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Gangliosides in Health and Disease, Volume 156, presents the latest information on Gangliosides, a class of glycolipids that are found on all vertebrate cell surfaces, and are particularly abundant in the brain. Individual chapters in this new volume cover Gangliosides as Toxin Receptors, Gangliosides in Cancer Cell Signaling, Gangliosides in inflammation and neurodegeneration, Gangliosides as functional galectin receptors, Gangliosides in signal transduction, Gangliosides in brain tumor immunology, and Gangliosides in axon regeneration and stability, amongst other related topics. This book brings together world experts in ganglioside structure and function who have been assembled to contribute to this thorough update of the field. Contains accessible content that is ideal for students and researchers alike Written by leading authorities in the field
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.
As clinical management of inherited metabolic diseases (IMDs) has improved, more patients affected by these conditions are surviving into adulthood. This trend, coupled with the widespread recognition that IMDs can present differently and for the first time during adulthood, makes the need for a working knowledge of these diseases more important than ever. Inherited Metabolic Disease in Adults offers an authoritative clinical guide to the adult manifestations of these challenging and myriad conditions. These include both the classic pediatric-onset conditions and a number of new diseases that can manifest at any age. It is the first book to give a clear and concise overview of how this group of conditions affects adult patients, a that topic will become a growing imperative for physicians across primary and specialized care.
This book reviews recent progress in understanding of the signaling and biochemistry of GM3 ganglioside in eukaryotic cells. GM3 is the simplest of the gangliosides and the precursor of other gangliosides. It is expressed in the outer leaflet of plasma cell membranes and has roles in the recognition, interaction, binding, adhesion, and motility of cells. In addition, GM3 has been documented to have functional roles in cell migration, proliferation, senescence, and apoptosis. The full range of topics of interest are addressed in the book. The early chapters discuss the synthesis of GM3, its molecular localization in cells, and its basic function as an interacting molecule. The ways in which GM3 exerts its effects via various growth factor receptors are fully explored. Current knowledge of the part played by GM3 in health and disease is discussed in depth. For example, its roles in preventing inflammation, inhibiting tumor angiogenesis and tumor growth, and suppressing arthritis are highlighted, and attention drawn to the significance of GM3 as a driver of impaired wound healing in diabetics. The book will be of interest to all who want a comprehensive update on research in this field.
The understanding of the pathogenesis of diabetic nephropathy (DN) has advanced considerably in the last few years. Much has been learned about the natural history, the relative lack of significance of microalbuminuria in reflecting underlying pathological change, questionable effects of ACEs and ARBs on the progression of nephropathy, the emergence of new biomarkers such as Cystatin and the role of cytokines, inflammatory molecules and adhesion molecules. Podocytes, the cells with limited ability to replenish and to repair, play a pivotal role in glomerular filtration. In recent years these cells have become the focus for research on pathogenesis of DN as well as other nephropathies. A recent review from the NIH has identified new insights into the pathophysiology, the genetics and the role of the podocytes and some of the important new metabolic pathways such as mTOR or autophagy which may be targeting the podocyte. Knowledge is emerging about the role of podocyte as a part of immune system and about the role of growth factors and cytokines in regulation of podocyte functions. Presented in this e-book articles highlight recent advances in our understanding of the pathogenesis of kidney pathology and the role of podocytes in this process.
This book presents the latest knowledge and the most recent research results in the field of ganglioside biochemistry. The early chapters cover all relevant background on sialic acids and their biosynthesis, on N-glycolylneuraminic acid (Neu5Gc), which cannot be synthesized by humans, and on general aspects of ganglioside research. Ganglioside adsorption, disorders of ganglioside degradation, and the regulation of gangliosides are thoroughly discussed. A major focus of the book is the role of gangliosides in cancer. Here, the discussion encompasses, for example, the biological importance, antigenicity, and immunological actions of tumor-associated gangliosides (TAGs), the significance of different glycolipids and gangliosides as TAGs, and emerging anti-cancer vaccine strategies. The ability of sialic acids and TAGs of tumor cells to escape immunosurveillance and immunoediting also receives detailed attention. The significance of sialic acids in regulation of the complement system is explained, and the closing chapter focuses especially on the role of sialyl T antigen in cancer. The book will be of value for all who are interested in functional glycobiology and glycomic studies.
The so-called postgenomic research era has now been launched, and the field of gly cobiology and glycotechnology has become one of the most important areas in life science because glycosylation is the most common post-translational modification reaction of proteins in vivo. On the basis of Swiss-Prot data, over 50% proteins are known to undergo glycosylation, but in fact the actual functions of most of the sugar chains in the glycoconjugates remain unknown. The complex carbohydrate chains of glycoproteins, glycolipids, and proteoglycans represent the secondary gene products formed through the reactions of glycosyl transferases. The regulation of the biosynthesis of sugar chains is under the control of the expression of glycosyltransferases, their substrate specificity, and their local ization in specific tissue sites. There is a growing body of evidence to suggest that these enzymes play pivotal roles in a variety of important cellular differentiation and developmental events, as well as in disease processes. Over 300 glycosyltransferases appear to exist in mammalian tissues. If the genes that have been purified and cloned from various species such as humans, cattle, pigs, rats and mice are counted as one, approximately 110 glycogenes that encode glycosyltransferases and related genes have been cloned at present, and this number continues to grow each day. However, most of the functions of the glycosyltransferase genes and related genes are unknown. This fact has stimulated numerous new and interesting approaches in molecular biologi cal investigations.
This book is about the various roles of bioactive ceramides and other sphingolipids in cellular biology. The enigmatic biophysical and biochemical properties of ceramides and their propensity to influence membranes whether as rafts or protein-permeable channels are heavily discussed. Metabolism of ceramides and their metabolites is also focused with ceramide synthase family of proteins being a target of extensive review. Ceramide 1-phosphate and other sphingolipids are also presented in cellular physiology and pathophysiology. Prokaryotic origins of mitochondria at the level of membranes and the occurrence of apoptosis in bacteria are presented. Many aspects of ceramide and sphingolipid biology are addressed in this book. Its focus is the metabolism of ceramide in normal and diseased states and the biophysical and biochemical mechanisms governing the bioactivity of these molecules. Sphingolipid research has surged over the past thirty years and this book gathers the recent findings of various aspects of sphingolipid biochemistry. World-renowned scientists from the field of lipid biology, specifically sphingolipid biochemistry, were gathered to write this book. Scholars from most continents of the globe committed to write diligently about their expertise and the newest findings in the relevant fields. This book came to fruition after almost a year and a half of laborious preparation and diligent writings. This book is targeted to the experienced reader who is looking to read about the various aspects of bioactive ceramide signaling, as well as to the newcomer into the field, as the topics are explained in concise yet very informative manner. The authors and editor wish all readers a pleasant time reading this volume, and are adamant that this book will meet all expectations.
Metabolism includes various pathways of chemical reactions; understanding these pathways leads to an improved knowledge of the causes, preventions, and cures for human diseases. Medical Biochemistry: Human Metabolism in Health and Disease provides a concise yet thorough explanation of human metabolism and its role in health and diseases. Focusing on the physiological context of human metabolism without extensive consideration of the mechanistic principles of underlying enzymology, the books serves as both a primary text and resource for students and professional in medical, dental, and allied health programs.
In the Preface to Volume 1, we stated: This series recognizes that investigators who have entered neurochemistry from the biochemical tradition have a rather specialized view of the brain. Too often, interdisci plinary offerings are initially attractive but turn out to recite basic biochemical considera tions. We have come to believe that there are now sufficiently large numbers of neurochemists to support a specialized venture such as the present one. We have begun with consideration of traditional areas of neurochemistry which show considerable scientific activity. We hope they will serve the neurochemist both for general reading and for specialized information. The reader will also have the opportunity to reflect on the unbridled speculation that results from the disinhibiting effects on the author who has been invited to write a chapter. We plan occasionally also to offer reviews of areas not completely in the domain of neurochemistry which we nevertheless feel to be sufficiently timely to be called to the attention of all who use chemical principles and tools in an effort to better understand the brain. The contributions to the present volume pursue these goals. We believe the series has set high standards and has continued to uphold them. In accordance with the principle stated in the last paragraph of the Preface Volume 1, we include in this volume Koshland's "Sensory Response in Bacteria" (Chapter 5).