Innate Immune Responses in CNS Inflammation
Author: Mireia Guerau-de-Arellano
Publisher: Frontiers Media SA
Published: 2021-11-30
Total Pages: 256
ISBN-13: 2889717429
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Neuroinflammation and CNS Disorders
Author: Nicola Woodroofe
Publisher: John Wiley & Sons
Published: 2014-04-15
Total Pages: 462
ISBN-13: 1118406540
DOWNLOAD EBOOK →The last decade has seen an upsurge of information on the role of immune responses in neurodegenerative disorders. In many of these diseases it is still unclear whether the innate and adaptive responses are pathogenic or play a role in repair, and thus understanding their precise roles is key to controlling these diseases by designing immune-therapeutic approaches. The connection between many neurological diseases is the realisation that the immune and nervous systems are inextricable linked, and that perturbations in this delicate balance are involved in many disorders. This has opened up new avenues for therapeutic approaches to treatment of CNS inflammatory and neurodegenerative disorders. Neuroinflammation and CNS Disorders brings together the very latest information on the interactions between the immune system and central nervous system. The first section of the book highlights the basic concepts in the field whilst the second section, the main body of the book, covers the role of the immune response in specific disorders of the central nervous system. Neuroinflammation and CNS Disorders will provide an invaluable guide for both researchers and clinicians working in this complex and dynamic field.
Regulating the Development, Homestasis and Response Capacity of the Innate Immune System in Autoimmune Inflammation in the CNS
Author: Jonathan L. McQualter
Publisher:
Published: 2003
Total Pages: 302
ISBN-13:
DOWNLOAD EBOOK →We also report that G-CSF-deficient mice showed a two week delay in the onset of clinical symptoms of EAE, associated with a slower advancement of inflammation into the CNS, even though the autoreactive response was unaffected, suggesting that G-CSF may be important for the initial recruitment of inflammatory cells to the CNS and/or breakdown of the blood-brain barrier. In addition we have demonstrated that TRAIL and LIF may have important roles during the resolution of disease, via elimination of autoreactive T cells and prevention of oligodendrocyte apoptosis, respectively. In summary, we believe the work presented here has provided valuable insight into the underlying mechanisms which mediate the pathogenesis and resolution of EAE and identified important processes which may be targeted for development of novel therapeutic strategies for treatment of autoimmune inflammatory disease, such as MS.
Neuro-Immune Interactions in Inflammation and Autoimmunity
Author: Valentin A. Pavlov
Publisher: Frontiers Media SA
Published: 2018-07-24
Total Pages: 222
ISBN-13: 2889455335
DOWNLOAD EBOOK →The nervous system plays an important role in the regulation of immunity and inflammation. On the other hand unbalanced immune responses in inflammatory and autoimmune conditions may have a deleterious impact on neuronal integrity and brain function. Recent studies have characterized neural pathways communicating peripheral inflammatory signals to the CNS, and brain- and spinal cord-derived circuitries controlling various innate and adaptive immune responses and inflammation. A prototypical neural reflex circuit that regulates immunity and inflammation is the vagus nerve-based “inflammatory reflex”. Ongoing research has revealed cellular and molecular mechanisms underlying these neural circuits and indicated new therapeutic approaches in inflammatory and autoimmune disorders. Pharmacological and bioelectronic modulation of neural circuitry has been successfully explored in preclinical settings of sepsis, arthritis, inflammatory bowel disease, obesity-driven disorders, diabetes and other diseases. These studies paved the way to successful clinical trials with bioelectronic neuronal modulation in rheumatoid arthritis and inflammatory bowel disease. Dysregulated release of cytokines and other inflammatory molecules may have a severe impact on brain function. Brain inflammation (neuroinflammation), imbalances in brain neuronal integrity and neurotransmitter systems, and cognitive impairment are characteristic features of post-operative conditions, sepsis, liver diseases, diabetes and other disorders characterized by immune and metabolic dysregulation. Derangements in cytokine release also play a pivotal role in depression. Characteristic brain reactive antibodies in autoimmune conditions, including systemic lupus erythematosus and neuromyelitis optica, significantly contribute to brain pathology and cognitive impairment. These studies, and the simultaneous characterization of neuro-protective cytokines, identified new therapeutic approaches for treating neurological complications in inflammatory and autoimmune disorders. This Frontiers Research Topic is a forum for publishing research findings and methodological and conceptual advances at the intersection of immunology and neuroscience. We hope that presenting new insight into bi-directional neuro-immune communication in inflammation and autoimmunity will foster further collaborations and facilitate the development of new efficient therapeutic strategies.
Interleukin-1 in the Brain
Author: Nancy Rothwell
Publisher: Pergamon
Published: 1992
Total Pages: 228
ISBN-13:
DOWNLOAD EBOOK →Interest in interleukin-1 (IL-1) has increased dramatically over the last decade, but has been largely restricted to immunologists, cell biologists and those studying inflammation and cancer. However, it has recently been recognized that the brain directly controls or modulates many aspects of immune function, while molecules classically associated with the immune system, such as interleukin-1, are synthesised within the brain and act directly on the central nervous system to modify local and systemic functions. Thus, this topic is relatively new to neurobiologists, and this book is the first comprehensive description of current knowledge on interleukin-1 in the brain, including its location, synthesis and receptors, actions on behaviour, fever, metabolism, neuroendocrine function, electrical activity of the brain, nerve growth factor, and relationship to clinical indications. The book is organised into three sections. The first reviews the data available on the neural localisation of IL-1 and the nature of its central receptors.
Central Nervous System Diseases and Inflammation
Author: Thomas E. Lane
Publisher: Springer Science & Business Media
Published: 2007-12-24
Total Pages: 321
ISBN-13: 0387738940
DOWNLOAD EBOOK →Edited and authored by top names in the field, this book provides a succinct reference on inflammatory central nervous system disease. It focuses on current areas of investigation in the fields of neuroimmunology, virology, pharmacology, and disease. Sections focus on specific categories of diseases, examining the pharmacological, virological, and immunological effects of and on the disease. This book’s unique organization provides a concise overview of inflammatory CNS disease.
Inflammation in the CNS: Advancing the Field Using Intravital Imaging
Author: Saparna Pai
Publisher: Frontiers Media SA
Published: 2017-12-20
Total Pages: 110
ISBN-13: 2889453642
DOWNLOAD EBOOK →Inflammation of the CNS can have devastating, long-lived, and in some cases fatal consequences for patients. The stimuli that can induce CNS inflammation are diverse, and include infectious agents, autoimmune responses against CNS-expressed antigens, and sterile inflammation following ischemia or traumatic injury. In these conditions, cells of the immune system play central roles in promulgation and resolution of the inflammatory response. However, the immunological mechanisms at work in these diverse responses differ according to the nature of the response. Our understanding of the actions of immune cells in the CNS has been restricted by the difficulty in visualising leukocytes as they undergo recruitment from the cerebral microvasculature and following their entry into the CNS parenchyma. However, advances in in vivo microscopy over the last 10-15 years have overcome many of these difficulties, and studies using these forms of microscopy have revealed a wealth of new information regarding the cellular and molecular mechanisms of CNS inflammation. This Research Topic brings together state of the art reviews examining the use of in vivo imaging in investigating inflammation and leukocyte behaviour in the CNS. Papers in this Research Topic describe how in vivo microscopy has increased our understanding of the actions of immune cells in the inflamed CNS, following various stimuli including autoimmunity, infection and sterile inflammation.
Clinical Relevance of the Immune-to-Brain and Brain-to-Immune Communications
Author: Julie Lasselin
Publisher: Frontiers Media SA
Published: 2019-03-29
Total Pages: 172
ISBN-13: 2889457842
DOWNLOAD EBOOK →Experimental and clinical evidence demonstrates an intense crosstalk among the nervous, endocrine and immune systems. The central nervous system (CNS) not only has the capacity to affect peripheral immune function, but is also able to sense and process signals from the peripheral immune system. The bi-directional interaction between the CNS and the peripheral immune system has gained great interest as it can help better understand disease pathophysiology as well as improving health and treatment outcomes in patients. On the one hand, inflammatory factors are known to affect CNS functions and to induce neuropsychiatric symptoms, making immune-to-brain communication highly relevant for psychiatric diseases and their treatments. On the other hand, analyzing pathways of brain-to-immune communication will help to understand the pathophysiology of chronic inflammatory disorders and will form the basis for optimizing treatment of these diseases.
Target Pattern Recognition in Innate Immunity
Author: Uday Kishore
Publisher: Springer Science & Business Media
Published: 2010-01-01
Total Pages: 220
ISBN-13: 144190901X
DOWNLOAD EBOOK →Target pattern recognition in innate immunity is responsible for the immediate, usually protective, responses shown against invading microorganisms, and it is the principal feature of self and non-self recognition by virtue of the recognition of structures on the microbial pathogens, which are not found on host cells. This is an area that has been very actively researched, over approximately the past 12 years, and therefore this volume provides a timely comprehensive, and up to date, summary of the types and range of cell surface, intracellular, and secreted, host proteins involved in the recognition of microbial products, and of the protective mechanisms triggered as a result of the recognition events. The Toll-like receptors, first described in Drosophila and now well-characterised on human cells, provide an excellent demonstration of the wide range of different microbial products recognised by this family of receptors and of the signalling pathways which are triggered thus leading to induction of inflammatory cytokines and the activation of genes producing antimicrobial products. In addition, several cell surface proteins involved in target pattern recognition have been described on the surfaces of macrophages (macrophage mannose receptor and macrophage scavenger receptors), and on dendritic cells (DEC205), and to be involved with the uptake and clearance of whole microorganisms and polyanioic ligands. Pattern recognition is also utilised by intracellular receptors, with NOD-like receptors in the cytosol recognizing microbial molecules and activating the production of inflammatory cytokines or pathways that induce the production of inflammatory molecules. Secreted proteins, such as the pentraxins, which includes the acute phase reacting, C-reactive protein (CRP) and serum amyloid protein (SAP), and the collectins (mannan binding lectin, lung surfactant protein A and D) and ficolins can also readily recruit killing and clearance systems. Indeed, the serum complement system, which is one of the major defence systems in the bloodstream, is efficiently activated by CR P on its binding to the phosphocholine groups of microbial phospholipids—and the subsequent interaction of the bound CR P with C1q—to give classical pathway activation, or MBL, or ficolin, binding to arrays of mannose or N-acetyl-glucosamine residues, respectively, on the surfaces of microorganisms—to give lectin pathway activation. Also, in addition to the activation and clearance events associated with complement activation by some of the secreted pattern recognition receptors, it is accepted that all these pattern recognition receptors can generally accelerate the uptake and clearance of microbes via phagocytic cells. In view of the growing interest in the cross-talk between innate and adaptive immunity, a thorough understanding of the initial recognition and triggering events, mediated via innate immune receptors, as addressed in this volume, is clearly very useful in helping to also fully understand the mechanisms of activation and control of the adaptive immune system—and to allow a full assessment of the relative roles played by innate immunity and adaptive immunity against a particular infection in higher organisms.
Neuroinflammation and Behaviour
Author: Luba Sominsky
Publisher: Frontiers Media SA
Published: 2015-07-21
Total Pages: 138
ISBN-13: 288919602X
DOWNLOAD EBOOK →The brain and immune system are involved in an intricate network of bidirectional communication. This relationship is vital for optimal physiological and psychological development and functioning but can also result in unwanted outcomes. In particular, this interaction plays an important role in cognition, mood and behaviour. Neuroinflammation is known to contribute to neurological and affective disorders including impaired learning and memory, depressive, anxiety and schizoaffective symptoms, as well as pain. The development of these conditions often occurs on the backdrop of pre-existing physical illnesses which give rise to increased activation of the immune system, such as cancer, obesity, infection and autoimmune disorders. Similarly, psychological states can alter regulation of the immune system. This has been most extensively studied in the context of stress and immune function. Understanding the underlying mechanisms that lead to the onset of inflammation-induced neuropathology and stress-induced immune suppression will contribute to the development of novel and effective treatment strategies for both the disease and its neurological side effects. In this research topic we explored the relationship between the immune system and the brain throughout life. We include both original research and review papers from animal, clinical and molecular perspectives.
