Sugar chains (glycans) are often attached to proteins and lipids and have multiple roles in the organization and function of all organisms. "Essentials of Glycobiology" describes their biogenesis and function and offers a useful gateway to the understanding of glycans.
The comprehensive guide to the current understanding of galectins and their promising potential in drug design This is the first book focusing on galectins. It was inspired by topics discussed at the symposium "Galectins: Structures, Functions, and Therapeutic Targets" that was a part of the 234th American Chemical Society meeting in 2007. To help chemists, biochemists, and others understand the challenges inherent in the study of galectins and build on recent advances in the field, the editors have compiled articles from leading experts on galectins and their biomedical applications. Galectins includes: * An overview of early galectin research * An explanation of the nature of galectins * A discussion of the structure and functions of galectins, their ligand specificity and molecular mechanisms of action, and the localization of galectins in the cell * An exploration of the roles galectins play in tumor growth and cancer, fibrosis, inflammation, and immunity * A discussion of the effect of galectins on cell migration, angiogenesis, and chemoresistance * An introduction to new approaches to designing galectin inhibitors This is the premier reference on galectins for organic, medicinal, carbohydrate, and pharmaceutical chemists, biochemists, molecular and cell biologists, pharmacologists, cancer researchers, and graduate-level students in these disciplines, as well as clinicians and drug developers.
In the post-genomic era, many efforts have been devoted to better understanding the biological information encoded by the cell "glycome" in normal and pathologic conditions. The glycan signature of human cells plays a pivotal role in regulating fundamental biological processes, which are critical for cell physiology and for cancer as well. Galectins (also worded S-type lectins) are an evolutionarily conserved family of endogenous lectins, which bind carbohydrates with high specificity. These molecules, which can be found both intracellularly and in the extracellular milieu, are functionally active in converting glycan-containing information into cell biological programs. This fashionable mechanism of signal transduction plays a relevant role in regulating several biological functions, including RNA splicing, gene transcription, cell migration and differentiation, apoptosis, immune response, and tumor growth and progression. It is not surprising, indeed, that a large number of studies on galectin-glycan interactions and galectins expression and function in human diseases have been published in the recent literature, spanning from immunology to cardiovascular medicine, from diagnostic Pathology to nuclear medicine. The aim of this Special Issue of IJMS is to collect selected contributions in the field reporting data, concepts, and new ideas, which have the potential to be translated in a clinical setting in the near future, in order to improve the diagnosis and treatment of cancer and other relevant human diseases.
Lessons in Immunity: From Single-cell Organisms to Mammals stems from the activity of the Italian Association of Developmental and Comparative Immunobiology (IADCI), represented by the editors. This book is presented as a series of short overviews that report on the current state of various relevant fields of immunobiology from an evolutionary perspective. The overviews are written by authors directly involved in the research, and most are members of the IADCI or have otherwise been involved in the related research for their respective overview. This publication offers scientists and teachers an easy and updated reference tool. - Provides simple and updated reviews on the immunobiology of a wide spectrum of organisms, considered in an evolutionary context - Focuses on both cells and humoral components of a variety of non-classical model organisms - Offers in a single volume many contributions which can help with understanding the evolution of immune responses and the main adaptations in animal phyla - Presents a valuable holistic cross-sectional approach for teaching immunology and its applications
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. - Provides new evidence on the origin of the adaptive immune system, the evolution of innate immunity, and evolution-stage specific immune defense mechanisms - Not only presents the cells and molecules involved in the adaptive immune response in Amphioxus, but also characterizes the origination and evolution of the gene families and pathways involved in innate immunity - Includes much pioneering work, from the molecular, genomic, and cellular to the individual level
This book systemically presents the latest research on lectins, covering all the major topics in the field, including the heterocomplex of lectins and Toll-like receptors, protective versus pathogenic functions in connection with microbial infections, and novel strategies for enhancing host immunity against infectious diseases caused by viruses, bacteria, and fungi. Lectins are a large group of glycan-binding proteins that recognize diverse glycan and non-glycan structures expressed on prokaryotic and eukaryotic cells, and are vital to cell-cell interactions, the attachment of microbes to host cells, and the recognition and activation of immune responses to exogenous and endogenous danger signals. The composition and structure of microbes are complex and include numerous ‘pathogen-associated molecular patterns’ or ‘damage-associated molecular patterns’. As such, microbes’ interactions with immune cells activate multiple innate immunity receptors and produce distinct inflammatory reactions, which can be protective to contain microbial invasion, or pathogenic to cause tissue damage and shock syndrome in the host. The book shares lessons learned from state-of-the art research in this field, highlights the latest discoveries, and provides insightful discussions on lectin-mediated inflammatory reactions, while also outlining future research directions.
This volume in The Year in Immunology series focuses on reviews covering novel approaches to our understanding of immunoregulatory mechanisms. A wide-range of topics is covered within this volume, including: Lineage determination of T cells Roles of various receptors in B-cell activation Activation of plasmactyoid dendritic cells Micro-RNAs (miRNAs) in inflammation and immunity Autoimmune disorders NOTE: Annals volumes are available for sale as individual books or as a journal. For information on institutional journal subscriptions, please visit www.blackwellpublishing.com/nyas. ACADEMY MEMBERS: Please contact the New York Academy of Sciences directly to place your order (www.nyas.org). Members of the New York Academy of Science receive full-text access to the Annals online and discounts on print volumes. Please visit http://www.nyas.org/MemberCenter/Join.aspx for more information about becoming a member.
Glycans are complex, multi-unit carbohydrate structures that cover the surfaces of cells and guide cellular interactions. Glycobiology studies the synthesis, structure, function, regulation, and evolution of glycans and glycan-binding molecules. Glycans are synthesized and added as modifications to proteins, lipids, and RNA. Though they are often associated with functions outside of cells (glycoproteins and glycolipids are most often extracellular or secreted), glycans are also active within cells. Glycans are known to have diverse physiological roles ranging from cell adhesion (maintaining tissue structure and integrity) to molecular recognition (marking position during development, or self-identity in immunity and reproduction). Glycans also regulate cellular activity and physiological state. The families of proteins that bind glycans are called lectins. Glycans and lectins are vital in many diseases such as cancer, neurodegeneration, inflammation, allergies, asthma, and autoimmune disorders.
A comprehensive survey of the topic, ranging from basic molecular research to clinical applications. Critical reviews by leading experts in each field summarize the state of knowledge and discuss the anticipated benefits of novel approaches and strategies. These include the impact of modern analysis techniques on glycobiology, the use of synthetic neoglycoproteins, or the clinical consequences of new insights into the physiological role of lectins and glycoconjugates in pathology, oncology, immunity, neuroscience and reproduction medicine. Throughout, the aim is to separate realistic applications from mere hopes.
Introduces Groundbreaking Approaches for Assessing Lectin Function Lectins and their ligands are under quite a heavy microscope due to their potential applications to pharmacology, immunology, cancer therapy, and agriculture. With growing interest in the glycobiology field, the body of research related to lectin roles has grown at an explosive rate