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The Synapse. Structure and Function

  • Book

  • January 2014
  • Elsevier Science and Technology
  • ID: 2634404

The Synapse summarizes recent advances in cellular and molecular mechanisms of synaptic transmission and provides new insights into neuronal plasticity and the cellular basis of neurological diseases.

  • Part 1 provides an in-depth look at structural differences and distribution of various pre- and post-synaptic proteins found at glutamatergic synapses.
  • Part 2 is dedicated to dendritic spines and their associated perisynaptic glia, which together constitute the tripartite synapse. The spines are portrayed as major sites for calcium sequestration and local protein synthesis.
  • Part 3 highlights the important regional and cellular differences between glutamatergic transmission and that of neurotransmitters such as dopamine and acetylcholine that are commonly found in axon terminals without synaptic membrane specializations.
  • Part 4 provides an overview of the synapse from the time of formation to degeneration under the powerful influence of aging or hormonal decline that leads to severe deficits in cognitive function.

Each chapter is illustrated with drawings and images derived from calcium imaging, electron microscopic immunolabeling, or electrophysiology. This book is a valuable reference for neuroscientists and clinical neurologists in both research and clinical settings.

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Table of Contents

Chapter 1: Structure and Complexity of the Synapse and Dendritic Spine Stewart

Chapter 2:  The Molecular Mechanisms Underlying Synaptic Transmission: A View of the Presynaptic Terminal Ashery

Chapter 3: The First Hour in the Life of a Synapse: Contact Formation, Partner Selection and Onset of Function Cheyne

Chapter 4: Structural and Functional Organization of the Postsynaptic Density Verpelli

Chapter 5: The Tripartite Synapse: A Role for Glial Cells in Modulating Synaptic Transmission Blutstein

Chapter 6: Local Protein Synthesis at Synapses Steward

Chapter 7: Estrogen Effects on Hippocampal Synapses Milner

Chapter 8: Trafficking of Glutamate Receptors and Associated Proteins in Synaptic Plasticity Horak

Chapter 9: Structural Alterations of Synapses in Psychiatric and Neurodegenerative Disorders Penzes

Chapter 10: Synaptic Correlates of Aging and Cognitive Decline Hara

Chapter 11: Activity-Induced Fine Structural Changes of Synapses in the Mammalian Central Nervous System Tao-Cheng

Chapter 12: Activity-mediated Structural Plasticity of Dendritic Spines Muller

Chapter 13: Experience-dependent Synaptic Plasticity in the Developing Cerebral Cortex Aoki

Chapter 14: Asynaptic and Synaptic Innervation by Acetylcholine Neurons of the Central Nervous System Descarries

Chapter 15:  Prefrontal Cortical Dopamine Transmission: Ultrastructural Studies and Their Functional Implications Sesak

Authors

Virginia Pickel Weill Cornell Medical College, New York, NY, USA. Virginia M. Pickel, Ph.D., Department of Neurology and Neuroscience, Division of Neurobiology, Weill Cornell Medical College. Dr. Pickel received her M.S. from the University of Tennessee in Knoxville, and her Ph.Do from Vanderbilt University School of Medicine in Nashville. Her past appointment include NIH Postdoctoral and Staff Fellow, Laboratory of Neuropharmacology, St. Elizabeth's Hospital, NIMH, Washington, DC; and Professor of Neurobiology in Neurology and Neuroscience, Weill Cornell Medical College of Cornell University, New York, NY. Throughout her esteemed career, she has been awarded the NIMH Career Development Award, NIMH Research Scientist Award, Solowey Award , and the NIMH MERIT Award. Her ongoing research examines the role of synaptic plasticity in hypothalamic regulation of cardiovascular function and in the mechanisms underlying drug addiction and other psychiatric disorders including schizophrenia. She has contributed to 270 original journal articles and 30 book chapters. Menahem Segal Department of Neurobiology, Weizmann Institute of Science, Rehovot, Israel. I was born on August 11, 1944, towards the end of WWII. My early life memories include running for a shelter to the sound of the sirens, as the Egyptians were bombing Tel Aviv, during the war of 1948. I grew up in Israel, went to school at a local university, and was one of the earliest students to combine Experimental Psychology and Biology. After graduating with a MS degree, I realized that Neuroscience education was non-existent at the time in Israel, and decided to obtain it in the US. I was fortunate to be accepted to graduate studies at Cal Tech, under the supervision of the late Jim Olds, an amazing educational and personal experience. From there I went for a Postdoc position with Floyd Bloom, then at the NIMH. These were the early days of Neuroscience, quite exciting, indeed. This was a transition period from the old paper electrophysiology, with EPSP counts on a Grass camera, to the modern world, and personal computers were about to be invented. My next critical decision was in 1974, to go back to Israel and take a position at the Weizmann Institute, where I have been working since. I could have done better, I could have done worse, but I like what I am doing, studying plasticity in cultured neurons and brain slices, combining electrophysiology and imaging of living dendritic spines. It is fun.