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Provides Insight into How Cytokine Action Impacts the Physiology and Pathology of the CNS. As with the first edition of Cytokines and the CNS, this completely updated and revised edition introduces neurobiologists to cytokine biology and immunologists to the unique functions of cytokines in CNS physiology. The dramatically accelerating interest in cytokines and cytokine/chemokine signaling over the past several years has encouraged an explosion of literature on cytokines. The similarity between factors involved in inflammation or immunity, and those implicated in neural development, physiology, and repair has become so apparent that familiarity with cytokines must now be considered an essential element in the neurobiologist’s cognitive tool-kit. Conversely, for immunobiologists, the concepts elaborated by neurobiologists to understand developmental patterning and networked organ function continue to evolve in such a way that comprehension of cytokine action in the CNS can only enhance a further understanding of immune system function. Cytokines and the CNS, Second Edition is patterned after the first edition; however, the wealth of knowledge now available adds a tremendous amount of insight and new implications. To guarantee a fresh perspective, the editors made a conscious choice to utilize an entirely new set of contributors, all experts in various aspects of cytokine research. Cytokines and the CNS, Second Edition starts with a chapter on the CNS, focusing on pathological reactions to insult. Next, come three chapters on cytokine biology, followed by four chapters that integrate cytokine biology into basic CNS processes (development; inflammation; immunity; degeneration/repair), after which five chapters apply this body of knowledge to disease or pathology. The book closes with a look at the application of cytokine biology to the treatment of disease, a brand new area of research.
The purpose of this book is to examine immune-to-brain communication from the viewpoint of its effect on pain processing, and to clarify the major role that substances released by immune cells play in pain modulation. In these chapters, contributed by major laboratories whose focus is understanding how cytokines modulate pain, the perspectives examined range from evolutionary approaches across diverse species, to the basics of the immune response, to the effect of cytokines on peripheral and central nervous system sites, to therapeutic potential in humans. -- book cover.
Cytokines had been characterized in the early eighties as communication mole cules between immune cells, and between immunocytes and other peripheral cells, such as fibroblasts and endothelial cells. They play a key role in the regulation of the immune response and the coordination of the host response to infection. Based on these biological properties, nobody would have predicted that one decade later cytokines would burst upon neurosciences and permeate into several avenues of current research. In neurology, the connection between cytokines and inflammation, and the demonstration of a pivotal role of some of these molecules in cell death by apoptosis, prompted the investigation of their involvement in several neurological diseases involving an inflammatory component, including multiple sclerosis, brain trauma, stroke, and Alzheimer's disease. This movement started in the late eighties, and the corresponding field of research, known as neuroimmunology, is presently booming. In psychiatry, however, the relationship between cytokines and mental disorders was much less evident and took longer to materialize. The first indication that cytokines might be involved in psychopathology came from cancerology and internal medicine.
Advances in itch research have elucidated differences between itch and pain but have also blurred the distinction between them. There is a long debate about how somatic sensations including touch, pain, itch, and temperature sensitivity are encoded by the nervous system. Research suggests that each sensory modality is processed along a fixed, direct-line communication system from the skin to the brain. Itch: Mechanisms and Treatment presents a timely update on all aspects of itch research and the clinical treatment of itch that accompanies many dermatological conditions including psoriasis, neuropathic itch, cutaneous t-cells lymphomas, and systemic diseases such as kidney and liver disease and cancer. Composed of contributions from distinguished researchers around the world, the book explores topics such as: Neuropathic itch Peripheral neuronal mechanism of itch The role of PAR-2 in neuroimmune communication and itch Mrgprs as itch receptors The role of interleukin-31 and oncostatin M in itch and neuroimmune communication Spinal coding of itch and pain Spinal microcircuits and the regulation of itch Examining new findings on cellular and molecular mechanisms, the book is a compendium of the most current research on itch, its prevalence in society, and the problems associated with treatment.
For many years, the immune and central nervous systems were thought to function independently with little or no interaction between the two. This view has und- gone dramatic changes over the past three decades. Indeed, we now know that there exists various feedback loops between the brain and immune systems that impact signi cantly upon different behavioral processes, including normal behavior and mental disorders. Pioneering efforts in generating this change were initiated by a number of early investigators. Included were those whose efforts were directed at establishing neuroimmune connections as well as others whose research focused upon the relationship between immunity, cytokines, and behavior. This book brings together outstanding scientists and clinicians who have made major contributions to the rapidly developing eld investigating the relationship between immunity and behavior. The book is divided into three parts. The rst part describes pathways by which the brain and immune systems communicate and int- act with each other. In the chapter “Cytokines and the Blood–Brain Barrier” p- vides insight into interactions between the blood–brain barrier and cytokines. Such interactions underlie basic communication between the immune system and brain that are present in normal as well as in disease conditions. In the chapter “Neu- chemical and Endocrine Responses to Immune Activation: The Role of Cytokines,” the neurochemical and endocrine consequences of immune challenge and cytokine administration on central neurotransmitter activity are discussed.
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.
The goal of this fascinating new book is to review the diversity of methods available to apply in situ hybridization histochemistry (ISHH) to a variety of experimental questions. This work includes topics such as synthesis and use of nick-translated DNA probes for ISHH, synthesis and use of oligomeric DNA probes for ISHH, and synthesis and use of RNA probes for ISHH. These interesting chapters describe the preparation of different radiolabeled probes for ISHH. They also discuss their respective advantages and limitations, and describe current results based on the use of these various probes. Sections of the text highlight low and high resolution autoradiography for ISHH, the use of biotin-labeled probes for ISHH, as well as the use of ISHH in combination with established anatomical techniques. In Situ Hybridization Histochemistry answers all of your questions regarding the quantification of ISHH. It also provides a practical description of typical protocols, both from molecular biology and histology. Investigators will understand and value this useful, powerful tool-whatever their backgrounds might be.
This book is designed as an introductory text in neuroendocrinology; the study of the interaction between the brain and endocrine system and the influence of this on behaviour. The endocrine glands, pituitary gland and hypothalamus and their interactions and hormones are discussed. The action of steroid and thyroid hormone receptors and the regulation of target cell response to hormones is examined. The function of neuropeptides is discussed with respect to the neuroendocrine system and behaviour. The neuroimmune system and lymphokines are described and the interaction between the neuroendocrine and neuroimmune systems discussed. Finally, methods for studying hormonal influences on behaviour are outlined. Each chapter has review and essay questions designed for advanced students and honours or graduate students with a background in neuroscience, respectively.
Psychotic Disorders: Comprehensive Conceptualization and Treatments emphasizes a dimensional approach to psychosis--one of the most fascinating manifestations of altered brain behavior--that cuts across a broad array of psychiatric diagnoses from schizophrenia to affective psychosis and organic disorders like epilepsy and dementias. Written by an international roster of over seventy leading experts in the field, this volume comprehensively reviews, critiques, and integrates available knowledge on the etiology, mechanisms, and treatments of psychotic disorders, and outlines ways forward in both research and clinical practice towards more objective, mechanistically-based definitions of psychotic disorders. Chapters address topics such as psychosis phenomenology, biomarkers and treatments, the overlaps and interfaces between psychiatric disorders within the psychosis dimension, and novel disease definitions. Furthermore, the volume incorporates findings on potential mechanisms, bridges between various system levels (i.e., genetic, epigenetic, molecular and cellular, brain circuit and function, psychological, social, environmental and cultural) and their interactions, as well as the potential role in causation and/or mediation in psychotic disorders. Finally, the volume outlines a broad array of treatment approaches, from the readily available (e.g., psychopharmacology, various modalities of psychotherapy) to the experimental (e.g., cognitive interventions, neuromodulation). With a concluding section of forward perspectives conjecturing future directions and related challenges, this book aspires to stimulate new knowledge, generate novel frameworks, and carry new directions forward on psychotic disorders.