Contents:
1. Bacterial and Plant Toxins - General Mode of Action A.E. Frankel and P.D. Hall 2. Diphtheria Toxin-Structure, Function and its Therapeutic Use R.C. Ratts and J.C. VanderSpek 3. Ricin A-Structure, Function and its Clinical Applications M. Colmbatti 4. Pathways of Delivering Toxins into the Cytosol of Target Cells M. Lord, P.J. Day, M.E. Jackson, S.R. Owens, J.C. Simpson, D.C. Smith and L.M. Roberts 5. Engineering Immunotoxins for Improving their Therapeutic Activity Y. Reiter, G. Denkberg and C. Cohen 6. Ligand-receptor Interactions Studied with Chimeric Proteins H. Lorberboum-Galski 7. Chimeric Proteins: a Novel Approach for Eliminating Specific Cell Populations for Targeted Human Therapy A. Ben-Yehudah, R. Belostotsky, R. Aqeilan, Y. Azar, I. Steinberger, A. Fishman, A. Nechushtan, S. Yarkoni and H. Lorberboum-Gaski 8. Chimeric Neurotoxins - a Molecular Neurosurgery Approach P. Lazarovici 9. Targeted Immunotherapy of Autoimmune Diseases by Chimeric Toxins B.A. Holder and J.G. Krueger 10. Immunotoxins for Targeted Cancer Therapy R.J. Kreitman 11. Molecular Targeting of Brain Tumors with Cytotoxins W. Debinski 12. Toxins in the Development of Vaccines C.T. Hsu, C.Y. Ting and J. Hwang

Provides a detailed survey of new therapies for autoimmune diseases, exploring the rationale for their use and clinical data regarding their potential benefit. The book emphasizes biological interventions based on the pathogenesis of autoimmunity, ranging from altering tolerance to modifying cytokines and changing lymphocyte function.

Handbook of HLA Typing Techniques is an authoritative collection of HLA phenotyping and genotyping techniques to be used at the bench level and as a reference. The information presented, much of it previously unpublished, was written by leading authorities in the field of transplantation. Each chapter provides detailed methodologies, notes on the interpretation of tests, reference material, and appendices.

Phenotyping topics covered include microlymphocytotoxicity assay, monoclonal antibodies, complement testing, serum screening for HLA antibodies, lymphocytotoxic crossmatching, and mixed and primed lymphocyte testing. Genotyping topics discussed include well-established RFLP analysis and polymerase chain reaction applications of PCR-SSO, PCR-RFLP, PCR-SSP, and PCR fingerprinting and related DNA heteroduplex technologies. Handbook of HLA Typing Techniques is an indispensable sourcebook for all researchers, practitioners, and students in the international tissue typing and human immunogenetics community.

'A perfect blend of cutting-edge science and compelling storytelling. Daniel Davis has a rare knack for making complex science comprehensible and thrilling' BILL BRYSON Welcome to a revolution in the science of you. Recent and dramatic breakthroughs in our understanding of the body will profoundly change the experience of being human in the coming century. Already they are opening up boundary-breaking possibilities for intervention at every level, from our brains and genes to our microbiomes and immune systems. These will confer unprecedented powers over health, childhood development, our cognitive and physical abilities, and affect every aspect of how we live our lives and think about ourselves. As the secrets of our bodies are revealed, we all will face previously unthinkable choices with consequences we have yet to understand. Imagine knowing years in advance the precise likelihood of developing specific cancers, thanks to a bespoke understanding of every cell in your body; following a diet and health regime tailored to your microbiome; continuous monitoring of your body's workings and well-being; taking drugs that improve your cognition and help to acquire new skills; manipulating the genes of your unborn children to eliminate disease or even enhance their capabilities. Written by an award-winning scientist at the forefront of this work, The Secret Body shows how these radical and disconcerting possibilities have been made real thanks to the ingenious technologies and decades-long collaborations of scientists worldwide. A gripping drama of discovery and a landmark account of this dawning revolution, it presents a vision of the human body of dizzying complexity, wonder and possibility. 'A beautifully rendered picture of the startling new discoveries in human biology which are radically altering our understanding of how we function and what our future holds' BRIAN COX 'An extraordinary journey that reveals the magnificence, intricacy and beauty of the human body, fundamentally changing the way we see ourselves. Masterful' ALICE ROBERTS

Written by an immunologist, this book traces the concept of immunity from ancient times up to the present day, examining how changing concepts and technologies have affected the course of the science. It shows how the personalities of scientists and even political and social factors influenced both theory and practice in the field. With fascinating stories of scientific disputes and shifting scientific trends, each chapter examines an important facet of this discipline that has been so central to the development of modern biomedicine. With its biographical dictionary of important scientists and its lists of significant discoveries and books, this volume will provide the most complete historical reference in the field.
Written in an elegant style by long-time practicing immunologist
Discusses the changing theories and technologies that guided the field
Tells of the exciting disputes among prominent scientists
Lists all the important discoveries and books in the field
Explains in detail the many Nobel prize-winning contributions of immunologists"

With the interest in biomarkers available for diagnostic, therapeutic, prognostic and research applications growing rapidly, it is now expected that every pathologist should be aware of the correct application of immunohistochemistry in daily practice. This fully updated fourth edition provides practical guidance about preparation, key uses and pitfalls of antibodies for immunohistology in a unique A-Z format. Seventeen full colour infographics present detail about specific biomarkers, including FOXL2, GATA3 and SOX10, pulling out information about expression in tissues and prognosis. Expanded with new biomarkers and the removal of biomarkers that are no longer in common use, each entry in this concise new edition follows a standard structure for quick and easy access by busy readers.

In the first hundred years of the history of immunology, the question of species and specificity were the core problems of research and practice in immunology. The old botanical dispute about the nature of species, which has its roots in the classical Western thought of Aristotle, reappeared in the late nineteenth century in the disputes of bacteriologists, to be followed by their students, the immunologists, immunochemists, and blood group geneticists. In the course of this controversy, Mazumdar argues, five generations of scientific protagonists make themselves aggressively plain. Their science is designed only in part to wrest an answer from nature: it is at least as important to wring an admission of defeat from their opponents. One of those on the losing side of the debate was the Austrian immunochemist Karl Landsteiner, whose unitarian views were excluded from the state health and medical institutions of Europe, where specificity and pluralism, the legacies of Robert Koch and Paul Ehrlich, were entrenched.

This study looks at the way the products of arachidonic acid metabolism are active both in normal and abnormal immune responses. While some of the fundamental issues such as whether lymphocytes are capable of producing prostaglandins and leukotrienes are still hotly debated, the evidence is overwhelming that many specific immunological problems and disease states are associated with alterations in the normal balance of arachidonic acid metabolism. This book provides a review of the history and chemistry of the arachidonic acid cascade as well as an exhaustive survey of the literature concerning the interaction of arachidonic acid metabolites with cells of the immune system. The author also presents and discusses the evidence demonstrating prostaglandin and leukotriene participation in response to injury and in malignancy, tissue and organ rejection, rheumatoid arthritis, autoimmunity and allergy.

This book lays out a number of the general issues concerning the structure of rugged fitness landscapes and examines both the history and the current status of experimental work on somatic mutation and the maturation of the immune response.

A step-by-step guide to commonly used procedures, Methods in Cellular Immunology addresses both human and murine models, in addition to such topics as PCR and apoptosis. The basic format of the original version has been maintained, and the goal remains the same: to make it a useful and easy-to-use tool for investigators employing cellular immunological techniques in their research, regardless of whether or not immunology is their main area of expertise. It provides information about manufacturers and commercial sources of chemicals and reagents and a comprehensive list of references, allowing readers to refer back to the original information and/or techniques.

T cells play a vital role mediating adaptive immunity, a specific acquired resistance to an infectious agent produced by the introduction of an antigen. There are a variety of T cell types with different functions. They are called T cells, because they are derived from the thymus gland. This volume discusses how T cells are regulated through the operation of signaling mechanisms. Topics covered include positive and negative selection, early events in T cell receptor engagement, and various T cell subsets.

Inaugurates a series for scientists and clinicians on the application of recent biotechnological methods in experimental and clinical medicine. Focuses on the design, synthesis, and utilization of biologically active peptides (short strings of amino acids not large enough to warrant the term protein

Kingship and Masculinity in Late Medieval England explores the dynamic between kingship and masculinity in fifteenth century England, with a particular focus on Henry V and Henry VI. The role of gender in the rhetoric and practice of medieval kingship is still largely unexplored by medieval historians. Discourses of masculinity informed much of the contemporary comment on fifteenth century kings, for a variety of purposes: to praise and eulogise but also to explain shortcomings and provide justification for deposition. Katherine J. Lewis examines discourses of masculinity in relation to contemporary understandings of the nature and acquisition of manhood in the period and considers the extent to which judgements of a king's performance were informed by his ability to embody the right balance of manly qualities. This book's primary concern is with how these two kings were presented, represented and perceived by those around them, but it also asks how far Henry V and Henry VI can be said to have understood the importance of personifying a particular brand of masculinity in their performance of kingship and of meeting the expectations of their subjects in this respect. It explores the extent to which their established reputations as inherently 'manly' and 'unmanly' kings were the product of their handling of political circumstances, but owed something to factors beyond their immediate control as well. Consideration is also given to Margaret of Anjou's manipulation of ideologies of kingship and manhood in response to her husband's incapacity, and the ramifications of this for perceptions of the relational gender identities which she and Henry VI embodied together. Kingship and Masculinity in Late Medieval England is an essential resource for students of gender and medieval history.

'A big-picture forecast of how medicine stands on the threshold of a revolution that will radically change all of our lives' The Times Welcome to a revolution in the science of you! This landmark new book from award-winning scientist Daniel M. Davis explores the future of the human body. Imagine taking drugs to help you acquire new skills, or knowing years in advance the precise likelihood of developing specific cancers, or following a diet and health regime tailored to your microbiome, or even having continuous monitoring of your body's workings and well-being. Written by an award-winning scientist, this landmark book shows how these radical and disconcerting possibilities have been made real. It is at once a gripping drama of scientific ingenuity, discovery and collaboration, and a vision of the human body of dizzying complexity and wonder. 'The startling new discoveries...are radically altering our understanding of how we function and what our future holds' BRIAN COX 'Thrilling' BILL BRYSON 'Brilliant' TIM SPECTOR 'Extraordinary' ALICE ROBERTS

Since the identification of the first cases of the coronavirus in December 2019, there has been a significant amount of confusion regarding the origin and spread of the so-called 'coronavirus', SARS-CoV-2, and the cause of the disease COVID-19. Conflicting messages from the media and officials across different countries and organizations, the abundance of disparate sources of information, unfounded conspiracy theories on the origins of the virus, unproven therapies, and inconsistent public health measures, have all served to increase anxiety in the population. Where did the virus come from? How is it transmitted? How does it cause disease? Is it like flu? What is a pandemic? In this concise and accessible introduction, a leading expert provides answers to these commonly asked questions. This revised and updated edition now also covers how the virus mutates, how important these mutations are, how vaccines work, and what we can expect in the near and long-term future.

A Practical Guide to Monoclonal Antibodies J. Eryl Liddell and A. Cryer Department of Biochemistry, University of Wales College of Cardiff, UK

This book has evolved as a result of the success of the post-experience courses in monoclonal antibody technology run by the Department of Biochemistry, University of Wales College of Cardiff. The authors have designed it to provide all the information required by a competent scientist to produce monoclonal antibodies, from basic tissue culture techniques, through immunisation strategies and screening test design, to the production of hybridoma cell lines and basic antibody characterisation, purification and labelling. The protocols are presented in a clearly distinguishable format for use at the laboratory bench. The concluding chapter provides an overview of the current status of human hybridoma production and antibody engineering using techniques of molecular biology. This book is essential reading for graduates in the biological sciences and in medicine who are involved in the making and using of monoclonal antibodies in commercial, university and medical laboratories.

Cytochrome P450 Function and Pharmacological Roles in Inflammation and Cancer, the latest volume in the Advances in Pharmacology series, presents not only the function of cytochrome P450 but also its pharmacological roles in inflammation and cancer.

In the first hundred years of the history of immunology, the question of species and specificity were the core problems of research and practice in immunology. The old botanical dispute about the nature of species, which has its roots in the classical Western thought of Aristotle, reappeared in the late nineteenth century in the disputes of bacteriologists, to be followed by their students, the immunologists, immunochemists, and blood group geneticists. In the course of this controversy, Mazumdar argues, five generations of scientific protagonists make themselves aggressively plain. Their science is designed only in part to wrest an answer from nature: it is at least as important to wring an admission of defeat from their opponents. One of those on the losing side of the debate was the Austrian immunochemist Karl Landsteiner, whose unitarian views were excluded from the state health and medical institutions of Europe, where specificity and pluralism, the legacies of Robert Koch and Paul Ehrlich, were entrenched.

Immunology: A Short Course, 7th Edition introduces all the critical topics of modern immunology in a clear and succinct yet comprehensive fashion. The authors offer uniquely-balanced coverage of classical and contemporary approaches and basic and clinical aspects. The strength of Immunology: A Short Course is in providing a complete review of modern immunology without the burden of excessive data or theoretical discussions. Each chapter is divided into short, self-contained units that address key topics, illustrated by uniformly drawn, full-color illustrations and photographs. This new edition of Immunology: A Short Course: Has been fully revised and updated, with a brand new art program to help reinforce learning Includes a new chapter on Innate Immunity to reflect the growth in knowledge in this area Highlights important therapeutic successes resulting from targeted antibody therapies Includes end of chapter summaries and review questions, a companion website at www.wileyimmunology.com/coico featuring interactive flashcards, USMLE-style interactive MCQs, figures as PowerPoint slides, and case-based material to help understand clinical applications

Advances in Immunology, Volume 138, the latest in a long-established and highly respected publication, presents current developments and comprehensive reviews in immunology. Articles address the wide range of topics that comprise immunology, with this release including chapters on Eosinophil Development, Disease Involvement, and Therapeutic Suppression, Immunoglobulin A responses to the microbiota, Unexpected roles for intracellular complement in the regulation of TH1 responses, Magnesium in T cell signaling, and immunological synapse and T cell signaling.

The 11th Hour Series of revision guides are designed for quick reference.

The organization of these books actively involves studetns in the learning process and reinforces concepts. At the end of each chapter there is a test including multiple choice questions, true/false questions and short answer questions, and every answer involves an explanation. Each book contains icons in the text indicating additional support on a dedicated web page.

Students having difficulties with their courses will find this an excellent way to raise their grades.
Clinical correlations or everyday applications include examples from the real world to help students understand key concepts more readily.
Dedicated web page, there 24 hours a day, will give extra help, tips, warnings of trouble spots, extra visuals and more.
A quick check on what background students will need to apply helps equip them to conquer a topic.
The most important information is highlighted and explained, showing the big picture and eliminating the guesswork.
After every topic and every chapter, lots of opportunity for drill is provided in every format, multiple choice, true/false, short answer, essay.
An easy trouble spot identifier demonstrates which areas need to be reinforced and where to find information on them.
Practice midterms and finals prep them for the real thing.

Using bioinformatics methods to generate a systems-level view of the immune system; description of the main biological concepts and the new data-driven algorithms. Despite the fact that advanced bioinformatics methodologies have not been used as extensively in immunology as in other subdisciplines within biology, research in immunological bioinformatics has already developed models of components of the immune system that can be combined and that may help develop therapies, vaccines, and diagnostic tools for such diseases as AIDS, malaria, and cancer. In a broader perspective, specialized bioinformatics methods in immunology make possible for the first time a systems-level understanding of the immune system. The traditional approaches to immunology are reductionist, avoiding complexity but providing detailed knowledge of a single event, cell, or molecular entity. Today, a variety of experimental bioinformatics techniques connected to the sequencing of the human genome provides a sound scientific basis for a comprehensive description of the complex immunological processes. This book offers a description of bioinformatics techniques as they are applied to immunology, including a succinct account of the main biological concepts for students and researchers with backgrounds in mathematics, statistics, and computer science as well as explanations of the new data-driven algorithms in the context of biological data that will be useful for immunologists, biologists, and biochemists working on vaccine design. In each chapter the authors show interesting biological insights gained from the bioinformatics approach. The book concludes by explaining how all the methods presented in the book can be integrated to identify immunogenic regions in microorganisms and host genomes.

Parasites and infectious diseases are everywhere and represent some of the most potent forces shaping the natural world. They affect almost every aspect imaginable in the life of their hosts, even as far as the structure of entire ecosystems. Hosts, in turn, have evolved complex defences, with immune systems being among the most sophisticated processes known in nature. In response, parasites have again found ways to manipulate and exploit their hosts. Ever since life began, hosts and parasites have taken part in this relentless co-evolutionary struggle with far-reaching consequences for us all. Today, concepts borrowed from evolution, ecology, parasitology, and immunology have formed a new synthesis for the study of host-parasite interactions. Evolutionary parasitology builds on these established fields of scientific enquiry but also includes some of the most successful inter-disciplinary areas of modern biology such as evolutionary epidemiology and ecological immunology. The first edition of this innovative text quickly became the standard reference text for this new discipline. Since then, the field has progressed rapidly and an update is now required. This new edition has been thoroughly revised to provide a state-of-the-art overview, from the molecular bases to adaptive strategies and their ecological and evolutionary consequences. It includes completely new material on topics such as microbiota, evolutionary genomics, phylodynamics, within-host evolution, epidemiology, disease spaces, and emergent diseases. Evolutionary Parasitology is suitable for advanced undergraduates, graduate level students, and interdisciplinary researchers from a variety of fields including immunology, genetics, sexual selection, population ecology, behavioural ecology, epidemiology, and evolutionary biology. Those studying and working in adjacent fields such as conservation biology, virology, medicine, and public health will also find it an invaluable resource for connecting to the bases of their science.

Amphioxus Immunity: Tracing the Origin of Human Immunity covers a remarkable range of information about Amphioxus and its evolutionary context. This compilation of what is currently known about Amphioxus, with a sharp focus on its immune system, includes 13 topics, such as: Amphioxus as a model for understanding the evolution of vertebrates basic knowledge of immunology immune organs and cells of amphioxus a genomic and transcriptomic view of the Amphioxus immunity pattern recognition system in Amphioxus transcription factors in Amphioxus the complement system of Amphioxus the oxidative burst system in Amphioxus immune effectors in Amphioxus lipid signaling of immune response in Amphioxus apoptosis in amphioxus; primitive adaptive immune system of Amphioxus and future research directions This valuable reference book is loaded with information that will be useful for anyone who wishes to learn more about the origin of vertebrates and adaptive immunity.

"A Historical Perspective on Evidence-Based Immunology" focuses on the results of hypothesis-driven, controlled scientific experiments that have led to current understanding of immunological principles. This book helps beginning students in biomedical disciplines to understand the basis of immunologic knowledge and more advanced students to gain further insight. It also serves as a crucial reference for researchers studying the evolution of ideas and scientific methods.

Among the fundamental insights covered in the book are: Immunologic toleranceInteractions of lymphocytes with antigen - TCR and BCRGeneration of diversity and mechanism of tolerance of T cells and B cellsThe first cytokinesThe concept of autoimmunityIdentification of NK cells as a unique cell typeThe structure of antibody molecules and identification of Fab and Fc regionsDendritic cells
A complete review of the hypothesis-driven, controlled scientific experiments that have led to our current understanding of immunological principlesExplains the types of experiments that were performed and how the interpretation of the experiments altered the understanding of immunologyPresents concepts such as the division of lymphocytes into functionally different populations in their historical context"