1,535 results
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2. research paper Diffuse large B-cell lymphoma: clinical implications of extranodal versus nodal presentation – a population-based study of 1575 cases.
- Author
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Møller, Michael B., Pedersen, Niels T., and Christensen, Bjarne E.
- Subjects
- *
B cell lymphoma , *LYMPHOMAS , *ANTIGEN presenting cells , *PROGNOSIS , *IMMUNOCOMPETENT cells , *HEMATOLOGY - Abstract
Differences in genetic origin between nodal and extranodal diffuse large B-cell lymphomas (DLBCL) exist. Using population-based data from the registry of the Danish Lymphoma Group, the present study is the first to analyse clinical implications of nodal versus extranodal presentation of DLBCL. Of 4786 newly diagnosed non-Hodgkin's lymphoma patients in a 16-year period, 1575 (33%) had DLBCL. The annual incidence rate was 2·9 per 100 000; 40% were extranodal. The clinical profile of patients with extranodal DLBCL was different from the nodal DLBCL patients. Extranodal DLBCL was associated with older age and poorer performance score, but also lower tumour burden. In extranodal DLBCL, 51% of the cases were stage I and 36% were stage IV, whereas the patients were relatively equally distributed between the four stages in nodal DLBCL. For stage I patients, extranodal DLBCL was independently associated with poor survival ( P = 0·003). In contrast, among stage IV patients those with extranodal DLBCL survived longer ( P = 0·009). We conclude that there are important clinical differences between nodal and extranodal DLBCL. The addition of these clinical results to the existing aetiological and genetic data suggests that the distinction between nodal and extranodal DLBCL is not only pathogenetically but also clinically important. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
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3. Molecular Characteristics, Functional Definitions, and Regulatory Mechanisms for Cross-Presentation Mediated by the Major Histocompatibility Complex: A Comprehensive Review.
- Author
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Liu, Sen, Wei, Shaoqiang, Sun, Yan, Xu, Guowei, Zhang, Shidong, and Li, Jianxi
- Subjects
MAJOR histocompatibility complex ,CELL surface antigens ,T cell receptors ,T cells ,ANTIGEN presenting cells ,IMMUNE response - Abstract
The major histocompatibility complexes of vertebrates play a key role in the immune response. Antigen-presenting cells are loaded on MHC I molecules, which mainly present endogenous antigens; when MHC I presents exogenous antigens, this is called cross-presentation. The discovery of cross-presentation provides an important theoretical basis for the study of exogenous antigens. Cross-presentation is a complex process in which MHC I molecules present antigens to the cell surface to activate CD8
+ T lymphocytes. The process of cross-representation includes many components, and this article briefly outlines the origins and development of MHC molecules, gene structures, functions, and their classical presentation pathways. The cross-presentation pathways of MHC I molecules, the cell lines that support cross-presentation, and the mechanisms of MHC I molecular transporting are all reviewed. After more than 40 years of research, the specific mechanism of cross-presentation is still unclear. In this paper, we summarize cross-presentation and anticipate the research and development prospects for cross-presentation. [ABSTRACT FROM AUTHOR]- Published
- 2024
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4. Functional Potassium Channels in Macrophages.
- Author
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Man, Qiaoyan, Gao, Zhe, and Chen, Kuihao
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POTASSIUM channels ,CALCIUM channels ,ANTIGEN presenting cells ,MACROPHAGES ,ION channels ,CELL morphology ,NATURAL immunity - Abstract
Macrophages are the predominant component of innate immunity, which is an important protective barrier of our body. Macrophages are present in all organs and tissues of the body, their main functions include immune surveillance, bacterial killing, tissue remodeling and repair, and clearance of cell debris. In addition, macrophages can present antigens to T cells and facilitate inflammatory response by releasing cytokines. Macrophages are of high concern due to their crucial roles in multiple physiological processes. In recent years, new advances are emerging after great efforts have been made to explore the mechanisms of macrophage activation. Ion channel is a class of multimeric transmembrane protein that allows specific ions to go through cell membrane. The flow of ions through ion channel between inside and outside of cell membrane is required for maintaining cell morphology and intracellular signal transduction. Expressions of various ion channels in macrophages have been detected. The roles of ion channels in macrophage activation are gradually caught attention. K
+ channels are the most studied channels in immune system. However, very few of published papers reviewed the studies of K+ channels on macrophages. Here, we will review the four types of K+ channels that are expressed in macrophages: voltage-gated K+ channel, calcium-activated K+ channel, inwardly rectifying K+ channel and two-pore domain K+ channel. [ABSTRACT FROM AUTHOR]- Published
- 2023
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5. Microfluidic on-demand engineering of exosomes towards cancer immunotherapy.
- Author
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Zhao, Zheng, McGill, Jodi, Gamero-Kubota, Pamela, and He, Mei
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EXOSOMES ,CANCER immunotherapy ,ANTIGEN presenting cells ,TUMOR antigens ,TRANSGENIC mice ,TUMOR proteins - Abstract
Extracellular vesicles (EVs), particularly exosomes (30–150 nm), are an emerging delivery system in mediating cellular communications, which have been observed for priming immune responses by presenting parent cell signaling proteins or tumor antigens to immune cells. Therefore, preparation of antigenic exosomes that can play therapeutic roles, particularly in cancer immunotherapy, is emerging. However, standard benchtop methods (e.g., ultracentrifugation and filtration) lack the ability to purify antigenic exosomes specifically among other microvesicle subtypes, due to the non-selective and time-consuming (>10 h) isolation protocols. Exosome engineering approaches, such as the transfection of parent cells, also suffer from poor yields, low purity, and time-consuming operations. In this paper, we introduce a streamlined microfluidic cell culture platform for integration of harvesting, antigenic modification, and photo-release of surface engineered exosomes in one workflow, which enables the production of intact, MHC peptide surface engineered exosomes for cytolysis activation. A PDMS microfluidic cell culture chip is simply cast from a 3D-printed mold. This proof-of-concept study demonstrated the enhanced ability of harvested exosomes in antigen presentation and T cell activation, by decorating melanoma tumor peptides on the exosome surface (e.g., gp-100, MART-1, and MAGE-A3). Such surface engineered antigenic exosomes were harvested in real-time from the on-chip culture of leukocytes isolated from human blood, leading to much faster cellular uptake. The activation of gp100-specific CD8 T cells which were purified from the spleen of 2 Pmel1 transgenic mice was evaluated using surface engineered exosomes prepared from murine antigen presenting cells. Antigen-specific CD8 T cell proliferation was significantly induced by the engineered exosomes compared to that by native, non-engineered exosomes. This microfluidic platform serves as an automated and highly integrated cell culture device for rapid and real-time production of therapeutic exosomes that could advance cancer immunotherapy. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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6. Extremely Rare Form of Impaction Bilateral Kissing Molars: Report of a Case and Review of the Literature.
- Author
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Zerener, Tamer, Bayar, Gurkan Rasit, Altug, Hasan Ayberk, and Kiran, Serkan
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MOLAR abnormalities ,OCCLUSAL adjustment ,FOLLICULAR dendritic cells ,ANTIGEN presenting cells ,PATHOLOGY - Abstract
Kissing molars (KM) or rosette formation is a term that is used to describe impacted teeth contacting occlusal surfaces in a single follicular space and their roots pointing in opposite directions. In some cases kissing molars can be seen but occurrence of bilateral kissing molars is extremely rare phenomenon in the dental literature and the aetiology of this phenomenon is still unknown. In this paper we describe a case and review of the literature and discuss the management of this pathology. In our case, extremely rare form of impacted bilateral kissing molars was extracted surgically. The decision of extraction of asymptomatic kissing molars represents surgical dilemma. There may be many surgical complications; on the other hand in some cases surgical intervention is unavoidable. Few treatment options were described in the literature. This phenomenon can be sign of various medical conditions that may require further investigation. In this paper, our treatment option is in agreement with the literature suggesting the surgical removal of both teeth at either side of the mandible. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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7. Understanding the complex microenvironment in oral cancer: the contribution of the Faculty of Dentistry, University of Otago over the last 100 years.
- Author
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Rich, Alison Mary, Hussaini, Haizal Mohd, Seo, Benedict, and Zain, Rosnah Bt
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EXOSOMES ,ORAL cancer ,SUPPRESSOR cells ,ANTIGEN presenting cells ,VASCULAR endothelial cells ,EXTRACELLULAR matrix - Abstract
Malignant tumour cells, including malignant keratinocytes of oral squamous cell carcinoma (OSCC), exist in conjunction with other functional cells and it is well recognised that interaction between these groups of cells is important in tumour progression. In addition to cells (tumour cells, immune/inflammatory cells, fibroblasts, vascular and lymphatic endothelial cells, adipocytes) the tumour microenvironment (TME) comprises extracellular matrix and soluble factors, signalling molecules and metabolites such as enzymes, growth factors, cytokines, microRNAs and microvesicles. Our Oral Molecular and Immunopathology Research Group has explored and examined the interactions of the immune network involved in the TME such as tumour infiltrating lymphocytes (TILs), regulatory T cells (Tregs), antigen presenting cells (APCs), associated cytokines such as IL17, IL22, IL23 and other current potential anti-cancer targets such as ER stress and exosomes. This paper will provide an overview of the history of OSCC research at the University of Otago, as well as elaborate current understanding of the TME in OSCC, based on ongoing research undertaken in the Oral Molecular and Immunopathology Research Group of the Sir John Walsh Research Institute at the Faculty of Dentistry, University of Otago. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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8. Receptor targeting drug delivery strategies and prospects in the treatment of rheumatoid arthritis.
- Author
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Emami, Jaber and Ansarypour, Zahra
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DRUG receptors ,ANTIGEN presenting cells ,RHEUMATOID arthritis ,INTEGRINS ,TARGETED drug delivery ,SYNOVIAL fluid ,PERITONEAL macrophages ,MACROPHAGES - Abstract
Rheumatoid arthritis (RA), a chronic inflammatory disease, is characterized by cartilage damage, bone tissue destruction, morphological changes in synovial fluids, and synovial joint inflammation. The inflamed synovial tissue has potential for passive and active targeting because of enhanced permeability and retention effect and the existence of RA synovial macrophages and fibroblasts that selectively express surface receptors such as folate receptor β, CD44 and integrin αVβ. Although there are numerous interventions in RA treatment, they are not safe and effective. Therefore, it is important to develop new drug or drug delivery systems that specifically targets inflamed/swollen joints but attenuates other possible damages to healthy tissues. Recently some receptors such as toll-like receptors (TLRs), the nucleotide-binding oligomerization domain-like receptors, and Fc-γ receptor have been identified in synovial tissue and immune cells that are involved in induction or suppression of arthritis. Analysis of the TLR pathway has moreover suggested new insights into the pathogenesis of RA. In the present paper, we have reviewed drug delivery strategies based on receptor targeting with novel ligand-anchored carriers exploiting CD44, folate and integrin αVβ as well as TLRs expressed on synovial monocytes and macrophages and antigen presenting cells, for possible active targeting in RA. TLRs could not only open a new horizon for developing new drugs but also their antagonists or humanized monoclonal antibodies that block TLRS specially TLR4 and TLR9 signaling could be used as targeting agents to antigen presenting cells and dendritic cells. As a conclusion, common conventional receptors and multifunctional ligands that arte involved in targeting receptors or developing nanocarriers with appropriate ligands for TLRs can provide profoundly targeting drug delivery systems for the effective treatment of RA. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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9. A simulation of the random and directed motion of dendritic cells in chemokine fields.
- Author
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Parr, Avery, Anderson, Nicholas R., and Hammer, Daniel A.
- Subjects
DENDRITIC cells ,CHEMOTAXIS ,CHEMOKINE receptors ,CELL receptors ,ANTIGEN presenting cells ,T cells ,MOTION - Abstract
Dendritic cells (DCs) are the most effective professional antigen-presenting cell. They ferry antigen from the extremities to T cells and are essential for the initiation of an adaptive immune response. Despite interest in how DCs respond to chemical stimuli, there have been few attempts to model DC migration. In this paper, we simulate the motility of DCs by modeling the generation of forces by filopodia and a force balance on the cell. The direction of fliopodial extension is coupled to differential occupancy of cognate chemokine receptors across the cell. Our model simulates chemokinesis and chemotaxis in a variety of chemical and mechanical environments. Simulated DCs undergoing chemokinesis were measured to have a speed of 5.1 ± 0.07 μm·min
-1 and a persistence time of 3.2 ± 0.46 min, consistent with experiment. Cells undergoing chemotaxis exhibited a stronger chemotactic response when exposed to lower average chemokine concentrations, also consistent with experiment. We predicted that when placed in two opposing gradients, cells will cluster in a line, which we call the “line of equistimulation;” this clustering has also been observed. We calculated the effect of varying gradient steepness on the line of equistimulation, with steeper gradients resulting in tighter clustering. Moreover, gradients are found to be most potent when cells are in a gradient of chemokine whose mean concentration is close to the binding of the Kd to the receptor, and least potent when the mean concentration is 0.1Kd . Comparing our simulations to experiment, we can give a quantitative measure of the strength of certain chemokines relative to others. Assigning the signal of CCL19 binding CCR7 a baseline strength of 1, we found CCL21 binding CCR7 had a strength of 0.28, and CXCL12 binding CXCR4 had a strength of 0.30. These differences emerge despite both chemokines having virtually the same Kd , suggesting a mechanism of signal amplification in DCs requiring further study. [ABSTRACT FROM AUTHOR]- Published
- 2019
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10. Microglial Phagocytosis of Neurons: Diminishing Neuronal Loss in Traumatic, Infectious, Inflammatory, and Autoimmune CNS Disorders.
- Author
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Yanuck, Samuel F.
- Subjects
PHAGOCYTOSIS ,ANTIGEN presenting cells ,NEURONS ,MAJOR histocompatibility complex ,BRAIN injuries - Abstract
Errors in neuron-microglial interaction are known to lead to microglial phagocytosis of live neurons and excessive neuronal loss, potentially yielding poorer clinical outcomes. Factors that affect neuron-microglial interaction have the potential to influence the error rate. Clinical comorbidities that unfavorably impact neuron-microglial interaction may promote a higher rate of neuronal loss, to the detriment of patient outcome. This paper proposes that many common, clinically modifiable comorbidities have a common thread, in that they all influence neuron-microglial interactions. Comorbidities like traumatic brain injury, infection, stress, neuroinflammation, loss of neuronal metabolic integrity, poor growth factor status, and other factors, all have the potential to alter communication between neurons and microglia. When this occurs, microglial phagocytosis of live neurons can increase. In addition, microglia can shift into a morphological form in which they express major histocompatibility complex II (MHC-II), allowing them to function as antigen presenting cells that present neuronal debris as antigen to invading T cells. This can increase risk for the development of CNS autoimmunity, or can exacerbate existing CNS autoimmunity. The detrimental influence of these comorbidities has the potential to contribute to the mosaic of factors that determine patient outcome in some CNS pathologies that have neuropsychiatric involvement, including TBI and CNS disorders with autoimmune components, where excessive neuronal loss can yield poorer clinical outcomes. Recognition of the impact of these comorbidities may contribute to an understanding of the common clinical observation that many seemingly disparate factors contribute to the overall picture of case management and clinical outcome in these complex disorders. In a clinical setting, knowing how these comorbidities can influence neuron-microglial interaction can help focus surveillance and care on a broader group of potential therapeutic targets. Accordingly, an interest in the mechanisms underlying the influence of these factors on neuron-microglial interactions is appropriate. Neuron-microglial interaction is reviewed, and the various mechanisms by which these potential comorbidities influence neuro-microglial interaction are described. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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11. Analysis of pattern formation and phase separation in the immunological synapse.
- Author
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Hori, Yuko, Raychaudhuri, Subhadip, and Chakraborty, Arup K.
- Subjects
IMMUNE response ,T cells ,ANTIGEN presenting cells - Abstract
T lymphocytes (T cells) play an important role in orchestrating an adaptive immune response in complex organisms. Recent experiments have shown that when T cells recognize antigen presenting cells, a complex and large-scale reorganization of intercellular membrane proteins and cell shape occurs. The resulting motif is implicated in information transfer between T cells and antigen presenting cells, and has been labeled the immunological synapse. Numerical solutions of a mathematical model that incorporates binding kinetics, protein mobility, and down regulation, and membrane mechanics has proven successful in describing some of these observations. In this paper, we analyze the equations that describe this model, and this sheds light on the origins of pattern formation in the immunological synapse. In particular, the thermodynamic considerations and dynamic instabilities that lead to pattern formation in and out of equilibrium are elucidated. [ABSTRACT FROM AUTHOR]
- Published
- 2002
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12. Extracellular vesicles derived from antigen-presenting cells pulsed with foot and mouth virus vaccine-antigens act as carriers of viral proteins and stimulate B cell response.
- Author
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Menay, Florencia, Cocozza, Federico, Gravisaco, Maria J., Elisei, Analia, Re, Javier Ignacio, Ferella, Alejandra, Waldner, Claudia, and Mongini, Claudia
- Abstract
Foot and mouth disease (FMD) is a highly contagious infection caused by FMDvirus (FMDV) that affects livestock worldwide with significant economic impact. The main strategy for the control is vaccination with FMDV chemically inactivated with binary ethylenimine (FMDVi). In FMDV infection and vaccination, B cell response plays a major role by providing neutralizing/protective antibodies in animal models and natural hosts. Extracellular vesicles (EVs) and small EVs (sEVs) such as exosomes are important in cellular communication. EVs secreted by antigen-presenting cells (APC) like dendritic cells (DCs) participate in the activation of B and T cells through the presentation of native antigen membrane-associated to B cells or by transferring MHC-peptide complexes to T cells and even complete antigens from DCs. In this study, we demonstrate for the first time that APC activated with the FMDVi O1 Campos vaccine-antigens secrete EVs expressing viral proteins/peptides that could stimulate FMDV-specific immune response. The secretion of EVs-FMDVi is a time-dependent process and can only be isolated within the first 24 h post-activation. These vesicles express classical EVs markers (CD9, CD81, and CD63), along with immunoregulatory molecules (MHC-II and CD86). With an average size of 155 nm, they belong to the category of EVs. Studies conducted in vitro have demonstrated that EVs-FMDVi express antigens that can stimulate a specific B cell response against FMDV, including both marginal zone B cells (MZB) and follicular B cells (FoB). These vesicles can also indirectly or directly affect T cells, indicating that they express both B and T epitopes. Additionally, lymphocyte expansion induced by EVs-FMDVi is greater in splenocytes that have previously encountered viral antigens in vivo. The present study sheds light on the role of EVs derived fromAPC in regulating the adaptive immunity against FMDV. This novel insight contributes to our current understanding of the immune mechanisms triggered by APC during the antiviral immune response. Furthermore, these findings may have practical implications for the development of new vaccine platforms, providing a rational basis for the design of more effective vaccines against FMDV and other viral diseases. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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13. Natural and revolutionary tumor-specific T-cell therapy.
- Author
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Dai, Zhi, Liu, Xue-Meng, Zhao, Yun-li, Zhao, Li-Xing, and Luo, Xiao-Dong
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CELL size ,ANTIGEN presenting cells ,TUMOR antigens ,CANCER cells ,CELL separation ,T cells - Abstract
Recently the FDA conducted a risk investigation and labeled the Boxed Warning for all BCMA- and CD19-directed CAR-T cell therapy, so does it mean that the public must take risk of secondary cancer to receive cell therapy? Here, without lentivirus and professional antigen presenting cell application, a novel tumor-specific T-cell therapy was successfully developed only by co-culturing MHC
+ cancer cells and Naïve-T cells under the CD28 co-stimulatory signals. These tumor-specific T-cells could be separated through cell size and abundantly produced from peripheral blood, and would spontaneously attack target cells that carrying the same tumor antigen while avoiding others in vitro test. Moreover, it markedly decreased 90% tumor nodules companying with greatly improving overall survival (76 days vs 30 days) after twice infusion back to mice. This work maximally avoided the risks of secondary cancer and non-specific killing, and might open a revolutionary beginning of natural tumor-specific T-cell therapy. Highlights: Tumor specific T-cell generation without lentivirus and professional APC application. Only by co-culturing MHC+ cancer cell and Naïve-T cell supplying CD28 signal. Easy separation by cell size and fast generation from peripheral blood. Maximally avoid troubles of viral safety and non-specific reaction. Novel model of T-cell activation could be used to bioprospect medicinal molecules instead of CD28 from abundant natural products. [ABSTRACT FROM AUTHOR]- Published
- 2024
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14. Macropinocytosis Is the Principal Uptake Mechanism of Antigen-Presenting Cells for Allergen-Specific Virus-like Nanoparticles.
- Author
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Kraus, Armin, Kratzer, Bernhard, Sehgal, Al Nasar Ahmed, Trapin, Doris, Khan, Matarr, Boucheron, Nicole, and Pickl, Winfried F.
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ANTIGEN presenting cells ,PINOCYTOSIS ,DENDRITIC cells ,CELL lines ,ANIMAL models in research - Abstract
Virus-like nanoparticles (VNP) are regarded as efficient vaccination platforms and have proven to be useful for the non-anaphylactogenic delivery of allergen-specific immunotherapy in preclinical models previously. Herein, we sought to determine the mode of VNP uptake by antigen presenting cells (APC). Accordingly, we screened a collection of substances known to inhibit different uptake pathways by APC. The human leukemia monocytic cell line THP-1 and the murine dendritic cell line DC 2.4 were examined for the uptake of fluorescently labelled VNP in the presence or absence of inhibitors. The inhibitory effect of candidate substances that blocked VNP uptake in APC lines was subsequently evaluated in studies with primary APC present in splenocyte and lung cell homogenates in vitro and upon intratracheal application of VNP in vivo. The uptake of allergen-specific VNP in vitro and in vivo was mainly observed by macrophages and CD103
+ dendritic cells and was sensitive to inhibitors that block macropinocytosis, such as hyperosmolarity induced by sucrose or the polyphenol compound Rottlerin at low micromolar concentrations but not by other inhibitors. Also, T-cell proliferation induced by allergen-specific VNP was significantly reduced by both substances. In contrast, substances that stimulate macropinocytosis, such as Heparin and phorbol myristate acetate (PMA), increased VNP-uptake and may, thus, help modulate allergen-specific T-cell responses. We have identified macropinocytosis as the principal uptake mechanism of APC for allergen-specific VNP in vitro and in vivo, paving the way for further improvement of VNP-based therapies, especially those that can be used for tolerance induction in allergy, in the future. [ABSTRACT FROM AUTHOR]- Published
- 2024
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15. Normothermic liver perfusion derived extracellular vesicles have concentration‐dependent immunoregulatory properties.
- Author
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Jennings, Heather, McMorrow, Stacey, Chlebeck, Peter, Heise, Grace, Levitsky, Mia, Verhoven, Bret, Kink, John A., Weinstein, Kristin, Hong, Seungpyo, and Al‐Adra, David P.
- Subjects
EXTRACELLULAR vesicles ,ANTIGEN presenting cells ,VESICLES (Cytology) ,PERFUSION ,BRAIN death ,MAJOR histocompatibility complex ,LIVER ,GRAFT rejection - Abstract
Extracellular vesicles (EVs) are major contributors to immunological responses following solid organ transplantation. Donor derived EVs are best known for their role in transplant rejection through transferring donor major histocompatibility complex proteins to recipient antigen presenting cells, a phenomenon known as ‛cross‐decoration'. In contrast, donor liver‐derived EVs are associated with organ tolerance in small animal models. Therefore, the cellular source of EVs and their cargo could influence their downstream immunological effects. To investigate the immunological effects of EVs released by the liver in a physiological and transplant‐relevant model, we isolated EVs being produced during normothermic ex vivo liver perfusion (NEVLP), a novel method of liver storage prior to transplantation. We found EVs were produced by the liver during NEVLP, and these EVs contained multiple anti‐inflammatory miRNA species. In terms of function, liver‐derived EVs were able to cross‐decorate allogeneic cells and suppress the immune response in allogeneic mixed lymphocyte reactions in a concentration‐dependent fashion. In terms of cytokine response, the addition of 1 × 109 EVs to the mixed lymphocyte reactions significantly decreased the production of the inflammatory cytokines TNF‐α, IL‐10 and IFN‐γ. In conclusion, we determined physiologically produced liver‐derived EVs are immunologically regulatory, which has implications for their role and potential modification in solid organ transplantation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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16. A platinum(IV)–artesunate complex triggers ferroptosis by boosting cytoplasmic and mitochondrial lipid peroxidation to enhance tumor immunotherapy.
- Author
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Fan, Renming, Deng, Aohua, Lin, Ruizhuo, Zhang, Shuo, Cheng, Caiyan, Zhuang, Junyan, Hai, Yongrui, Zhao, Minggao, Yang, Le, and Wei, Gaofei
- Subjects
MITOCHONDRIAL dynamics ,ANTIGEN presenting cells ,DIHYDROOROTATE dehydrogenase ,MITOCHONDRIA ,PEROXIDATION - Abstract
Ferroptosis is an iron‐dependent cell death form that initiates lipid peroxidation (LPO) in tumors. In recent years, there has been growing interest on ferroptosis, but how to propel it forward translational medicine remains in mist. Although experimental ferroptosis inducers such as RSL3 and erastin have demonstrated bioactivity in vitro, the poor antitumor outcome in animal model limits their development. In this study, we reveal a novel ferroptosis inducer, oxaliplatin–artesunate (OART), which exhibits substantial bioactivity in vitro and vivo, and we verify its feasibility in cancer immunotherapy. For mechanism, OART induces cytoplasmic and mitochondrial LPO to promote tumor ferroptosis, via inhibiting glutathione‐mediated ferroptosis defense system, enhancing iron‐dependent Fenton reaction, and initiating mitochondrial LPO. The destroyed mitochondrial membrane potential, disturbed mitochondrial fusion and fission, as well as downregulation of dihydroorotate dehydrogenase mutually contribute to mitochondrial LPO. Consequently, OART enhances tumor immunogenicity by releasing damage associated molecular patterns and promoting antigen presenting cells maturation, thereby transforming tumor environment from immunosuppressive to immunosensitive. By establishing in vivo model of tumorigenesis and lung metastasis, we verified that OART improves the systematic immune response. In summary, OART has enormous clinical potential for ferroptosis‐based cancer therapy in translational medicine. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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17. Microbial antigens-loaded myeloma cells enhance Th2 cell proliferation and myeloma clonogenicity via Th2–myeloma cell interaction
- Author
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Tian, Faqing, Lu, Bo, Chen, Ziren, Liu, Junru, Ji, Delan, Li, Juheng, Tang, Meiqin, Zhu, Wei, and Li, Juan
- Published
- 2019
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18. Vaccine responses in newborns.
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Saso, Anja and Kampmann, Beate
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NEWBORN infant health ,IMMUNIZATION of children ,NEONATAL mortality ,HUMORAL immunity ,NATURAL immunity ,ANTIGEN presenting cells - Abstract
Immunisation of the newborn represents a key global strategy in overcoming morbidity and mortality due to infection in early life. Potential limitations, however, include poor immunogenicity, safety concerns and the development of tolerogenicity or hypo-responsiveness to either the same antigen and/or concomitant antigens administered at birth or in the subsequent months. Furthermore, the neonatal immunological milieu is polarised towards Th2-type immunity with dampening of Th1-type responses and impaired humoral immunity, resulting in qualitatively and quantitatively poorer antibody responses compared to older infants. Innate immunity also shows functional deficiency in antigen-presenting cells: the expression and signalling of Toll-like receptors undergo maturational changes associated with distinct functional responses. Nevertheless, the effectiveness of BCG, hepatitis B and oral polio vaccines, the only immunisations currently in use in the neonatal period, is proof of concept that vaccines can be successfully administered to the newborn via different routes of delivery to induce a range of protective mechanisms for three different diseases. In this review paper, we discuss the rationale for and challenges to neonatal immunisation, summarising progress made in the field, including lessons learnt from newborn vaccines in the pipeline. Furthermore, we explore important maternal, infant and environmental co-factors that may impede the success of current and future neonatal immunisation strategies. A variety of approaches have been proposed to overcome the inherent regulatory constraints of the newborn innate and adaptive immune system, including alternative routes of delivery, novel vaccine configurations, improved innate receptor agonists and optimised antigen-adjuvant combinations. Crucially, a dual strategy may be employed whereby immunisation at birth is used to prime the immune system in order to improve immunogenicity to subsequent homologous or heterologous boosters in later infancy. Similarly, potent non-specific immunomodulatory effects may be elicited when challenged with unrelated antigens, with the potential to reduce the overall risk of infection and allergic disease in early life. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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19. Excretory/secretory products from two Fasciola hepatica isolates induce different transcriptional changes and IL-10 release in LPS-activated bovine 'BOMA' macrophages.
- Author
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Bąska, Piotr, Norbury, Luke, Zawistowska-Deniziak, Anna, Wiśniewski, Marcin, and Januszkiewicz, Kamil
- Subjects
FASCIOLA hepatica ,BOS ,ANTIGEN presenting cells ,CONNECTIVE tissue cells ,MACROPHAGES - Abstract
Fasciola hepatica are trematodes that reside in the bile ducts of mammals. Infection causes US$3 billion in losses annually in animal production and is considered a zoonosis of growing importance. An under-represented area in F. hepatica research has been the examination of the different immunomodulatory abilities of various parasite isolates on the host immune system. In this paper, this issue was explored, with the bovine macrophage cell line 'BOMA'. The cells were matured by LPS treatment and stimulated with excretory/secretory antigens (ES) from two Fasciola hepatica isolates: a laboratory isolate 'Weybridge' ( Fh-WeyES) and a wild isolate ( Fh-WildES). As expected, stimulation with antigen mixtures with highly similar compositions resulted in mild transcriptomic differences. However, there were significant differences in cytokine levels. Compared to Fh-WeyES, exposure to Fh-WildES upregulated 27 and downregulated 30 genes. Fh-ES from both isolates diminished the release of TNF-α, whereas only Fh-WildES decreased IL-10 secretion. Neither Fh-WeyES nor Fh-WildES had an impact on IL-12 release. Our results indicate that various isolates can have different immunomodulatory abilities and impacts on the bovine immune system. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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20. Individualized Multimodal Immunotherapy (IMI): Scientific Rationale and Clinical Experience from a Single Institution.
- Author
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Schirrmacher, Volker, Van Gool, Stefaan, and Stuecker, Wilfried
- Subjects
IMMUNOLOGIC memory ,IMMUNOTHERAPY ,BONE marrow ,ANTIGEN presenting cells ,NEWCASTLE disease virus - Abstract
Oncolytic viruses and combinatorial immunotherapy for cancer (this Special Issue) are both part of cancer treatment at IOZK. This review focusses on an individual multimodal cancer immunotherapy concept developed by IOZK, Cologne, Germany. The scientific rationale for employing three main components is explained: (i) oncolytic Newcastle disease virus, (ii) modulated electrohyperthermia and (iii) individual tumor antigen and oncolytic virus modified dendritic cell vaccine (IO-VAC
R ). The strategy involves repeated cancer-immunity cycles evoked in cancer patients by systemic oncolytic virus exposure plus hyperthermia pretreatment to induce immunogenic cell death followed by intradermal IO-VACR vaccination. As an example of the experience at IOZK, we present the latest results from combining the immunotherapy with standard treatment of patients suffering from glioblastoma multiforme. The promising clinical results in terms of overall survival benefit of additional individualized multimodal immunotherapy are presented. The cancer-immunity cycle, as introduced 10 years ago, describes key important steps occurring locally at the sites of both tumor and draining lymph nodes. This view is extended here towards systemic events occuring in blood where immunogenic cell death-induced tumor antigens are transported into the bone marrow. For 20 years it has been known that bone marrow is an antigen-responsive organ in which dendritic cells present tumor antigens to T cells leading to immunological synapse formation, tumor antigen-specific T cell activation and memory T cell formation. Bone marrow is known to be the most prominent source of de novo cellular generation in the body and to play an important role for the storage and maintenance of immunological memory. Its systemic activation is recommended to augment cancer-immunity cycles. [ABSTRACT FROM AUTHOR]- Published
- 2024
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21. Editorial: Insights in antigen presenting cell biology: 2021.
- Author
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van Endert, Peter
- Subjects
ANTIGEN presenting cells ,CYTOLOGY ,ANTIGEN presentation ,DENDRITIC cells - Published
- 2022
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22. Strategies to Rescue Mesenchymal Stem Cells (MSCs) and Dental Pulp Stem Cells (DPSCs) from NK Cell Mediated Cytotoxicity.
- Author
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Jewett, Anahid, Arasteh, Aida, Han-Ching Tseng, Behel, Armin, Arasteh, Hobie, Wendy Yang, Cacalano, Nicholas A., and Paranjpe, Avina
- Subjects
MESENCHYMAL stem cells ,CELL-mediated cytotoxicity ,KILLER cells ,DENTAL pulp ,HOMOGRAFTS ,MONOCYTES ,RETICULO-endothelial system ,ANTIGEN presenting cells ,IMMUNE response - Abstract
Background: The aim of this paper is to study the function of allogeneic and autologous NK cells against Dental Pulp Stem Cells (DPSCs) and Mesenchymal Stem Cells (MSCs) and to determine the function of NK cells in a three way interaction with monocytes and stem cells. Methodology/Principal Findings: We demonstrate here that freshly isolated untreated or IL-2 treated NK cells are potent inducers of cell death in DPSCs and MSCs, and that anti-CD16 antibody which induces functional split anergy and apoptosis in NK cells inhibits NK cell mediated lysis of DPSCs and MSCs. Monocytes co-cultured with either DPSCs or MSCs decrease lysis of stem cells by untreated or IL-2 treated NK cells. Monocytes also prevent NK cell apoptosis thereby raising the overall survival and function of NK cells, DPSCs or MSCs. Both total population of monocytes and those depleted of CD16+ subsets were able to prevent NK cell mediated lysis of MSCs and DPSCs, and to trigger an increased secretion of IFN-γc by IL-2 treated NK cells. Protection of stem cells from NK cell mediated lysis was also seen when monocytes were sorted out from stem cells before they were added to NK cells. However, this effect was not specific to monocytes since the addition of T and B cells to stem cells also protected stem cells from NK cell mediated lysis. NK cells were found to lyse monocytes, as well as T and B cells. Conclusion/Significance: By increasing the release of IFN-γc and decreasing the cytotoxic function of NK cells monocytes are able to shield stem cells from killing by the NK cells, resulting in an increased protection and differentiation of stem cells. More importantly studies reported in this paper indicate that anti-CD16 antibody can be used to prevent NK cell induced rejection of stem cells. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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23. Detecting interest cache poisoning in sensor networks using an artificial immune algorithm.
- Author
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Wallenta, Christian, Jungwon Kim, Bentley, Peter J., and Hailes, Stephen
- Subjects
SENSOR networks ,DETECTORS ,CONTEXT-aware computing ,DENDRITIC cells ,ANTIGEN presenting cells ,COMPUTER simulation - Abstract
The objective of this paper is to investigate how a Danger Theory based Artificial Immune System-in particular the Dendritic Cell Algorithm (DCA) can detect an attack on a sensor network. The method is validated using two separate implementations: a simulation using J-sim and an implementation for the T-mote Sky sensor using TinyOS. This paper also introduces a new sensor network attack called an Interest Cache Poisoning Attack and investigates how the DCA can be applied to detect this attack in a series of experiments. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
24. Microneedle arrays delivery of the conventional vaccines based on nonvirulent viruses.
- Author
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Li, Ning, Wang, Ning, Wang, Xueting, Zhen, Yuanyuan, and Wang, Ting
- Subjects
DRUG delivery systems ,VACCINES ,HYPODERMIC needles ,CYTOTOXIC T cells ,ANTIGEN presenting cells ,IMMUNOREGULATION - Abstract
Recently, microneedle arrays (MAs) have been developed for painless inoculation of vaccines and possess many prominent advantages, including convenience for inoculation, and exact delivery of vaccine to the exact epidermal and dermal or mucosal compartments which teem with antigen-presenting cells (APCs). Among different types of MAs, while the micro-environmental stimulus-responsive MAs represent one of the developmental trends in the field, the MAs combined with the conventional vaccines that are based on nonvirulent viruses, such as live attenuated or whole inactivated viruses, and antigen-encoding DNA viral vectors, have developed rapidly into the advanced stages, with certain products already on clinical trials. The pre- and clinical research outcomes showed that the painless MA delivery of the conventional vaccines through mammalian skin or mucosa can not only elicit robust systemic and even mucosal immunity to pathogens but also, in certain circumstances, redirect the immune response toward a specific Th1 pathway, resulting in cytotoxic T lymphocytes (CTL) to erase the cell-hidden pathogens, thanks to the robust adjuvant function of MAs exerted through damaging the contacted cells to release dangerous signals. This paper focuses on reviewing the latest research and advancements in MA delivery of the conventional vaccines that are based on nonvirulent viruses, underlining MA enhancement of the overall vaccine performance and the most advanced MA vaccine products that are relatively close to markets. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
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- View/download PDF
25. Global Analysis of Antibody Repertoires. 1. An Immunoblot Method for the Quantitative Screening of a Large Number of Reactivities.
- Author
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Haury, M., Grandien, A., Sundblad, A., Coutinho, A., and Nobrega, A.
- Subjects
IMMUNOGLOBULINS ,BLOOD proteins ,ANTIGENS ,ANTIGEN presenting cells ,B cells ,LYMPHOCYTES - Abstract
This paper describes a procedure for analysing multiple antibody reactivities that explores a commercially available immunoblot system, and is based on a double staining of nitrocellulose membranes, revealing both antibody reactivities and the migration position of the blotted proteins in the membrane. Quantification of both stainings by densitometry allowed the accurate superposition of the immunoreactivity and total protein profiles of each lane. Moreover, the protein stainings of the different lanes could be adjusted with a simple-scale transformation algorithm, correcting for possible distortions during electrophoretic migration, and allowing for the precise comparison of the immunoreactivity profiles in different lanes. The procedure is discriminatory enough to identify unique reactivity patterns in random pools of 10
4 activated B cells, and to define strain-specific natural antibody repertoires. The utility of this immunoblot method as an assay for simultaneously scoring multiple reactivities to hundreds of antigens in complex mixtures of antibodies, and thus defining antibody repertoires in a global manner, is discussed. [ABSTRACT FROM AUTHOR]- Published
- 1994
- Full Text
- View/download PDF
26. Delivery of loaded MR1 monomer results in efficient ligand exchange to host MR1 and subsequent MR1T cell activation.
- Author
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Kulicke, Corinna A., Swarbrick, Gwendolyn M., Ladd, Nicole A., Cansler, Meghan, Null, Megan, Worley, Aneta, Lemon, Chance, Ahmed, Tania, Bennett, Joshua, Lust, Taylor N., Heisler, Chelsea M., Huber, Megan E., Krawic, Jason R., Ankley, Laurisa M., McBride, Savannah K., Tafesse, Fikadu G., Olive, Andrew J., Hildebrand, William H., Lewinsohn, Deborah A., and Adams, Erin J.
- Subjects
WOUND healing ,ANTIGEN presenting cells ,MONOMERS ,POLYMERSOMES ,LIGAND binding (Biochemistry) ,ANTIGEN presentation ,T cells - Abstract
MR1-restricted T cells have been implicated in microbial infections, sterile inflammation, wound healing and cancer. Similar to other antigen presentation molecules, evidence supports multiple, complementary MR1 antigen presentation pathways. To investigate ligand exchange pathways for MR1, we used MR1 monomers and tetramers loaded with 5-(2-oxopropylideneamino)-6-d-ribitylaminouracil (5-OP-RU) to deliver the antigen. Using MR1-deficient cells reconstituted with wild-type MR1 or MR1 molecules that cannot bind 5-OP-RU, we show that presentation of monomer-delivered 5-OP-RU is dependent on cellular MR1 and requires the transfer of ligand from the soluble molecule onto MR1 expressed by the antigen presenting cell. This mode of antigen delivery strengthens the evidence for post-ER ligand exchange pathways for MR1, which could represent an important avenue by which MR1 acquires antigens derived from endocytosed pathogens. Delivering MR1 ligand in the context of an MR1 monomer demonstrates transfer of this ligand onto cellular MR1. The stabilization of an inherently unstable ligand in the monomer has implications for antigen delivery and possibly vaccine design. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
27. Integrative HLA typing of tumor and adjacent normal tissue can reveal insights into the tumor immune response.
- Author
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Sverchkova, Angelina, Burkholz, Scott, Rubsamen, Reid, Stratford, Richard, and Clancy, Trevor
- Subjects
T cell receptors ,IMMUNE response ,HISTOCOMPATIBILITY antigens ,GENE expression ,ANTIGEN presenting cells ,CELL surface antigens ,KILLER cells - Abstract
Background: The HLA complex is the most polymorphic region of the human genome, and its improved characterization can help us understand the genetics of human disease as well as the interplay between cancer and the immune system. The main function of HLA genes is to recognize "non-self" antigens and to present them on the cell surface to T cells, which instigate an immune response toward infected or transformed cells. While sequence variation in the antigen-binding groove of HLA may modulate the repertoire of immunogenic antigens presented to T cells, alterations in HLA expression can significantly influence the immune response to pathogens and cancer. Methods: RNA sequencing was used here to accurately genotype the HLA region and quantify and compare the level of allele-specific HLA expression in tumors and patient-matched adjacent normal tissue. The computational approach utilized in the study types classical and non-classical Class I and Class II HLA alleles from RNA-seq while simultaneously quantifying allele-specific or personalized HLA expression. The strategy also uses RNA-seq data to infer immune cell infiltration into tumors and the corresponding immune cell composition of matched normal tissue, to reveal potential insights related to T cell and NK cell interactions with tumor HLA alleles. Results: The genotyping method outperforms existing RNA-seq-based HLA typing tools for Class II HLA genotyping. Further, we demonstrate its potential for studying tumor-immune interactions by applying the method to tumor samples from two different subtypes of breast cancer and their matched normal breast tissue controls. Conclusions: The integrative RNA-seq-based HLA typing approach described in the study, coupled with HLA expression analysis, neoantigen prediction and immune cell infiltration, may help increase our understanding of the interplay between a patient's tumor and immune system; and provide further insights into the immune mechanisms that determine a positive or negative outcome following treatment with immunotherapy such as checkpoint blockade. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
28. Ubiquitination of Major Histocompatibility Complex II Changes Its Immunological Recognition Structure.
- Author
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Kozono, Yuko, Kuramochi, Masahiro, Sasaki, Yuji C., and Kozono, Haruo
- Subjects
T cell receptors ,MAJOR histocompatibility complex ,UBIQUITINATION ,UBIQUITIN ligases ,REGULATORY T cells ,ANTIGEN presenting cells ,DENDRITIC cells - Abstract
Ubiquitination is a process that dictates the lifespan of major histocompatibility complex class II (MHC II)/peptide complexes on antigen-presenting cells. This process is tightly controlled by the levels of ubiquitin ligases, and disruptions in the turnover of MHC II can lead to the improper development of CD4+ T cells within the thymus and hinder the formation of regulatory T cells in the peripheral tissue. To investigate the underlying mechanisms, we utilized dendritic cells lacking the Membrane-associated RING-CH (MARCH) I ubiquitin ligase. We discovered that the overexpression of MARCH I decreases the interaction with LAG-3. Moreover, the MHC II molecules tethered with ubiquitin also showed diminished binding to LAG-3. We employed Diffracted X-ray Blinking (DXB), a technique used for single-molecule X-ray imaging, to observe the protein movements on live cells in real time. Our observations indicated that the normal MHC II molecules moved more rapidly across the cell surface compared to those on the MARCH I-deficient dendritic cells or MHC II KR mutants, which is likely a result of ubiquitination. These findings suggest that the signaling from ubiquitinated MHC II to the T cell receptor differs from the non-ubiquitinated forms. It appears that ubiquitinated MHC II might not be quickly internalized, but rather presents antigens to the T cells, leading to a range of significant immunological responses. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
29. WAVE2 Regulates Actin-Dependent Processes Induced by the B Cell Antigen Receptor and Integrins.
- Author
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Bedi, Abhishek, Choi, Kate, Keane, Connor, Bolger-Munro, Madison, Ambrose, Ashley R., and Gold, Michael R.
- Subjects
B cells ,B cell receptors ,INTEGRINS ,ANTIGEN presenting cells ,CYTOSKELETON ,IMMOBILIZED cells ,F-actin - Abstract
B cell antigen receptor (BCR) signaling induces actin cytoskeleton remodeling by stimulating actin severing, actin polymerization, and the nucleation of branched actin networks via the Arp2/3 complex. This enables B cells to spread on antigen-bearing surfaces in order to increase antigen encounters and to form an immune synapse (IS) when interacting with antigen-presenting cells (APCs). Although the WASp, N-WASp, and WAVE nucleation-promoting factors activate the Arp2/3 complex, the role of WAVE2 in B cells has not been directly assessed. We now show that both WAVE2 and the Arp2/3 complex localize to the peripheral ring of branched F-actin when B cells spread on immobilized anti-Ig antibodies. The siRNA-mediated depletion of WAVE2 reduced and delayed B cell spreading on immobilized anti-Ig, and this was associated with a thinner peripheral F-actin ring and reduced actin retrograde flow compared to control cells. Depleting WAVE2 also impaired integrin-mediated B cell spreading on fibronectin and the LFA-1-induced formation of actomyosin arcs. Actin retrograde flow amplifies BCR signaling at the IS, and we found that depleting WAVE2 reduced microcluster-based BCR signaling and signal amplification at the IS, as well as B cell activation in response to antigen-bearing cells. Hence, WAVE2 contributes to multiple actin-dependent processes in B lymphocytes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
30. Special edition: Dendritic cells.
- Author
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FORSUM, URBAN, VAINIO, OLLI, and ÖGMUNDSDÓTTIR, HELGA
- Subjects
DENDRITIC cells ,PERIODICALS ,CYTOLOGY ,BIOLOGY ,ANTIGEN presenting cells ,LYMPHOID tissue - Abstract
Presents an overview of articles featured in the 2003 special issue of "APMIS," on dendritic cells (DC). Papers on the aspects of dendritic cell biology; Role of DC in the balance between T-cell immunity and tolerance; Functions and activities of DC.
- Published
- 2003
- Full Text
- View/download PDF
31. Antigen specificities and functional properties of MR1-restricted T cells.
- Author
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De Libero, Gennaro, Chancellor, Andrew, and Mori, Lucia
- Subjects
- *
SMALL molecules , *MICROBIAL metabolites , *ANTIGENS , *ANTIGEN presentation , *CELL membranes , *ANTIGEN presenting cells - Abstract
• MR1, a non-polymorphic ubiquitous antigen presenting molecule presents small metabolites to T cells. • MR1T cells recognize small drugs and microbial metabolites presented by MR1. • MR1T cells also recognize self-metabolites accumulating in tumor cells. • MR1T cells are multi-functional and express polyclonal TCR heterodimers. MR1 is an MHC class I-like molecule with unique structural and biological features that make it an important member among the molecules involved in antigen presentation to T cells. Distinctive features include ubiquitous expression of the MR1 gene and its monomorphism. Another relevant property is that the MR1 protein appears at very low levels on the plasma membrane and its surface expression is regulated by antigen binding. Finally, the nature of presented antigens differs from those that bind other presenting molecules and includes small metabolites of microbial and self-origin, small drugs and tumor-associated antigens. This opinion paper describes in detail some of those features and discusses recent literature in the field. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
32. Antigen presenting cells in cancer immunity and mediation of immune checkpoint blockade
- Author
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Wang, Cassia, Chen, Lee, Fu, Doris, Liu, Wendi, Puri, Anusha, Kellis, Manolis, and Yang, Jiekun
- Published
- 2024
- Full Text
- View/download PDF
33. Time-resolved microwell cell-pairing array reveals multiple T cell activation profiles.
- Author
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Desalvo, Anna, Bateman, Faith, James, Edward, Morgan, Hywel, and Elliott, Tim
- Subjects
ANTIGEN presenting cells ,T cells ,CELL analysis ,CELL populations ,FUNCTIONAL analysis ,INTRACELLULAR calcium - Abstract
The differences in behaviour between individual cells in a large population are often important, yet are masked in bulk analyses where only average parameters are measured. One unresolved question in the field of immunology is the extent to which important immunological phenomena such as immunodominance to cancer antigens correlates with the average activity of a population of antigen-specific T lymphocytes, or with the activity of individual "outlier" cells. Despite progress in single cell technologies, few platforms are available that can deliver time-resolved, functional analysis at single cell resolution, for these investigations. We have developed an accessible high-throughput platform to measure single T cell signalling in real time following time-controlled stimulation by live antigen presenting cells. The cell-trap array consists of thousands of individual microwells cast in an agarose block, which is biocompatible and permeable to nutrients. Single T cells are isolated in wells via passive sedimentation and size exclusion, achieving up to 90% occupancy. The device enables simultaneous activation of thousands of single CD8
+ cells. Stimulation with soluble reagents (ionomycin, anti-CD3 antibodies) or antigen presenting cells leads to changes in intracellular calcium concentrations which were measured using calcium-chelating fluorophore dyes. The platform was used to demonstrate a range of activation profiles among individual cells of a cloned, antigen specific CD8+ T cell hybridoma in response to both nonspecific stimuli and specific, physiologically relevant antigen stimulation. The presence of two different activation profiles was demonstrated, together with rare outlier behaviour among cells that are essentially clonal. [ABSTRACT FROM AUTHOR]- Published
- 2020
- Full Text
- View/download PDF
34. Hybridization Schemes of the Fuzzy Dendritic Cell Immune Binary Classifier based on Different Fuzzy Clustering Techniques.
- Author
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Chelly, Zeineb and Elouedi, Zied
- Subjects
DENDRITIC cells ,ALGORITHMS ,LYMPHOID tissue ,ANTIGEN presenting cells - Abstract
The Dendritic Cell Algorithm (DCA) is an immune-inspired algorithm based on the behavior of natural dendritic cells. The DCA, as a binary classifier, classifies in a crisp manner each data item as either normal or anomalous. However, it was shown that DCA is sensitive to the input class data order. This problem was solved by the development of the fuzzy dendritic cell algorithm. The performance of the latter algorithm relies on its parameters tuning as this process is based on the use of a fuzzy clustering technique. We, thus, believe that the choice of the right fuzzy clustering technique is crucial for the system. In this paper, we try to review the fuzzy version of DCA and to investigate its performance when hybridized with different fuzzy clustering techniques. The aim of this hybridization is to select the most appropriate fuzzy clustering approach in order to generate an overall automated robust fuzzy DCA classifier. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
35. A Self-Adjuvanting Vaccine Platform: Optimization of Site-Specific Sortase A Mediated Conjugation of Toll-Like Receptor 2 Ligands onto the Carboxyl or Amino terminus of Recombinant Protein Antigens.
- Author
-
Zhenghui Xu and Moyle, Peter Michael
- Subjects
RECOMBINANT proteins ,TOLL-like receptors ,ANTIGEN presenting cells ,ANTIGENS ,VACCINES - Abstract
Self-adjuvanting vaccines, consisting of recombinant protein antigens and covalently attached Toll-like receptor (TLR) agonists, have the ability to simultaneously and efficiently deliver antigen and TLR adjuvant to antigen presenting cells (APCs). Here, an enzyme-mediated ligation approach was used to overcome difficulties in producing homogeneous, molecularly defined self-adjuvanting vaccine products under native conditions. This process was optimized to allow the incorporation of the lipopeptide TLR2 agonist fibroblast-stimulating lipopeptide (FSL)-1 onto the N- or C-termini of recombinant protein antigens, employing the enzyme Staphylococcus aureus sortase A (SrtAsa) penta mutant. In addition, because SrtAsamediated ligations are reversible, a tryptophan zipper derived sequence was introduced into both reactants, which was demonstrated to improve ligation efficiency through the formation of a β-hairpin structure that hinders the reverse reaction. Finally, it was demonstrated that N- or C-terminal conjugation, and the incorporation of the β-hairpin structure, did not affect the TLR2-agonist activities of protein antigen TLR agonist conjugates. Overall, this SrtAsa-mediated ligation platform enabled production of antigen TLR2 agonist conjugates with enhanced ligation efficiency, with the conjugates demonstrating potent TLR2 signaling activation (EC50<1nM). [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
36. Study on the feeding characteristics of pulverized coal for entrained-flow gasification.
- Author
-
Lu, Haifeng, Cao, Jiakun, Jin, Yong, Guo, Xiaolei, and Gong, Xin
- Subjects
- *
PULVERIZED coal , *COAL gasification , *PARTICLE size distribution , *COHESION , *TENSILE strength , *ANTIGEN presenting cells , *INTERNAL friction , *ELASTIC deformation - Abstract
In this paper, the experimental activity was carried out on five pulverized coals with different particle sizes taken from the industrial demonstration plant of SE-Gasifier Pulverized Coal Gasification in Nanjing, China. Flow properties of pulverized coal including powder cohesion, angle of internal friction and tensile strength were determined by the rotational shear cell accessory of Freeman FT4 Powder Rheometer. These pulverized coal samples were further discharged from a bench-scale discharge system and an industrial device in the SE gasification industrial plant. The effects of mean particle size, fine contents and hopper pressure on the flow properties and the discharge of pulverized coal were discussed. The tensile strength was used to correlate with the feeding characteristics of pulverized coal and proved to be an effective indicator to describe the powder feeding performance. A combination of a continuum approach and a particle–particle approach was therefore built to predict the tensile strength. The model, considered the elastic deformation, was further modified by taking into account the effect of particle size distribution. The predicted tensile strengths were compared with those obtained from the Mohr-Coulomb approach, giving errors mostly below ±25%. It was therefore considered as a valuable way to provide reference for the evaluation of feeding characteristics of pulverized coal for entrained-flow gasification. Unlabelled Image • Pulverized coal was taken from the industrial demonstration plant. • Flow properties and discharge behaviors of pulverized coal were determined. • Tensile strength was correlate with powder feeding performance. • A modified model was built to predict tensile strength. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
37. Cross-presentation of Exogenous Antigens.
- Author
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Li, B. and Hu, L.
- Subjects
- *
CYTOTOXIC T cells , *ANTIGEN presenting cells , *CHEMOKINE receptors , *T cells , *MAJOR histocompatibility complex - Abstract
Presentation of exogenous antigens loaded on major histocompatibility complex class I molecules by antigen presenting cells, termed cross-presentation, is essential for the induction of CD8+ T cells and is performed mainly by specialized dendritic cell subsets. Research into this field has described two main mechanisms of cross-presentation, the cytosolic pathway and the vacuolar pathway. As the first step in cross-presentation, surface receptors relating to cross-presentation are required in the recognition and uptake of Ags, which include C-type lectin receptors, immunoglobulin γ Fc region receptor, chemokine receptor, scavenger receptor etc. After uptake by the cells, there are also many molecules that enable Ags to participate in cross-presentation pathways. By this approach, exogenous Ags can induce CD8+ T cells into cytotoxic T lymphocytes, which is of great significance to induce antitumor and antiviral immune responses, and the molecular mechanism would facilitate the development of related adjuvants. However, the detailed mechanisms of cross-presentation still remain unknown. In this paper, some latest researches, including two major pathways, DC surface receptors and application prospects are summarized. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
38. Serial electron microscopic reconstruction of the drosophila larval eye: Photoreceptors with a rudimentary rhabdomere of microvillar-like processes.
- Author
-
Hartenstein, Volker, Yuan, Michaela, Younossi-Hartenstein, Amelia, Karandikar, Aanavi, Bernardo-Garcia, F. Javier, Sprecher, Simon, and Knust, Elisabeth
- Subjects
- *
ZOOLOGY , *DROSOPHILA , *PHOTORECEPTORS , *INSECT larvae , *ANTIGEN presenting cells , *BIOLOGICAL pigments - Abstract
Photoreceptor cells (PRCs) across the animal kingdom are characterized by a stacking of apical membranes to accommodate the high abundance of photopigment. In arthropods and many other invertebrate phyla PRC membrane stacks adopt the shape of densely packed microvilli that form a structure called rhabdomere. PRCs and surrounding accessory cells, including pigment cells and lens-forming cells, are grouped in stereotyped units, the ommatidia. In larvae of holometabolan insects, eyes (called stemmata) are reduced in terms of number and composition of ommatidia. The stemma of Drosophila (Bolwig organ) is reduced to a bilateral cluster of subepidermal PRCs, lacking all other cell types. In the present paper we have analyzed the development and fine structure of the Drosophila larval PRCs. Shortly after their appearance in the embryonic head ectoderm, PRC precursors delaminate and lose expression of apical markers of epithelial cells, including Crumbs and several centrosome-associated proteins. In the early first instar larva, PRCs show an expanded, irregularly shaped apical surface that is folded into multiple horizontal microvillar-like processes (MLPs). Apical PRC membranes and MLPs are covered with a layer of extracellular matrix. MLPs are predominantly aligned along an axis that extends ventro-anteriorly to dorso-posteriorly, but vary in length, diameter, and spacing. Individual MLPs present a "beaded" shape, with thick segments (0.2–0.3 μm diameter) alternating with thin segments (>0.1 μm). We show that loss of the glycoprotein Chaoptin, which is absolutely essential for rhabdomere formation in the adult PRCs, does not lead to severe abnormalities in larval PRCs. • We reconstruct the photoreceptors (PRCs) of the Bolwig Organ (BO) using serial EM. • BO PRCs do not form a rhabdomere but extend long microvillar-like processes (MLPs). • MLPs extend roughly parallel to each other and cover the former apical PRC surface. • MLPs are long and unbranched, with thick segments alternating with thin segments. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
39. Activation dynamics of antigen presenting cells in vivo against Mycobacterium bovis BCG in different immunized route.
- Author
-
Xu, Zhengzhong, Li, Xin, Xia, Aihong, Zhang, Zhifang, Wan, Jiaxu, Gao, Yan, Meng, Chuang, Chen, Xiang, and Jiao, Xin-an
- Subjects
ANTIGEN presenting cells ,MYCOBACTERIUM bovis ,ANTIGEN presentation ,IMMUNE response ,LABORATORY mice - Abstract
Background: Control of Tuberculosis (TB) infection is mainly the result of productive teamwork between T-cell populations and antigen presenting cells (APCs). However, APCs activation at the site of initiating cellular immune response during BCG early infection is not completely understood. Methods: In this study, we injected C57BL/6 mice in intravenous (i.v) or subcutaneous (s.c) route, then splenic or inguinal lymph node (LN) DCs and MΦs were sorted, and mycobacteria uptake, cytokine production, antigen presentation activity, and cell phenotype were investigated and compared, respectively. Results: Ag85A-specific T-cell immune response began at 6 days post BCG infection, when BCG was delivered in s.c route, Th17 immune response could be induced in inguinal LN. BCG could induce high level of activation phenotype in inguinal LN MΦs, while the MHC II presentation of mycobacteria-derived peptides by DCs was more efficient than MΦs. Conclusions: The results showed that BCG immunized route can decide the main tissue of T-cell immune response. Compared with s.c injected route, APCs undergo more rapid cell activation in spleen post BCG i.v infection. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
40. A candidate nanoparticle vaccine comprised of multiple epitopes of the African swine fever virus elicits a robust immune response.
- Author
-
Song, Jinxing, Wang, Mengxiang, Zhou, Lei, Tian, Panpan, Sun, ZhuoYa, Sun, Junru, Wang, Xuannian, Zhuang, Guoqing, Jiang, Dawei, Wu, Yanan, and Zhang, Gaiping
- Subjects
AFRICAN swine fever virus ,AFRICAN swine fever ,CHEMOKINE receptors ,NANOPARTICLES ,IMMUNE response ,ANTIGEN presenting cells ,EPITOPES - Abstract
The African swine fever (ASF) pandemics pose a significant threat to the global swine industry, and the development of safe and effective vaccines is a daunting but necessary challenge. The level and persistence of immunity are very important for the effectiveness of the vaccine. Targeting antigens to antigen presenting cells (APCs) can greatly enhance immunogenicity. In this study, we developed a self-assembled nano-ASFV vaccine candidate (NanoFVax) targeting DCs, by covalently coupling the self-assembled 24-mer ferritin with the dominant B and T cell epitopes of the highly immunogenic ASFV antigen (p72, CD2v, pB602L and p30) and fused with the chemokine receptor XCL1 (a DC targeting molecule) through the SpyTag/SpyCatcher protein ligase system. Compared to monomeric protein, the nanoparticle vaccines can induce a more robust T-cell response, and the high-level antibody response against ASFV can last for more than 231 days. Therefore, the NanoFVax is a novel and promising vaccine candidate for ASFV. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
41. Immuno-metabolic dendritic cell vaccine signatures associate with overall survival in vaccinated melanoma patients.
- Author
-
Adamik, Juraj, Munson, Paul V., Maurer, Deena M., Hartmann, Felix J., Bendall, Sean C., Argüello, Rafael J., and Butterfield, Lisa H.
- Subjects
DENDRITIC cells ,ANTIGEN presenting cells ,CANCER vaccines ,OVERALL survival ,VACCINATION ,GLYCOLYSIS ,INSULIN receptors - Abstract
Efficacy of cancer vaccines remains low and mechanistic understanding of antigen presenting cell function in cancer may improve vaccine design and outcomes. Here, we analyze the transcriptomic and immune-metabolic profiles of Dendritic Cells (DCs) from 35 subjects enrolled in a trial of DC vaccines in late-stage melanoma (NCT01622933). Multiple platforms identify metabolism as an important biomarker of DC function and patient overall survival (OS). We demonstrate multiple immune and metabolic gene expression pathway alterations, a functional decrease in OCR/OXPHOS and increase in ECAR/glycolysis in patient vaccines. To dissect molecular mechanisms, we utilize single cell SCENITH functional profiling and show patient clinical outcomes (OS) correlate with DC metabolic profile, and that metabolism is linked to immune phenotype. With single cell metabolic regulome profiling, we show that MCT1 (monocarboxylate transporter-1), a lactate transporter, is increased in patient DCs, as is glucose uptake and lactate secretion. Importantly, pre-vaccination circulating myeloid cells in patients used as precursors for DC vaccine generation are significantly skewed metabolically as are several DC subsets. Together, we demonstrate that the metabolic profile of DC is tightly associated with the immunostimulatory potential of DC vaccines from cancer patients. We link phenotypic and functional metabolic changes to immune signatures that correspond to suppressed DC differentiation. Efficacy of dendritic cell (DC)-based vaccines remains unsatisfactory. Here the authors analyse the transcriptomic and immune-metabolic profiles of DCs from patients enrolled in a DC vaccine trial in late-stage melanoma, suggesting that the metabolic profile of DC is associated with the immunostimulatory potential of the cancer vaccine. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
42. A survey of informed consent in patients with dementia in the US and Japan.
- Author
-
Yoshihiko Iijima
- Subjects
DEMENTIA ,RESEARCH ethics ,IMMUNOTHERAPY ,GRAFT versus host disease ,ANTIGEN presenting cells - Abstract
This study aimed to confirm the reality of family-focused medical treatment of dementia in Japan and the US. It conducted a questionnaire survey on informed consent from patients with dementia among neurologists and psychiatrists in four prefectures in the Tokai Region (Aichi, Gifu, Mie, and Shizuoka) and dementia specialists in the US. Of the responses, 120 (39.7% response rate) and 20 (5.9% response rate) were obtained, respectively. In obtaining informed consent from patients with dementia, 75 Japanese specialists (62.5%) and 16 US specialists (80.0%) regularly assessed patients’ decision-making abilities. The majority of specialists in both Japan and the US used the Mini–Mental State Examination and Hierarchic Dementia Scale-Revised, which are widely used for cognitive function assessment. In the survey, 27 Japanese specialists (22.5%) and 10 US specialists (50.0%) had different considerations when obtaining informed consent for participation in research, compared to their medical practice. The majority of Japanese and US specialists obtained informed consent from both the patient and their family. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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- View/download PDF
43. T cell receptor-engineered T cells derived from target human leukocyte antigen-DPB1-specific T cell can be a potential tool for therapy against leukemia relapse following allogeneic hematopoietic cell transplantation.
- Author
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Naoya Katsuyama, Takakazu Kawase, Carolyne Barakat, Shohei Mizuno, Akihiro Tomita, Kazutaka Ozeki, Nobuhiro Nishio, Yoshie Sato, Ryoko Kajiya, Keiko Shiraishi, Yoshiyuki Takahashi, Tatsuo Ichinohe, Hiroyoshi Nishikawa, and Yoshiki Akatsuka
- Subjects
T cells ,HLA histocompatibility antigens ,IMMUNOTHERAPY ,GRAFT versus host disease ,ANTIGEN presenting cells - Abstract
Human leukocyte antigen (HLA)-DPB1 antigens are mismatched in approximately 70% of allogeneic hematopoietic stem cell transplantations (allo-HSCT) from HLA 10/10 matched unrelated donors. HLADP-mismatched transplantation was shown to be associated with an increase in acute graft-versus-host disease (GVHD) and a decreased risk of leukemia relapse due to the graft-versus-leukemia (GVL) effect. Immunotherapy targeting mismatched HLA-DP is considered reasonable to treat leukemia following alloHCT if performed under non-inflammatory conditions. Therefore, we isolated CD4
+ T cell clones that recognize mismatched HLA-DPB1 from healthy volunteer donors and generated T cell receptor (TCR)- gene-modified T cells for future clinical applications. Detailed analysis of TCR-T cells expressing TCR from candidate clone #17 demonstrated specificity to myeloid and monocytic leukemia cell lines that even expressed low levels of targeted HLA-DP. However, they did not react to non-hematopoietic cell lines with a substantial level of targeted HLA-DP expression, suggesting that the TCR recognized antigenic peptide is only present in some hematopoietic cells. This study demonstrated that induction of T cells specific for HLA-DP, consisting of hematopoietic cell lineage-derived peptide and redirection of T cells with cloned TCR cDNA by gene transfer, is feasible when using careful specificity analysis. [ABSTRACT FROM AUTHOR]- Published
- 2023
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44. IFNγ-Stat1 axis drives aging-associated loss of intestinal tissue homeostasis and regeneration.
- Author
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Omrani, Omid, Krepelova, Anna, Rasa, Seyed Mohammad Mahdi, Sirvinskas, Dovydas, Lu, Jing, Annunziata, Francesco, Garside, George, Bajwa, Seerat, Reinhardt, Susanne, Adam, Lisa, Käppel, Sandra, Ducano, Nadia, Donna, Daniela, Ori, Alessandro, Oliviero, Salvatore, Rudolph, Karl Lenhard, and Neri, Francesco
- Subjects
STEM cell niches ,ANTIGEN presenting cells ,HOMEOSTASIS ,INTESTINES ,CELLULAR aging ,INTERFERON gamma ,DENDRITIC cells - Abstract
The influence of aging on intestinal stem cells and their niche can explain underlying causes for perturbation in their function observed during aging. Molecular mechanisms for such a decrease in the functionality of intestinal stem cells during aging remain largely undetermined. Using transcriptome-wide approaches, our study demonstrates that aging intestinal stem cells strongly upregulate antigen presenting pathway genes and over-express secretory lineage marker genes resulting in lineage skewed differentiation into the secretory lineage and strong upregulation of MHC class II antigens in the aged intestinal epithelium. Mechanistically, we identified an increase in proinflammatory cells in the lamina propria as the main source of elevated interferon gamma (IFNγ) in the aged intestine, that leads to the induction of Stat1 activity in intestinal stem cells thus priming the aberrant differentiation and elevated antigen presentation in epithelial cells. Of note, systemic inhibition of IFNγ-signaling completely reverses these aging phenotypes and reinstalls regenerative capacity of the aged intestinal epithelium. Omrani, Krepelova et al. report that aging-induced proinflammatory IFNγ/Stat1 signalling primes intestinal stem cells to a secretory fate and to antigen presenting cells impairing the regenerative capacity of the aging gut epithelium. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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45. A Story of Kinases and Adaptors: The Role of Lck, ZAP-70 and LAT in Switch Panel Governing T-Cell Development and Activation.
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Fernández-Aguilar, Luis M., Vico-Barranco, Inmaculada, Arbulo-Echevarria, Mikel M., and Aguado, Enrique
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T cells ,T cell receptors ,KINASES ,T cell differentiation ,ANTIGEN presenting cells ,ANTIGEN receptors ,IMMUNE recognition - Abstract
Simple Summary: Tyrosine phosphorylation is the first biochemical event that occurs after TCR engagement, which is crucial for T-cell development, activation and differentiation. Early TCR signals include phosphorylation events in which the tyrosine kinases Lck and ZAP70 are involved. The sequential activation of these kinases leads to the phosphorylation of the transmembrane adaptor LAT, which constitutes a signaling hub for the generation of a signalosome, finally resulting in T-cell activation. The negative regulation of these early signals is key to avoid aberrant processes that could generate inappropriate cellular responses and disease. In this review, we examine and discuss the roles of the tyrosine kinases Lck and ZAP70 and the membrane adaptor LAT in the TCR-signaling cassette, both of their functions in activation signal transduction and the negative-feedback loops in which they participate. A better knowledge of these negative regulatory mechanisms may be critical not only for understanding T-cell activation, but also for a more efficient design of therapeutic approaches and a better understanding of some immune-based pathologies. Specific antigen recognition is one of the immune system's features that allows it to mount intense yet controlled responses to an infinity of potential threats. T cells play a relevant role in the host defense and the clearance of pathogens by means of the specific recognition of peptide antigens presented by antigen-presenting cells (APCs), and, to do so, they are equipped with a clonally distributed antigen receptor called the T-cell receptor (TCR). Upon the specific engagement of the TCR, multiple intracellular signals are triggered, which lead to the activation, proliferation and differentiation of T lymphocytes into effector cells. In addition, this signaling cascade also operates during T-cell development, allowing for the generation of cells that can be helpful in the defense against threats, as well as preventing the generation of autoreactive cells. Early TCR signals include phosphorylation events in which the tyrosine kinases Lck and ZAP70 are involved. The sequential activation of these kinases leads to the phosphorylation of the transmembrane adaptor LAT, which constitutes a signaling hub for the generation of a signalosome, finally resulting in T-cell activation. These early signals play a relevant role in triggering the development, activation, proliferation and apoptosis of T cells, and the negative regulation of these signals is key to avoid aberrant processes that could generate inappropriate cellular responses and disease. In this review, we will examine and discuss the roles of the tyrosine kinases Lck and ZAP70 and the membrane adaptor LAT in these cellular processes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
46. Microneedle patches for vaccine delivery.
- Author
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Hyemee Suh, Juhyung Shin, and Yeu-Chun Kim
- Subjects
DNA vaccines ,VIRUSES ,POLYSACCHARIDES ,CALLOSE ,ANTIGEN presenting cells - Abstract
In today's medical industry, the range of vaccines that exist for administration in humans represents an eclectic variety of forms and immunologic mechanisms. Namely, these are the live attenuated viruses, inactivated viruses, subunit proteins, and virus-like particles for treating virus-caused diseases, as well as the bacterial-based polysaccharide, protein, and conjugated vaccines. Currently, a new approach to vaccination is being investigated with the concept of DNA vaccines. As an alternative delivery route to enhance the vaccination efficacy, microneedles have been devised to target the rich network of immunologic antigen-presenting cells in the dermis and epidermis layers under the skin. Numerous studies have outlined the parameters of microneedle delivery of a wide range of vaccines, revealing comparable or higher immunogenicity to conventional intramuscular routes, overall level of stability, and dose-sparing advantages. Furthermore, recent mechanism studies have begun to successfully elucidate the biological mechanisms behind microneedle vaccination. This paper describes the current status of microneedle vaccine research. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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47. A dataset on 145 chemicals tested in alternative assays for skin sensitization undergoing prevalidation.
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Natsch, Andreas, Ryan, Cindy A., Foertsch, Leslie, Emter, Roger, Jaworska, Joanna, Gerberick, Frank, and Kern, Petra
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ANTIGEN presenting cells ,LYMPHOID tissue ,DENDRITIC cells ,FIRE assay ,CELL lines - Abstract
ABSTRACT Skin sensitization is a key endpoint for cosmetic ingredients, with a forthcoming ban for animal testing in Europe. Four alternative tests have so far been submitted to ECVAM prevalidation: (i) MUSST and (ii) h-Clat assess surface markers on dendritic cell lines, (iii) the direct peptide reactivity assay (DPRA) measures reactivity with model peptides and (iv) the KeratinoSens
TM assay which is based on detection of Nrf2-induced luciferase. It is anticipated that only an integrated testing strategy (ITS) based on a battery of tests might give a full replacement providing also a sensitization potency assessment, but this concept should be tested with a data-driven analysis. Here we report a database on 145 chemicals reporting the quantitative endpoints measured in a U937- test, the DPRA and KeratinoSensTM . It can serve to develop data-driven ITS approaches as we show in a parallel paper and provides a view as to the current ability to predict with in vitro tests as we are entering 2013. It may also serve as reference database when benchmarking new molecules with in vitro based read-across and find use as a reference database when evaluating new tests. The tests and combinations thereof were evaluated for predictivity, and overall a similar predictivity was found as before on three-fold smaller datasets. Analysis of the dose-response parameters of the individual tests indicates a correlation to sensitization potency. Detailed analysis of chemicals false-negative and false-positive in two tests helped to define limitations in the tests but also in the database derived from animal studies. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]- Published
- 2013
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48. Telomere maintenance mechanism subtype reveals different immune activity in vestibular schwannoma
- Author
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Sung, Ji-Yong and Lee, Jung Woo
- Published
- 2023
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49. Heme-Oxygenase-1 Attenuates Oxidative Functions of Antigen Presenting Cells and Promotes Regulatory T Cell Differentiation during Fasciola hepatica Infection.
- Author
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Costa, Monique, da Costa, Valeria, Frigerio, Sofía, Festari, María Florencia, Landeira, Mercedes, Rodríguez-Zraquia, Santiago A., Lores, Pablo, Carasi, Paula, and Freire, Teresa
- Subjects
REGULATORY T cells ,ANTIGEN presenting cells ,HELMINTHIASIS ,T cell differentiation ,FASCIOLA hepatica ,ZOONOSES ,PERITONEAL macrophages - Abstract
Fasciola hepatica is a fluke that infects livestock and humans causing fasciolosis, a zoonotic disease of increasing importance due to its worldwide distribution and high economic losses. The parasite regulates the host immune system by inducing a strong Th2 and regulatory T (Treg) cell immune response through mechanisms that might involve the expression or activity of heme-oxygenase-1 (HO-1), the rate-limiting enzyme in the catabolism of free heme that also has immunoregulatory and antioxidant properties. In this paper, we show that F. hepatica-infected mice upregulate HO-1 on peritoneal antigen-presenting cells (APC), which produce decreased levels of both reactive oxygen and nitrogen species (ROS/RNS). The presence of these cells was associated with increased levels of regulatory T cells (Tregs). Blocking the IL-10 receptor (IL-10R) during parasite infection demonstrated that the presence of splenic Tregs and peritoneal APC expressing HO-1 were both dependent on IL-10 activity. Furthermore, IL-10R neutralization as well as pharmacological treatment with the HO-1 inhibitor SnPP protected mice from parasite infection and allowed peritoneal APC to produce significantly higher ROS/RNS levels than those detected in cells from infected control mice. Finally, parasite infection carried out in gp91
phox knockout mice with inactive NADPH oxidase was associated with decreased levels of peritoneal HO-1+ cells and splenic Tregs, and partially protected mice from the hepatic damage induced by the parasite, revealing the complexity of the molecular mechanisms involving ROS production that participate in the complex pathology induced by this helminth. Altogether, these results contribute to the elucidation of the immunoregulatory and antioxidant role of HO-1 induced by F. hepatica in the host, providing alternative checkpoints that might control fasciolosis. [ABSTRACT FROM AUTHOR]- Published
- 2021
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50. Influence of Peripheral inflammation on the progression of multiple sclerosis: Evidence from the clinic and experimental animal models
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Murta, Veronica and Ferrari, Carina C.
- Subjects
- *
DISEASE progression , *MULTIPLE sclerosis , *ANIMAL models in research , *ETIOLOGY of diseases , *CYTOKINES , *VASCULAR endothelial growth factors , *ANTIGEN presenting cells , *GLUCOCORTICOIDS , *NEURODEGENERATION , *INFLAMMATION - Abstract
Abstract: Multiple sclerosis (MS) is a chronic inflammatory disease characterized by demyelination, remyelination and loss of functions. Even though its etiology is unknown viral, genetic and environmental factors are considered triggers of the disease. MS shows a heterogeneous clinical course, but most patients exhibit exacerbations and remissions from the onset, eventually leading to secondary progressive multiple sclerosis. Systemic inflammatory events are known to signal into the central nervous system (CNS), and can induce a general response known as sickness behavior. Several research papers have demonstrated that a peripheral stimulus can induce the synthesis of cytokines in the brain. In different neurodegenerative diseases peripheral inflammation generates exacerbation to ongoing damage in the brain. In MS, relapsing and remitting episodes are unpredictable; however, peripheral inflammation may exacerbate these events. Clinical studies revealed an association between infections and relapses, which may lead to the worsening of neurological damage. A similar scenario was described in MS animal models demonstrating that peripheral inflammation recrudesced a central ongoing demyelinating lesion. In this paper, we reviewed the existing data on the inflammatory component of MS, with special attention on the effect of peripheral infections in the etiology and progression of MS and its effect on the relapsing and remitting episodes. We also analyzed data concerning the effect of peripheral inflammatory events in MS experimental animal models. This article is part of a Special Issue entitled ''Neuroinflammation in neurodegeneration and neurodysfunction''. [Copyright &y& Elsevier]
- Published
- 2013
- Full Text
- View/download PDF
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