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Every aspect of immune function and host defense is dependent upon a proper supply and balance of nutrients. Severe malnutrition can cause significant alteration in immune response, but even subclinical deficits may be associated with an impaired immune response, and an increased risk of infection. Infectious diseases have accounted for more off-duty days during major wars than combat wounds or nonbattle injuries. Combined stressors may reduce the normal ability of soldiers to resist pathogens, increase their susceptibility to biological warfare agents, and reduce the effectiveness of vaccines intended to protect them. There is also a concern with the inappropriate use of dietary supplements. This book, one of a series, examines the impact of various types of stressors and the role of specific dietary nutrients in maintaining immune function of military personnel in the field. It reviews the impact of compromised nutrition status on immune function; the interaction of health, exercise, and stress (both physical and psychological) in immune function; and the role of nutritional supplements and newer biotechnology methods reported to enhance immune function. The first part of the book contains the committee's workshop summary and evaluation of ongoing research by Army scientists on immune status in special forces troops, responses to the Army's questions, conclusions, and recommendations. The rest of the book contains papers contributed by workshop speakers, grouped under such broad topics as an introduction to what is known about immune function, the assessment of immune function, the effect of nutrition, and the relation between the many and varied stresses encountered by military personnel and their effect on health.
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.
It is only during the last decade that the functions of sinusoidal endothelial cells, Kupffer cells, hepatic stellate cells, pit cells and other intrahepatic lymphocytes have been better understood. The development of methods for isolation and co-culturing various types of liver cells has established that they communicate and cooperate via secretion of various intercellular mediators. This monograph summarizes multiple data that suggest the important role of cellular cross-talk for the functions of both normal and diseased liver. Special features of the book include concise presentation of the majority of detailed data in 19 tables. Original schemes allow for the clear illustration of complicated intercellular relationships. This is the first ever presentation of the newly emerging field of liver biology, which is important for hepatic function in health and disease and opens new avenues for therapeutic interventions.
A review of the field of cytokines in autoimmunity written by 22 researchers suggesting diverse applications, and building on the successes of recent rheumatoid arthritis clinical trials. The contributors present and review findings on arthritis, diabetes, multiple sclerosis, thyroid disease, Sjogren's syndrome, Lupus, scleroderma, and psoriasis. The final sections concentrate on laboratory and clinical concerns working with "knockout" mice, transgenic mice, and cytokine therapy. Distributed by Chapman and Hall. CiP shows the title as Role of cytokines..... Annotation copyright by Book News, Inc., Portland, OR
My personal history in the field of cytokines had an initial period of several years during which my student and then colleague, Werner Muller, tried in vain to attract me to them. My interest always vanished when I was confronted with complex data pointing to func tional redundancy of cytokines in cell culture systems. When gene targeting in the mouse germline became possible, this frustration came to an end. We and others immediately embarked on analyzing the in vivo function of cytokines and the problem of functional redundancy with this powerful new approach. The early cytokine gene knockouts performed by colleagues in Wiirzburg (IL-2) and by ourselves (IL-4 and IL-l 0) seemed to give clear answers and at the same time led to surprises: Each of these cytokines apparently had its own special and irreplaceable function, and this function could be quite distinct from what had been anticipated from functional experiments in vitro. Al though the latter finding is of course a wonderful incentive for fur ther research, the former is pleasing in a general sense since it highlights the value of each of those one hundred thousand genes or so in our genome, cherished by evolution to become respectable mem bers of the community. Even in the present era of "genomics" there will be no way around the careful functional analysis of each gene by itself.
The hematopoietic system plays roles that are crucial for survival of the host: delivery of oxygen to tissues, arrest of accidental blood leaking from blood vessels, and fending off of invading microbes by humoral, cell-mediated, and phagocytic immunity. The activity of the hematopoietic system is staggering: daily, a normal adult produces approximately 2.5 billion erythrocytes, 2.5 billion platelets, and 1 billion granulocytes per kilogram of body weight. This production is adjusted in a timely fashion to changes in actual needs and can vary from nearly none to many times the normal rate depending on needs which vary from day to day, or even minute to minute. In response to a variety of stimuli, the cellular components of the blood are promptly increased or decreased in production to maintain appropriate numbers to optimally protect the host from hypoxia, infection, and hemorrhage. How does this all happen and happen without over or under responding? There has been extraordinary growth in our understanding ofhematopoiesis over the last two decades. Occupying center stage is the pluripotent stern cell and its progeny. Hematopoietic stern cells have been characterized by their capacity for self renewal and their ability to proliferate and differentiate along multiple lineages. Few in number, the stern cell gives rise to all circulating neutrophils, erythrocytes, lymphoid cells, and platelets. In hematopoietic transplantation, the stern cell is capable of restoring long-term hematopoiesis in a lethally irradiated host.
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
Biotechnology and Biopharmaceuticals: Transforming Proteins and Genes into Drugs, Second Edition addresses the pivotal issues relating to translational science, including preclinical and clinical drug development, regulatory science, pharmaco-economics and cost-effectiveness considerations. The new edition also provides an update on new proteins and genetic medicines, the translational and integrated sciences that continue to fuel the innovations in medicine, as well as the new areas of therapeutic development including cancer vaccines, stem cell therapeutics, and cell-based therapies.
This long overdue title provides a comprehensive, up-to-date, state-of-the art review of approved biologic therapies, with coverage of mechanisms of action, Indications for therapy, immunogenicity and a detailed examination of adverse effects and safety of the many and diverse therapeutic agents presented in a total of 13 chapters. It is predicted that by 2016, biologics will make up half of the world's 20 top-selling drugs and by 2018, biologic medicine sales will account for almost half of the world's 100 biggest selling drugs. Recombinant proteins dominate the growing list of the more than 200 approved biotherapeutic agents with targeted antibodies, fusion proteins and receptors; cytokines; hormones; enzymes; proteins involved in blood-clotting, homeostasis and thrombosis; vaccines; botulinum neurotoxins; and, more recently, biosimilar preparations, comprising the majority of approved biologics. Written with clinicians, other health care professionals, and researchers in mind, Safety of Biologics Therapy examines, in a single volume, the full range of issues surrounding the safety of approved biologic therapies. A good understanding of the risks and safety issues of modern biologics therapy is increasingly being demanded of all those connected with their development, handling, prescribing, administration and subsequent patient management. In addition to being of great value to clinicians in all branches of medicine, and to nurses, pharmacists and researchers, this book will prove invaluable for students taking undergraduate and graduate courses in the above disciplines and in the biomedical sciences.
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.