Description
Nonclassical Ion Channels in the Nervous System
Methods in Signal Transduction Series
Coordinators: Tian-le Xu, Wu Long-Jun
Language: EnglishSubjects for Nonclassical Ion Channels in the Nervous System:
Keywords
ASIC1a; TRPA1; TTX; TRPM8; Trp Channel; ENaC; ASIC1a Channel; TRPC Channel; TRPV1 Channel; TREK1 Channel; P2X Receptors; HCN Channel; Gaba Neuron; ASIC Channel; Activate ASICs; Acidic Pocket; Piezo Channels; TRPA1 Channel; Lysosomal Ca; Volume Regulated Anion Channels; TM Domain; NAc Core; AgRP Neuron; Gaba Release; Voltage Gated Proton Channel
Publication date: 09-2023
· 15.6x23.4 cm · Paperback
Publication date: 08-2021
· 15.6x23.4 cm · Hardback
Description
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Ion channels generate bioelectricity. Recent findings have documented the biophysical properties, the structure, assembly and regulation, and function and dysfunction of nonclassical nervous system ion channels. This book reviews nonclassical ion channel research, ranging from the basic biology, structure, regulations to their functions not only in normal physiology but also neurological disorders, using a variety of cutting-edge techniques and novel animal models.
Preface. Editors. Contributors. Endogenous Activation and Neurophysiological Functions of Acid-Sensing Ion Channels. Acid-Sensing Ion Channels and Synaptic Plasticity: A Revisit. Trimeric Scaffold Ligand-Gated Ion Channels. Eukaryotic Mechanosensitive Ion Channels. Ion Channels in Human Pluripotent Stem Cells and Their Neural Derivatives. Exocytosis of Nonclassical Neurotransmitters. Nonclassical Ion Channels in Learning and Memory. Neuropeptide Regulation of Ion Channels and Food Intake. Prefrontal Inhibitory Signaling in the Control of Social Behaviors. Studying Brain Function Using Non-human Primate Models. Application of In Vivo Ca2+ Imaging in the Pathological Study of Autism Spectrum Disorders. Nonclassical Ion Channels in Depression. Ion Channels of Reward Pathway in Drug Abuse. Ion Channel Conformational Coupling in Ischemic Neuronal Death. Nonclassical Ion Channels and Ischemia. Transient Receptor Potential Channels and Itch. Two-Pore Domain Potassium Channels in Pain and Depression. Lysosomal Ion Channels and Human Diseases. Microglial Voltage-Gated Proton Channel Hv1 in Neurological Disorders. Index.
Tian-Le Xu, PhD, Principal Investigator and Professor
Collaborative Innovation Center for Brain Science, Department of Anatomy and Physiology, Shanghai Jiao Tong University School of Medicine, Shanghai
Dr. Tian-Le Xu obtained PhD of Neurobiology from Fourth Military Medical University. He did his postdoc training at Kyushu University and then joined University of Science and Technology of China as Professor. He was a principal investigator at Institute of Neuroscience, Chinese Academy of Sciences. Currently, he is Professor at Department of Anatomy and Physiology, Shanghai Jiao Tong University School of Medicine. Dr. Xu’s research focuses on neuronal signaling and related neural disorders including chronic pain and ischemic stroke, with an emphasis on the role of acid-sensing ion channels (ASICs) in these processes. The research from Dr. Xu’s lab has unveiled rich and new knowledge on the regulation and diverse functions of ASICs in health and disease.
Long-Jun Wu, PhD, Professor and Consultant
Department of Neurology, Mayo Clinic
Dr. Long-Jun Wu received PhD of Neurobiology from University of Science and Technology of China. After postdoc trainings at University of Toronto and Harvard Medical School, Dr. Wu was Instructor at Harvard Medical School and then Assistant Professor at Rutgers University. Currently, he is Professor and Consultant at Department of Neurology, Mayo Clinic. Dr. Wu’s recent research primarily focuses on the neuroimmune interaction, particularly the function of microglial ion channels and receptors, in normal and diseased brain. By understanding and manipulating microglial functions, Dr. Wu’s research aim to develop potential therapeutics targeting microglia in the treatment of various neurological disorders, such as epilepsy, chronic pain, stroke, neurodegeneration and autoimmune neurology.
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