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The immune system is a complex network in which different cell types and soluble factors interact to efficiently eliminate various kinds of microorganisms as well as aberrant cell clones. The roots of immunologic investigations reach far into the past. In 430 BC, Thucydides reported that survivors of the plague did not present a second time with similar symptoms. The first report of a successful immu- therapy was made by Edward Jenner in 1798 who found a protective effect of cowpox vaccination against human pox. Since then, much knowledge has been accumulated; today, investigations of the molecular mechanisms of immune regulation are of central research interest. The novel insights into gene polymorphisms and gene regulation gathered from this work has improved our knowledge of individual immune reactions and risk factors in overcoming infections. Strategies to use the immune system for cancer treatment have been propelled by the discovery of divergent immunoregulatory cytokines and the introduction of new gene therapy strategies to modify immune responses. Recently, the discovery of various dendritic cells has focused attention on these cell types as central elements of the immune response and to the possibility of dendritic cell expansion, maturation, and consecutive stimulation with immuno- active tumor-specific peptides. Similarly, methods for ex vivo expansion of various stem cell-derived cell types have led to an improved therapeutic management of various benign and malignant diseases.
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.
Concentrating on proven data and adopting a structure-function approach, this text provides grounding for an intricate understanding of the molecular biology, physiological mechanisms, and routine clinical use in disease settings of colony-stimulating factors (CSFs). This edition includes eight additional chapters, with updates of recently-discovered and established CSFs, each indexed individually.
Leading international experts contribute to this selection of reviews covering the merging fields of growth factors, differentiation factors, and cytokines. These appear to play fundamental roles in a wide variety of physiological and pathophysiological processes that include the regulation of growth in normal and malignant cells, embryogenesis, the immune response, wound healing, inflammation, and atherogenesis. The major aspects of recent research and development are discussed, providing an important update in this pioneering field.
This book describes and summarizes the radiation responses of both normal and neoplastic tissues with a focus on rational strategies for the modification of these responses. Emerging data from molecular oncology and radiobiology are reviewed in depth. The book covers not only general principles of radiation-induced reactions but also a large number of preclinical and clinical data that will guide the reader through this complex and dynamic field and will provide valuable information for the development of further research projects.
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
Leading scientists offer detailed profiles of ten protein drugs currently in development. The case histories of these important new compounds are described from the perspective of their formulation, characterization, and stability. This ready reference also features recent data and an abundance of previously unpublished information. The in-depth coverage includes a highly useful compendium of degradation sites occurring in over 70 proteins. An invaluable aid in the rapid identification of potential `hot spots' in proteins, this accessible compilation allows for inspection of the protein's primary structure and preparation of a hydroflex plot.
A detailed account for cell biologists and clinicians of the colony-stimulating factors.
Provides a core knowledgebase for those with minimal exposure to hematologic molecular biology, fully revised and updated Molecular Hematology brings together the most up-to-date and reliable information on the molecular basis of major hematologic diseases. Edited and authored by leading experts in the field, this volume demonstrates the clinical relevance of molecular biology in the diagnosis and treatment of blood disorders. Concise, accessible chapters address key topics in modern hematology, such as lymphoma genetics, molecular coagulation, thrombophilia, pharmacogenomics, platelet disorders, hemophilia, anemia, and multiple myeloma. Chapters introduce and summarize specific hematologic diseases, explore the pathogenesis of the disorder, highlight new and emerging molecular strategies, and more. Now in its fifth edition, Molecular Hematology is fully revised to incorporate contemporary hematology research and practice. Entirely new chapters cover topics such as CAR-T cell technology, COVID, cancer cell biology, gene therapy and gene editing in clinical practice, as well as the impact of molecular research on the diagnosis and treatment of various malignant hematologic diseases. This edition includes updated suggested readings and a wealth of new full-color charts, graphs, and illustrations throughout. Covers the molecular biology of different blood diseases, their pathogeneses, and current molecular research and therapies Illustrates the impact of molecular research on hematologic investigations and therapeutics Discusses how progress in basic science and therapeutics has improved the diagnosis and care of patients with various hematologic disorders Surveys recent developments in cancer-cell biology, with an emphasis on leukemia and lymphoma Includes access to a companion Digital Edition providing search across the book, downloadable illustrations, and notation tools Molecular Hematology is a must-have resource for established and trainee clinicians, clinical scientists and researchers, medical students, and upper-level undergraduates in the fields of hematology, oncology, and molecular biology.
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.