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Traditionally, oligodendrocytes have been assumed to play a minor supporting role in the central nervous system and their importance has generally been overlooked. For the first time, this book provides a dedicated review of all of the major aspects of oligodendrocyte biology, including development, organization, genetics, and immunobiology. Later chapters emphasize the importance of this underestimated cell to the mammalian central nervous system by exploring the role of myelin synthesis and maintenance in neural disease and repair. Particular attention is paid to multiple sclerosis (MS), arguably the prime example of an acquired demyelinating disease, with detailed examinations of the current concepts regarding demyelination, oligodendroglial damage, and remyelination in MS lesions.
This volume looks at the study of oligodendrocytes through in vitro and in vivo techniques, multiple model organisms, using approaches that bridge scales from molecular through system. Chapters in this book cover topics such as fundamental molecular analyses of oligodendrocytes and myelin; in vitro, ex vivo, and in vivo molecular-cellular-electrophysiology-based techniques; oligodendrocyte formation, homeostasis, and disruption in zebrafish and Xenopus; and parallel system-level imaging of animal and human models. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and thorough, Oligodendrocytes: Methods and Protocols is a valuable reference guide that highlights the expansive and fast-paced nature of research into oligodendrocyte biology underlying health and function.
Oligodendrocytes have multiple functions in the central nervous system including mechanical support of neurons, production of myelin sheaths and uptake and inactivation of chemical neurotransmitters released by neurons. Consequently, oligodendrocytes could be involved in the pathology of a number of neurodegenerative diseases. The first chapter of this book examines the range of disorders in which oligodendrocytes play a significant role. In the second chapter, the authors review the effects of microglia on oligodendrocytes in both physiological and pathological conditions. The third chapter focuses on cell transplantation for myelination of axons in spinal cord repair. In the fourth chapter, the authors review data showing the induction of some plasticity of olidogdendrocytes (OL) by growth factors and axon proteins in vitro. Finally, the last chapter is an examination of the potential uses of anti-S100B therapies to treat myelin-related disorders in order to reduce damage and improve recovery, as well as the quality of life of these patients.
This volume looks at the study of oligodendrocytes through in vitro and in vivo techniques, multiple model organisms, using approaches that bridge scales from molecular through system. Chapters in this book cover topics such as fundamental molecular analyses of oligodendrocytes and myelin; in vitro, ex vivo, and in vivo molecular-cellular-electrophysiology-based techniques; oligodendrocyte formation, homeostasis, and disruption in zebrafish and Xenopus; and parallel system-level imaging of animal and human models. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and thorough, Oligodendrocytes: Methods and Protocols is a valuable reference guide that highlights the expansive and fast-paced nature of research into oligodendrocyte biology underlying health and function.
The second edition of Neuroimmune Pharmacology bridges the disciplines of neuroscience, immunology and pharmacology from the molecular to clinical levels with particular thought made to engage new research directives and clinical modalities. Bringing together the foremost field authorities from around the world, Neuroimmune Pharmacology will serve as an invaluable resource for the basic and applied scientists of the current decade and beyond.
This book reviews the role of glial cells (astrocytes, microglia, oligodendroglia, satellite cells, and Schwann cells) in neuronal health and diseases. It discusses the latest advances in understanding their origin, differentiation, and hemostasis. The book also examines the role of microglial cells in central nervous system (CNS) development, maintenance, and synaptic plasticity. Further, the book presents the functions of astrocytes in healthy CNS and their critical role in CNS disorders, including Parkinson's and Alzheimer's diseases. Notably, the book describes the pathobiology, molecular pathogenesis, stem cells, and imaging characteristics of gliomas. It defines the role of glial cells in regulating iron homeostasis and their effect on the neurodegeneration of neurons. Lastly, it covers the structure, function, and pathology of oligodendrocytes and their role in neuronal health and disease. ​
The adult vertebrate central nervous system mainly consists of neurons, astrocytes, microglia cells, and oligodendrocytes. Oligodendrocytes, the myelin-forming cells of the CNS, are subjected to cell stress and subsequent death in a number of metabolic or inflammatory disorders, among which multiple sclerosis (MS) is included. This disease is associated with the development of large demyelinated plaques, oligodendrocyte destruction, and axonal degeneration, paralleled by the activation of astrocytes and microglia as well as the recruitment of peripheral immune cells to the site of tissue injury. Of note, viable oligodendrocytes and an intact myelin sheath are indispensable for neuronal health. For example, it has been shown that oligodendrocytes provide nutritional support to neurons, fast axonal transport depends on proper oligodendrocyte function, and mice deficient in mature myelin proteins eventually display severe neurodegeneration. This Special Issue contains a collection of highly relevant primary research articles as well as review articles focusing on the development, physiology, and pathology of the oligodendrocyte–axon–myelin unit.
Fundamental biochemical studies of basic brain metabolism focusing on the neuroactive amino acids glutamate and GABA combined with the seminal observation that one of the key enzymes, glutamine synthetase is localized in astroglial cells but not in neurons resulted in the formulation of the term “The Glutamate-Glutamine Cycle.” In this cycle glutamate released from neurons is taken up by surrounding astrocytes, amidated by the action of glutamine synthetase to glutamine which can be transferred back to the neurons. The conversion of glutamate to glutamine is like a stealth technology, hiding the glutamate molecule which would be highly toxic to neurons due to its excitotoxic action. This series of reactions require the concerted and precise interaction of a number of enzymes and plasma membrane transporters, and this volume provides in-depth descriptions of these processes. Obviously such a series of complicated reactions may well be prone to malfunction and therefore neurological diseases are likely to be associated with such malfunction of the enzymes and transporters involved in the cycle. These aspects are also discussed in several chapters of the book. A number of leading experts in neuroscience including intermediary metabolism, enzymology and transporter physiology have contributed to this book which provides comprehensive discussions of these different aspects of the functional importance of the glutamate-glutamine cycle coupling homeostasis of glutamatergic, excitatory neurotransmission to basic aspects of brain energy metabolism. This book will be of particular importance for students as well as professionals interested in these fundamental processes involved in brain function and dysfunction.
Oligodendrocytes have multiple functions in the central nervous system including mechanical support of neurons, production of myelin sheaths and uptake and inactivation of chemical neurotransmitters released by neurons. Consequently, oligodendrocytes could be involved in the pathology of a number of neurodegenerative diseases. The first chapter of this book examines the range of disorders in which oligodendrocytes play a significant role. In the second chapter, the authors review the effects of microglia on oligodendrocytes in both physiological and pathological conditions. The third chapter focuses on cell transplantation for myelination of axons in spinal cord repair. In the fourth chapter, the authors review data showing the induction of some plasticity of olidogdendrocytes (OL) by growth factors and axon proteins in vitro. Finally, the last chapter is an examination of the potential uses of anti-S100B therapies to treat myelin-related disorders in order to reduce damage and improve recovery, as well as the quality of life of these patients.