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The book highlights different aspects of current understanding of neurotrophin-receptor signal transduction pathways, including the signaling endosome hypothesis. Findings on the synaptotrophic potential of NGF and related neurotrophins, neurotrophin involvement in neuronal stem cell biology, biological activity of the NGF precursor proNGF, and nociception- and antinociception-associated activity of NGF and/or BDNF are also presented and discussed. Several chapters deal with the involvement of various neurotrophins in the control of different nonneuronal processes, such as immune, inflammatory and allergic reactions, tissue repair and wound healing. The findings showed that neurotrophins play important roles in the pathobiology of a surprising variety of seemingly unrelated non-neurological diseases, including bronchial asthma, rheumatoid arthritis, systemic sclerosis, hair growth disorders, psoriasis, corneal and skin ulcers, atherosclerosis, metabolic syndrome, crush syndrome, and Behçet's disease. There are also chapters on the involvement of NGF and related molecules in neurological diseases, including Huntington's disease, the multiple sclerosis-like model of experimental allergic encephalomyelitis, peripheral neuropathies, neuroblastoma, Parkinson's disease, Alzheimer's disease, and even motion sickness syndrome, also psychiatric disorders, including depression and schizophrenia. Finally, potential important therapeutic benefits are presented, for diabetic neuropathy, gastrointestinal dysmotility, CNS neurodegenerative disease, spinal cord injuries, cutaneous and corneal ulcers, as well as peripheral ischemic vasculopathy.
More than fifty years after its initial discovery by Rita Levi Montalcini and Stanley Cohen and the proposal of the neurotrophic theory, nerve growth factor (NGF) has become the prototype of a family of biologically active molecules called neurotrophic factors (NTFs). This book addresses important advances in NTF research, from basic science to clinical medicine. It focuses mainly on NGF, but also includes individual chapters dealing with the brain-derived neurotrophic factor (BDNF) and ligands of the glial cell line-derived neurotrophic factor (GDNF) family, which have attracted increasing interest in the neuroscience community because of their diverse effects in the normal and diseased brain. In the first part of the book, the authors provide the necessary background for the following chapters and discuss the basic mechanisms and pathways of NGF signal transduction. In the following sections, they then examine the regenerative activity and neuroprotective capacity of NGF during development and in normal and diseased tissues in adulthood and discuss the role of NGF in Alzheimer's disease and nociception. In addition, the role of NGF in processing sensory information and its influence on behavior is further discussed. The book concludes with an overview of the diagnostic and therapeutic potential of NTF in psychiatric disorders and obesity management, as well as a highlight of NGF research in veterinary medicine. Many of the authors of this volume participated in the Second International Rita Levi-Montalcini Meeting, held in Bologna, Italy, in 2019. The book covers a wide range of important topics in past and current NTF research and will appeal to basic researchers and clinicians alike.
Neuroimmunology is a rapidly-growing branch of biomedical science that studies of all aspects of the interactions between the immune system and nervous system. It deals with, among other things, the physiological functioning of the neuroimmune system in states of both health and disease; malfunctions of the neuroimmune system in disorders (autoimmune diseases, hypersensitivities, immune deficiency), the physical, chemical and physiological characteristics of the components of the neuroimmune system in vitro, in situ, and in vivo. Despite the brain's status as an immune privileged site, an extensive bi-directional communication takes place between the nervous and the immune system in both health and disease. Immune cells and neuroimmune molecules such as cytokines, chemokines, and growth factors modulate brain function through multiple signalling pathways throughout the lifespan. Immunological, physiological and psychological stressors engage cytokines and other immune molecules as mediators of interactions with neuroendocrine, neuropeptide, and neurotransmitter systems. For example, brain cytokine levels increase following stress exposure, while treatments designed to alleviate stress reverse this effect. This book presents leading research in the field.
Mouse Models of Development and Disease, Volume 148 in the Current Topics in Developmental Biology series, highlights new advances in the field, with this volume presenting chapters describing Mouse models of Charcot-Marie-Tooth disease, Mouse models in palate and craniofacial development, Uterine morphogenesis, Improving the translatability of mouse models of Alzheimer's disease, Mouse models for the study of clustered protocadherins, Mechanisms of organ regeneration in the spiny mouse, Comparative studies of organ vascularization, Modeling human urinary tract development and hereditary malformations, Innervation in organogenesis, Between embryo and adult: somatic growth of the kidney, and Mouse models in the study of Notch signaling. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in the Current Topics in Developmental Biology series - Updated release includes the latest information on Mouse Models of Development and Disease
The aim of this book is to provide an updated, detailed and comprehensive account of the field through a cutting-edge analysis by leading experts in the area. To achieve this, the book is divided into three parts, focusing on the peptides operating both centrally and peripherally at the same time as providing an integral and integrated perspective of the multifaceted and complex regulation of energy balance homeostasis. Part I contains three chapters covering the central pathways involved in the control of food intake. The first of these is devoted to the orexigenic neuropeptides, i.e. those that increase or stimulate appetite, while the second is a description of the peptides with anorexigenic effects, i.e. those that decrease or stop food intake. Since this is a rapidly evolving field, the third chapter concentrates on emerging and newly identified factors and their interaction with the already well-known peptides. Part II encompasses six chapters that deal with the peripheral signals participating in energy homeostasis and their control in health and disease. Regulation of body weight was once considered a simple feedback control system in which the hypothalamus modulated food intake and energy expenditure to compensate for fluctuations in body weight. The existing body of evidence has fostered the transition from the classic adipostat, a sensor of body adiposity that informs the hypothalamus about the abundance of energy stores, to a more dynamic and multifactorial model including signals emerging from several different organs such as the gut, the liver, the pancreas and the vascular system. The underlying molecular mechanisms by which adipose tissue enlargement and the subsequent increase in adipokines contribute to the pathophysiological events in the gastrointestinal, hepatic, pancreatic, musculoskeletal, cardiovascular and immune systems are now beginning to be better understood and are covered in detail in this section of the book. Part III contains six chapters providing an integrative approach to current knowledge in energy balance regulation. Adipose tissue biology and the hierarchy of the neural circuitry controlling energy homeostasis deserve special attention, as does the relevance of food reward signals and the links between the homeostatic and hedonic systems. Specific chapters address the available advances in technology to analyse these complex issues, including functional neuroimaging and the whole range of the 'omics' strategies. The final chapter takes a fresh and innovative look at future potential approaches to obesity management.
This well-established international series examines major areas of basic and clinical research within neuroscience, as well as emerging and promising subfields. This volume explores interdisciplinary research on Attention and interaction of Attention with other cognitive processes including perception, learning, and memory. The papers cover major research on attention in Cognitive Neuroscience and Cognitive Psychology. The volume presents recent advances on attention including binding, dynamics of attention, attention and perceptual organization, attention and consciousness, emotion and attention, development of attention, crossmodal attention, computational modeling of attention, control of actions, attention and memory, and meditation.
This is a well-established international series that examines major areas of basic and clinical research within neuroscience (as well as emerging and promising subfields): neuroanatomy, neurophysiology, neuroimaging, neurobiology, neuropharmacology, neuroendocrinology, neuropathology, neuropsychiatry, and neurobehavior. This volume provides a thorough treatment of gene models of schizophrenia, presenting articles from leading contributors in this important area.
This volume presents articles from the leading experts in the field in nanobiotechnology, providing students and researchers with a comprehensive review of the newly emerging area of neuroscience. All aspects of nanomaterials induced alteration in brain function are considered. Basic chapters on methods and ways to enhance nano-drug delivery into the brain are presented as well as chapters on functional and structural changes in the CNS, including gene expression and related issues. Particular attention is given to possible therapeutic advancement regarding nano-drug formulation and their role in neuroprotection.
This serial is firmly established as an extensive documentation of the advances in contemporary brain research. Each volume presents authoritative reviews and original articles by invited specialists.This volume concentrates on coma and consciousness science. presenting articles from leading figures in the area on the clinical and ethical implications of work in this field. The book provides a thorough review of the various aspects of coma science from a review of the concepts, questioning of recent advances, case studies, through to where research in the field is heading. - Provides the reader with a unique overview of all aspects of new advances in coma science - Broad focus with contributions by the top scientists worldwide in the respective disciplines
This volume presents recent empirical advances using neuroscience techniques to investigate how culture influences neural processes underlying a wide range of human abilities, from perception and scene processing to memory and social cognition. It also highlights the theoretical and methodological issues with conducting cultural neuroscience research. Section I provides diverse theoretical perspectives on how culture and biology interact are represented. Sections II –VI is to demonstrate how cultural values, beliefs, practices and experience affect neural systems underlying a wide range of human behavior from perception and cognition to emotion, social cognition and decision-making. The final section presents arguments for integrating the study of culture and the human brain by providing an explicit articulation of how the study of culture can inform the study of the brain and vice versa.