Protein Trafficking in Neurons 1st Edition by Andrew Bean 9780123694379 0080465897
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ISBN 10: 0080465897
ISBN 13: 9780123694379
Author: Andrew Bean
The efficient delivery of cellular constituents to their proper location is of fundamental importance for all cells and is of particular interest to neuroscientists, because of the unique functions and complex architecture of neurons. Protein Trafficking in Neurons examines mechanisms of protein trafficking and the role of trafficking in neuronal functioning from development to plasticity to disease. The book is divided into seven sections that review mechanisms of protein transport, the role of protein trafficking in synapse formation, exo- and endocytosis, transport of receptors, trafficking of ion channels and transporters, comparison of trafficking mechanisms in neuronal vs. non-neuronal cell types, and the relationship between trafficking and neuronal diseases such as Alzheimer’s, Huntington’s and Prion Diseases.· Provides a comprehensive examination of membrane/protein movement in neuronal function.
· Sections on synapse development, synaptic transmission, and the role of trafficking in neurological disease
· Includes a focus on Molecular Mechanisms
· Illustrated with color summary pictures
· The only book examining protein trafficking and its functional implications, written by leaders in the field
Protein Trafficking in Neurons 1st Table of contents:
SECTION I: PROTEIN MOVEMENT
CHAPTER 1: Molecular Mobility in Cells Examined with Optical Methods
I. BROWNIAN MOTION AND THE FUNDAMENTALS OF DIFFUSION
II. A VIEW OF CYTOPLASM AND MEMBRANE FROM THE SINGLE MOLECULE PERSPECTIVE
III. DIFFUSION AND MOBILITY OF PROTEINS IN CELLS STUDIED WITH BIOPHYSICAL TECHNIQUES
IV. CONCLUSIONS AND FUTURE DIRECTIONS
CHAPTER 2: The Role of Molecular Motors in Axonal Transport
I. INTRODUCTION
II. KINESIN
III. CYTOPLASMIC DYNEIN
IV. DYNACTIN
V. MYOSIN
VI. TRANSPORT REGULATION AND CONTROL
VII. AXONAL TRANSPORT
VIII. PROTEIN DEGRADATION
IX. mRNA LOCALIZATION
X. MITOCHONDRIA TRANSPORT
XI. AXON SIGNALING STRATEGY
XII. SIGNALING ADAPTORS
XIII. SURVIVAL SIGNALING
XIV. DEATH SIGNALS
XV. VIRUSES
XVI. NEURODEGENERATIVE DISEASE
XVII. SUMMARY
References
CHAPTER 3: Role of APC Complexes and the Microtubule Cytoskeleton in Neuronal Morphogenesis
I. INTRODUCTION
II. ROLE OF MICROTUBULES IN NEURONAL POLARIZATION
III. TARGETING OF APC TO TIPS OF NEURITES
IV. ROLE OF APC IN MICROTUBULE DYNAMICS AT TIPS OF NEURITES
V. SUMMARY
References
SECTION II: SYNAPTIC DEVELOPMENT
CHAPTER 4: Assembly of Synapses in the Vertebrate Central Nervous System
I. INTRODUCTION
II. CELL BIOLOGY OF CNS SYNAPSES
III. MOLECULAR MECHANISMS OF SYNAPSE FORMATION
IV. SYNAPTIC SPECIFICITY AND MOLECULAR DIVERSITY OF CELL SURFACE RECEPTORS
V. CONCLUDING REMARKS
References
CHAPTER 5: Presynaptic Terminal Differentiation
I. MORPHOLOGY OF THE PRESYNAPTIC TERMINI OF VERTEBRATE AND INVERTEBRATE SYNAPSES
II. PROTEIN COMPONENTS OF PRESYNAPTIC TERMINI
III. SNAREs
IV. FUTURE PERSPECTIVES
References
SECTION III: EXO-/ENDOCYTOSIS
CHAPTER 6: Neuronal Exocytosis
I. INTRODUCTION
II. CONCLUSIONS
References
CHAPTER 7: Endocytosis in Neurons
I. ENDOCYTOSIS IN NEURONS
II. THE CLATHRIN-DEPENDENT ENDOCYTIC MACHINERY
III. MECHANISMS OF PRESYNAPTIC VESICLE CYCLING
IV. ENDOCYTOSIS OF POSTSYNAPTIC NEUROTRANSMITTER RECEPTORS
V. CONCLUSIONS
References
SECTION IV: RECEPTOR TRAFFICKING
CHAPTER 8: Postsynaptic Machinery for Receptor Trafficking
I. POSTSYNAPTIC MICROANATOMY: DENDRITES AND SPINES
II. TRAFFICKING OF NEW RECEPTORS: DENDRITIC SECRETORY ORGANELLES
III. ENDOCYTOSIS AND THE ENDOCYTIC ZONE
IV. ENDOSOMES AND RECEPTOR RECYCLING
V. THE EXTRASYNAPTIC PLASMA MEMBRANE AND LATERAL MOVEMENT OF RECEPTORS
VI. PERSPECTIVES
References
CHAPTER 9: Synaptic Trafficking of AMPA Receptors
I. INTRODUCTION
II. REGULATED RECEPTOR ASSEMBLY AND EXIT FROM THE ER
III. DENDRITIC LOCALIZATION AND MEMBRANE INSERTION
IV. RETENTION AND CONSTITUTIVE CYCLING AT THE SYNAPSE
V. REGULATED SYNAPTIC TARGETING
VI. CONCLUSIONS
References
CHAPTER 10: Subunit-Specific NMDA Receptor Trafficking to Synapses
I. INTRODUCTION
II. ASSEMBLY OF NMDA-Rs
III. EXITING THE ENDOPLASMIC RETICULUM„THE ROLE OF NR1 SUBUNIT
IV. RELEASING THE RETENTION FROM THE ER„THE ROLE OF NR2 SUBUNITS
V. TRAFFICKING FROM THE ER TO THE PLASMA MEMBRANE
VI. TARGETING NMDA RECEPTORS TO THE SYNAPSE
VII. ACTIVITY-DEPENDENT CHANGES IN NMDA RECEPTOR SUBUNIT LOCALIZATION
VIII. TRAFFICKING REGULATION BY PHOSPHORYLATION
IX. INTERNALIZATION OF NMDA RECEPTORS
X. CONCLUSION
References
SECTION V: TRAFFICKING OF ION CHANNELS AND TRANSPORTERS
CHAPTER 11: Membrane Trafficking of Vesicular Neurotransmitter Transporters
I. INTRODUCTION
II. PLASMA MEMBRANE NEUROTRANSMITTER TRANSPORTERS
III. VESICULAR MONOAMINE AND ACETYLCHOLINE TRANSPORTERS
IV. VESICULAR GLUTAMATE TRANSPORTERS
V. CONCLUSIONS
References
CHAPTER 12: Determinants of Voltage-Gated Potassium Channel Distribution in Neurons
I. INTRODUCTION
II. MOLECULAR PROPERTIES OF Kv CHANNELS
III. DETERMINANTS OF INTRACELLULAR TRAFFICKING OF Kv CHANNELS
IV. DETERMINANTS OF POLARIZED DISTRIBUTION OF Kv CHANNELS
V. PATHOLOGICAL ALTERATIONS IN Kv CHANNEL TRAFFICKING AND DISTRIBUTION
VI. FUTURE DIRECTIONS
References
SECTION VI: TRAFFICKING IN OTHER CELL TYPES
CHAPTER 13: Protein Trafficking in the Exocytic Pathway of Polarized Epithelial Cells
I. INTRODUCTION
II. POLARIZED TRAFFICKING
III. CARGO SORTING MECHANISMS IN THE BIOSYNTHETIC ROUTES
IV. ROLE OF THE CYTOSKELETON IN POLARIZED TRAFFICKING IN EPITHELIAL CELLS
V. TETHERING, DOCKING, AND FUSION OF TRANSPORT INTERMEDIATES
VI. CONCLUDING REMARKS: NEURONAL POLARITY AND THE EPITHELIAL CELL PARADIGM
References
CHAPTER 14: Trafficking in Neuroendocrine Cells
I. INTRODUCTION
II. BIOGENESIS OF DCVs IN THE GOLGI AND THEIR MATURATION
III. CYTOPLASMIC TRANSPORT OF DCVs IS MEDIATED BY KINESIN AND MYOSIN
IV. DCVs ARE TETHERED AT THE PLASMA MEMBRANE PRIOR TO FUSION
V. WHAT MEDIATES DCV TETHERING TO THE PLASMA MEMBRANE?
VI. DOCKED DCVs REQUIRE ATP-DEPENDENT PRIMING PRIOR TO FUSION
VII. PI(4,5)P2 SYNTHESIS IS AN ESSENTIAL COMPONENT OF DCV PRIMING
VIII. WHY IS PI(4,5)P2 REQUIRED FOR DCV EXOCYTOSIS?
IX. SNARES ARE AT THE CORE OF DCV FUSION
X. SYNAPTOTAGMINS SENSE CALCIUM AND TRIGGER SNARE-DEPENDENT DCV FUSION
XI. DCV FUSION PORES DILATE OR CLOSE
XII. DYNAMIN MEDIATES PRECOCIOUS DCV FUSION PORE CLOSURE
XIII. CAVICAPTURE ALLOWS SELECTIVE RELEASE OF DCV CONSTITUENTS
References
CHAPTER 15: Exocytic Release of Glutamate from Astrocytes: Comparison to Neurons
I. INTRODUCTION
II. EXCITABILITY AND INTERCELLULAR COMMUNICATION
III. Ca-DEPENDENT EXOCYTIC RELEASE OF GLUTAMATE
IV. VESICULAR TRAFFICKING
V. INPUT AND RELEASE SITES ON ASTROCYTES
VI. CONCLUDING REMARKS
References
SECTION VII: PROTEIN TRAFFICKING AND NEURONAL DISEASE
CHAPTER 16: Trafficking Defects in Huntington’s Disease
I. GENERAL CONSIDERATIONS
II. EVIDENCE THAT htt IS A TRAFFICKING PROTEIN
III. INHIBITION OF TRAFFICKING: A PRIMARY DEFECT OR A CONSEQUENCE OF AGGREGATION?
IV. TRAFFICKING VERSUS NUCLEAR TOXICITY
V. COMMON TIES BETWEEN HD AND OTHER NEURODEGENERATIVE DISORDERS
VI. CYTOSKELETAL AND VESICULAR DYSFUNCTION
VII. MOTOR PROTEINS
VIII. THERAPEUTICS AND FUTURE DIRECTIONS
References
CHAPTER 17: Neuronal Protein Trafficking in Alzheimer’s Disease and Niemann-Pick Type C Disease
I. INTRODUCTION
II. ALZHEIMER’S DISEASE
III. NIEMANN-PICK DISEASE
IV. NPC AND AD: COMMON PATHOLOGIES
V. CONCLUSION
References
CHAPTER 18: Trafficking of the Cellular Prion Protein and Its Role in Neurodegeneration
I. INTRODUCTION
II. A BRIEF HISTORY OF PRION DISEASES
III. THE CONCEPT OF A PrP-DERIVED PROTEOME
IV. PrP BIOSYNTHESIS
V. INTRACELLULAR TRAFFICKING OF PrP
VI. PrP DEGRADATION
VII. THE IMPACT OF PrPSc ON PrPC BIOSYNTHESIS, TRAFFICKING, AND DEGRADATION
VIII. CONCLUDING REMARKS
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