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Cytokines are the "words" of immunity, serving as mediators within and outside the immune system. There is tremendous interest in their expliotation as therapeutic tools in diverse human diseases and considerable effort has been made to understand and utilize their pharmacology. This book examines this pharmacology, from developments and characterization of simple chemicals and their mechanism of action to the use of biotechnology-based approaches. The book puts cytokines and their pharmacology in context and examines their involvement in individual organ-disease systems.
The driving force for research on cytokines has always been their clinical promise. Their biological properties suggested a key role in hematopoiesis, immunity, tumor genesis, hemostasis, vascularization, repair of connective tissues and integration of the immune system with the neuroendocrine system. Animal studies have shown that cytokines could be used as effective biotherapeutics with easily manageable and reversible toxicities. Clinical trials have confirmed these findings, culminating in the licensing of a number of the cytokines such as interferon alpha, interferon gamma, interleukin 2, erythropoietin, granulocyte colony stimulating factor, and granulocyte-macrophage colony stimulating factor. Many other cytokines are in clinical trials. This is the first comprehensive volume on the cytokines written primarily from a medical perspective. After presenting background information about the structure, production, assays and systemic effects of cytokines and their receptors, it is organized around diseases and organ systems. Infectious diseases, autoimmunity, immunodeficiency states, defective hematopoiesis, allergies, injury repair, cancer, vascular and skin diseases, and neurological disorders are all covered. This work reviews the role that cytokines play in the pathogenesis, diagnosis and therapy of each disease. The authors assess both the current state of the art and the potential for future applications.
With contributions by numerous experts
International Review of Experimental Pathology, Volume 34: Cytokine-Induced Pathology Part B: Inflammatory Cytokines, Receptors, and Disease presents experimental findings obtained from the most recently studied cytokines and growth factors. The book is organized into three sections. Section I contains studies on pathology induced by inflammatory cytokines. Topics covered include the biological effects of interferon-?, tumor necrosis factor- a (TNF), interleukin-8, transforming growth factor-ß, and leukemia inhibitory factor on experimental animals; TNF-induced pathophysiologic alterations; and the biological activity of leukemia inhibitory factor (LIF). The papers in Section II examine cytokine receptors, including their structure and signal transduction; interferon-? (IFN-?) activity; and immunoregulatory role of TNF-a. Section III is devoted to cytokine receptors, including studies on TNF properties relevant to tissue injury and its role in T cell-mediated immunopathological reactions in vivo; the role of cytokines in experimental pulmonary fibrosis induced in mice; and the role of cytokines in bacterial meningitis.
This comprehensive book explores the role of cytokines in immunotoxicology and human health using a variety of complex methods, from basic research to highly applied therapeutic applications. It includes a basic study of cytokines and details the effects of cytokines on the immune system and in treating cancer. The book serves as both a primer and a starting point for a more detailed investigation of the role these biological regulators play.
Within the past few years, it has become recognized that the immune system communicates to the brain. Substances released from activated immune cells (cytokines) stimulate peripheral nerves, thereby signaling the brain and spinal cord that infection/inflammation has occurred. Additionally, peripheral infection/inflammation leads to de novo synthesis and release of cytokines within the brain and spinal cord. Thus, cytokines effect neural activation both peripherally and centrally. Through this communication pathway, cytokines such as interleukin-1, interleukin-6 and tumor necrosis factor markedly alter brain function, physiology and behavior. One important but underrecognized aspect of this communication is the dramatic impact that immune activation has on pain modulation. The purpose of this book is to examine, for the first time, immune-to-brain communication from the viewpoint of its effect on pain processing. It is aimed both at the basic scientist and health care providers, in order to clarify the major role that substances released by immune cells play in pain modulation. This book contains chapters contributed by all of the major laboratories focused on understanding how cytokines modulate pain. These chapters provide a unique vantage point from which to examine this question, as the summarized work ranges 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.
Until a few years ago, cytokines were only known to immunologists; now these molecules have burst upon neurosciences and permeated several avenues of current research. This book examines the possible role of cytokines in mental depression, based on recent clinical and experimental data, and constitutes the first attempt to make a synthesis between the exciting new developments in cytokine research and their implications for the pathophysiology of mental disorders.
This book provides comprehensive coverage of the cytokines from a pharmacological approach. The chapters are presented in a consistent format allowing easy cross-reference, with sample diagrams and a summary table of essential facts for each chapter at the end of the book. Cytokines is unique in stressing cytokine biology and the application of research data to provide disease therapy. With 33 detailed and up-to-date chapters about individual cytokines, this comprehensive reference will provide both clinicians and researchers in immunology and pharmacology with invaluable information. Genetic information and sequences Protein structure Cell sources and production Biological activity Cytokine receptor structure and signal transduction Discussion of the role of cytokines in disease and the potential for therapy Summary table of essential facts Comprehensive bibliography
This book opens a new page of neuro-immunobiology providing substantive experimental and clinical data to support current understanding in the field, and potential applications of this knowledge in the treatment of disease. The volume is a collection of complex, new data drawn from multiple areas of investigation in the field. The contents summarize current understanding on the presence and function of CNS cytokines and their receptors in a variety of CNS cells during health and disease. The chapters are a collection of complex, new data demonstrating the presence and synthesis of cytokines in brain cells, as well as their receptors on cell membranes in health and disease. The strength of the volume are the descriptions of the authors own investigations, together with those of others in the field pertaining to a large number of cytokines in brain function, as well as mechanisms involved in the development of CNS disorders, including multiple sclerosis and Alzheimer’s disease. Also included are novel approaches to the treatment of CNS disorders based on new experimental data. The contributors to this volume are internationally known scientists and clinical researchers in their respective fields of investigation and treatment. *Opens a new page of neuro-immunobiology and provides substantive evidence for the promise of this field in the treatment of disease*Summarizes current understanding on the presence and function of central nervous system (CNS) cytokines and their receptors in a variety of CNS cells during health and disease*Includes novel approaches to the treatment of CNS disorders based on new experimental data*Offers new insight into triggers for the development of autoimmune diseases in the brain and the possibilities for treatment