Dublin DNA. In contrast, feeding mice with S. Dublin DNA increased levels of colonic IL-17 and IL-12p70. T cells from S. Dublin DNA-treated mice secreted high levels of IL-12 and IFN-γ compared to controls and B. breve DNA-treated mice. These results demonstrate that intestinal epithelial cells are able to modulate subsequent antigen-presenting and T-cell responses to bacterial DNA with pathogenic but not commensal bacterial DNA inducing effector CD4(+) T lymphocytes.

Published

2012

49. Probiotic metabolites from Bacillus coagulans GanedenBC30™ support maturation of antigen-presenting cells in vitro.

Author

Benson KF, Redman KA, Carter SG, Keller D, Farmer S, Endres JR, and Jensen GS

Subjects

Adult, Antigen-Presenting Cells physiology, B7-1 Antigen analysis, B7-2 Antigen analysis, Cell Differentiation drug effects, GPI-Linked Proteins analysis, Humans, Lipopolysaccharide Receptors analysis, Middle Aged, Phagocytes cytology, Phagocytes drug effects, Probiotics metabolism, Receptors, IgG analysis, Antigen-Presenting Cells drug effects, Bacillus metabolism, Probiotics pharmacology

Abstract

Aim: To study the effects of probiotic metabolites on maturation stage of antigen-presenting immune cells., Methods: Ganeden Bacillus coagulans 30 (GBC30) bacterial cultures in log phase were used to isolate the secreted metabolite (MET) fraction. A second fraction was made to generate a crude cell-wall-enriched fraction, by centrifugation and lysis, followed by washing. A preparation of MET was subjected to size exclusion centrifugation, generating three fractions: < 3 kDa, 3-30 kDa, and 30-200 kDa and activities were tested in comparison to crude MET and cell wall in primary cultures of human peripheral blood mononuclear cell (PBMC) as a source of antigen-presenting mononuclear phagocytes. The maturation status of mononuclear phagocytes was evaluated by staining with monoclonal antibodies towards CD14, CD16, CD80 and CD86 and analyzed by flow cytometry., Results: Treatment of PBMC with MET supported maturation of mononuclear phagocytes toward both macrophage and dendritic cell phenotypes. The biological activity unique to the metabolites included a reduction of CD14+ CD16+ pro-inflammatory cells, and this property was associated with the high molecular weight metabolite fraction. Changes were also seen for the dendritic cell maturation markers CD80 and CD86. On CD14(dim) cells, an increase in both CD80 and CD86 expression was seen, in contrast to a selective increase in CD86 expression on CD14(bright) cells. The co-expression of CD80 and CD86 indicates effective antigen presentation to T cells and support of T helper cell differentiation. The selective expression of CD86 in the absence of CD80 points to a role in generating T regulatory cells., Conclusion: The data show that a primary mechanism of action of GBC30 metabolites involves support of more mature phenotypes of antigen-presenting cells, important for immunological decision-making.

Published

2012

50. Association of syntenin-1 with M-RIP polarizes Rac-1 activation during chemotaxis and immune interactions.

Author

Sala-Valdés M, Gordón-Alonso M, Tejera E, Ibáñez A, Cabrero JR, Ursa A, Mittelbrunn M, Lozano F, Sánchez-Madrid F, and Yáñez-Mó M

Subjects

Actins biosynthesis, Antigen-Presenting Cells immunology, Antigen-Presenting Cells physiology, Cell Line, Cell Polarity, Humans, Phosphorylation, RNA Interference, RNA, Small Interfering, Signal Transduction, Syntenins genetics, src-Family Kinases metabolism, Adaptor Proteins, Signal Transducing metabolism, Chemotaxis, Leukocyte, Syntenins metabolism, T-Lymphocytes immunology, T-Lymphocytes physiology, rac1 GTP-Binding Protein metabolism

Abstract

In this study, we describe that the PDZ protein syntenin-1 is a crucial element for the generation of signaling asymmetry during the cellular response to polarized extracellular cues. We analyze the role of syntenin-1 in the control of asymmetry in two independent models of T cell polarization--the migratory response to chemoattractants and the establishment of cognate interactions between T cells and antigen-presenting cells (APCs). A combination of mutant, biochemical and siRNA approaches demonstrate that syntenin-1 is vital for the generation of polarized actin structures such as the leading edge and the contact zone with APCs. We found that the mechanism by which syntenin-1 controls actin polymerization relies on its mandatory role for activation of the small GTPase Rac. Syntenin-1 controls Rac through a specific association with the myosin phosphatase Rho interacting protein (M-RIP), which occurs in response to phosphorylation of syntenin-1 by Src at Tyr4. Our data indicate the key role of syntenin-1 in the generation of functional asymmetry in T cells and provide a novel mechanistic link between receptor activation and actin polymerization and accumulation in response to extracellular stimulation.

Published

2012