Verfügbarkeit: Pharmacology of GABA and glycine neurotransmission

Pharmacology of GABA and glycine neurotransmission:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2001
Schriftenreihe:	Handbook of experimental pharmacology 150
Schlagworte:	gamma-Aminobutyric Acid Neurotransmitters Aminobuttersäure > gamma- Pharmakologie Neuropharmakologie Neurotransmitter Glycin Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 413 S. Ill., graph. Darst.
ISBN:	3540676163

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Datensatz im Suchindex

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adam_text	Contents Section I: Physiology of the Neurotransmitters GABA and Glycine CHAPTER 1 Physiology of the GABA and Glycine Systems B.E. Alger and F.E.N. Le Beau. With 8 Figures 3 A. Introduction 3 B. Subtypes of Interneurons 4 I. Electrophysiological Properties of Interneurons 5 1. Voltage Dependent Channels 6 2. Ligand Gated Channels 8 C. Physiological Responses Mediated by Inhibitory Neurotransmitters 10 I. Membrane Effects of GABA and Glycine 10 II. Depolarizing GABA and Glycine Responses 12 1. Depolarizing GABA and Glycine Responses in Young Tissue 12 2. Depolarizing GABAA Responses in Adult Tissue 13 III. Membrane Potential Changes Caused by GABA in Unimpaled Cells 14 D. Miniature Inhibitory Postsynaptic Currents 15 I. Saturation of Receptor Patches by Quantal Release 15 II. Co Release of GABA and Other Transmitters 19 1. GABA and Glycine 19 2. Co Release of GABA and ATP 19 III. Multiquantal Release 20 IV. Tonic Inhibition 23 E. Dendritic Inhibition 24 I. Control of Dendritic Electroresponsiveness 24 II. Dendrodendritic Inhibition 25 III. Back Propagating Action Potentials 26 IV. Control of Persistent Cation Currents 28 XII Contents F. Somatic Axonal Inhibition 28 I. Conduction Block Along the Preterminal Axon 28 II. Depolarization Induced Suppression of Inhibition (DSI) 30 III. Autoreception and Inhibition 33 1. Autaptic Transmission 33 2. Preterminal Extrasynaptic Receptors 33 G. GABAB Responses 34 I. Postsynaptic Inhibition 34 II. Presynaptic Inhibition 36 1. GABAB Autoreceptor Activation 36 2. Mechanism of Presynaptic GABAB Inhibition 37 III. GABAB Enhancement of Synaptic Activity 38 H. Response Plasticity and IPSPs 39 I. Short Term Plasticity of Interneuron Output 39 II. Balance Between Excitation and Inhibition 41 III. The Roles of IPSPs in Regulating Plasticity at Excitatory Synapses 42 1. LTD of GABAAergic IPSPs in Hippocampus 42 2. LTD of GABAAergic IPSPs in Cerebellum 43 IV. Long Lasting Enhancement of GABAA IPSPs 45 1. LTP of GABAAergic IPSPs 45 2. LTP of Glycinergic IPSPs 46 3. Long Lasting Enhancement of IPSPs Not LTP 47 V. Target Cell Specificity of Action 47 VI. Facilitation of LTD Induction at Other Synapses by IPSP Depression 48 I. Synaptic Inhibition and the Generation of Rhythmic Firing Patterns in Populations of Cells 49 I. Gamma Oscillations 50 II. Theta Rhythms 51 III. Single Unit Studies In Vivo 51 IV. Thalamic Rhythms 52 V. Depolarizing GABAA Responses and Rhythmic Firing .... 53 VI. Hypersynchrony and Pathology 54 VII. Control of Rhythmic Firing Through Inhibition of Gap Junctional Connections 55 J. The Role of Inhibition in Sensory Processing 56 I. Receptive Field Shape 56 II. Dynamic Modulation of Receptive Fields 57 1. Deafferentation Plasticity 57 2. Activity Dependent Receptive Field Modifications 58 3. Glycine and Motor Reorganization 59 K. Conclusions 60 References 60 Contents XIII Section II: Pharmacology of the GABA System GABAA Receptors CHAPTER 2 The Molecular Architecture of GABAA Receptors E.A. Barnard. With 2 Figures 79 A. Repertoire of Subunit Types 79 I. Structural Diversity and Uniformity 79 II. Subfamilies of Subunits 82 B. The Subunit Number per Receptor Molecule 83 C. Subunits Within the Pentamer 84 I. Two Subunit Pools for Receptor Assembly 84 II. A Constrained Combinatorial System for the Receptor Compositions 85 D. Stoichiometry Within the Pentamer 88 I. Co occurrence of Two Isoforms of One Subunit Type 88 II. Possibilities for Subunit Stoichiometry 89 E. GABAA Receptors Containing Other Types of Subunits 89 I. The 8 Subunit 90 II. The e Subunit 90 III. The n Subunit 91 IV. The 9 Subunit 91 F. The p Subunits 91 G. Conclusions on the Subtypes 92 References 94 CHAPTER 3 Functions of GABAA Receptors: Pharmacology and Pathophysiology H. Mohler. With 3 Figures 101 A. Introduction 101 B. Pharmacology of GABAA Receptor Subtypes 101 I. Benzodiazepine Actions at GABAA Receptor Subtypes 101 1. Distinction of Receptor Subtypes by Point Mutations ... 101 2. Sedation and Receptor Subtypes 103 3. Amnesia and Receptor Subtypes 103 4. Anticonvulsant Activity and Receptor Subtypes 104 5. Myorelaxation, Potentiation and Receptor Subtypes 104 6. Anxiolytic Activity and Receptor Subtypes 104 7. Strategies for Drug Design 105 II. Ethanol and GABAA Receptor Subtypes 105 III. Anaesthetics and Pentobarbital 106 I XIV Contents C. GABAA Receptor Mutants as Models for Disease 106 I. Anxiety Behaviour and Bias for Threat Cues 106 1. Genetically Defined Animal Model of Anxiety 107 2. Enhanced Reactivity to Natural Aversive Stimuli 107 3. Learned Aversive Stimuli 108 4. Pathophysiology of Anxiety Disorders 108 II. Craniofacial Development 110 III. Angelman s Syndrome 110 IV. Desynchrony of Neuronal Oscillations 110 D. Limitations of the Gene Inactivation Approach 110 I. Adaptation Ill II. Severity of Impairment Ill III. Marker Genes Ill IV. Strain Differences 112 References 112 CHAPTER 4 Steroid Modulation of GABAA Receptors J.J. Lambert, J.A. Peters, S.C. Harney, and D. Belelli. With 2 Figures 117 A. Introduction 117 B. Structure Activity Relationship for Steroids at the GABAA Receptor 120 I. Enantioselectivity of Steroid Action 122 II. The Ring System 122 III. C2 Substitution 122 IV. C3 Substitution 124 V. C5, C10 or Cll Substitution 126 VI. The C17 Side Chain 126 VII. C20 Substitution 127 VIII. C21 Substitution 127 IX. Summary 127 C. Neurosteroid Binding Site Heterogeneity and the Influence of GABAA Receptor Subunit Composition upon Neurosteroid Action 128 I. a Subunits 128 II. P Subunits 130 III. ySubunits 130 IV. The 8 Subunit 130 V. The £ Subunit 130 VI. Summary 131 D. Molecular Mechanism of Neurosteroid Action 131 E. Neurosteroid Effects on Synaptic Transmission 132 Contents XV F. Concluding Remarks 134 References 135 CHAPTER 5 Allosteric Modulation of GABAA Receptor Function by General Anesthetics and Alcohols M.D. Krasowski, R.A. Harris, and N.L. Harrison. With 5 Figures 141 A. Introduction 141 B. What is a General Anesthetic? 141 C. Special Considerations for Alcohol 143 D. Overview of Ligand Gated Ion Channels 143 E. GABAA and Glycine Receptors 144 F. Pharmacological Criteria for a Reasonable General Anesthetic/ Alcohol Target Site 146 I. What is the Clinically Relevant Concentration for a General Anesthetic? 147 II. Anatomical Location 148 III. Stereoselectivity 148 IV. Hydrophobicity 150 V. Alcohol Cutoff 150 G. Experimental Approaches to Studying General Anesthetic and Alcohol Actions at the GABAA Receptors 151 H. Actions of General Anesthetics at GABAA Receptors 152 I. Volatile Anesthetics and Anesthetic Gases 155 J. Intravenous Anesthetic Agents 157 K. Alcohols 158 L. GABAA and Glycine Receptors and Ethanol Action 158 M. Cutoff 160 N. Discussion and Future Directions 161 References 162 CHAPTER 6 Anticonvulsants Acting on the GABA System B.S. Meldrum and P. Whiting. With 3 Figures 173 A. Introduction 173 I. Role of GABA and GABA Receptors in Epilepsy 173 1. Developmental Changes in GABAA Receptor Effects 174 II. Mechanism of Action of Antiepileptic Drugs 175 B. GABA Transporters and Tiagabine 175 XVI Contents I. Effects of Other Anti Epileptic Drugs on GABA Transporters 178 II. Changes in GABA Transporters in Epilepsy 179 C. Vigabatrin and Inhibition of GABA Transaminase 179 D. Anticonvulsants Acting Through the GABAA Receptor 180 I. Benzodiazepines 181 II. Barbiturates 181 III. Steroids 182 IV. Loreclezole 182 V. Topiramate 183 VI. Chlormethiazole 183 E. Alterations in GABA Receptors in Epilepsy 183 I. Alterations in the Expression of GABAA Receptors in Animal Models of Seizure 183 II. GABAA Receptors and Absence Epilepsy 186 III. Alterations in GABA Levels and GABAA Receptors in Human Epilepsy 187 F. GABAergic Agents in Status Epilepticus 187 G. Conclusions: Future Prospects for Anti Epileptic Drugs Acting on GABAergic Transmission 188 References 188 CHAPTER 7 Heterologous Regulation of GABAA Receptors: Protein Phosphorylation T.G. Smart, P. Thomas, N.J. Brandon, and S.J. Moss. With 4 Figures 195 A. Introduction 195 B. Physiological Role of GABAA Receptors 196 C. Molecular Structure of GABAA Receptors 196 I. GABAA Receptor Subunit Families 196 II. Domain Structures and Alternative Splicing 197 III. Subunit Heterogeneity and Co Assembly 198 D. Consensus Sites for Protein Phosphorylation 198 E. Identifying Phosphorylation Sites Within GABAA Receptor Subunits 199 I. Phosphorylation of Neuronal GABAA Receptors 199 II. Consensus Phosphorylation Sites in the Large Intracellular Domains 200 III. Phosphorylation of Recombinant GABAA Receptors 201 1. Use of Fusion Proteins 201 2. Use of Receptor Subunits 201 F. GABAA Receptor Phosphorylation: Consequences for Ion Channel Function 202 Contents XVII I. cAMP Dependent Protein Kinase 202 1. Native Neurones 202 2. Recombinant Receptors 203 II. cGMP Dependent Protein Kinase 207 III. Ca27Phospholipid Dependent Protein Kinase 207 IV. Ca27Calmodulin Dependent Protein Kinase II and Ca2+ Dependent Phosphatases 210 V. Tyrosine Kinases 212 1. GABAA Receptor: Response Rundown and Washout ... 213 G. Regulation of GABAA Receptor Cell Surface Expression 214 H. Conclusion 217 References 218 CHAPTER 8 Tolerance and Dependence to Ligands of the Benzodiazepine Recognition Sites Expressed by GABAA Receptors E. Costa, J. Auta, and A. Guidotti. With 2 Figures 227 A. A Mechanistic Hypothesis on the Tolerance and Dependence to the Ligands of Benzodiazepine Recognition Sites (BZ RS) Expressed by GABAA Receptors 227 B. Tools to study changes in GABAA receptor subunit assembly .... 228 C. Limitations in Interpreting Studies of GABAA Receptor Chimerae With and Without Single Amino Acid Mutations 229 D. Characterization of BZ RS Ligands Endowed with Anxiolytic and Anticonvulsant Actions 230 E. Can the Subunit Expression Modification Associated with BZ Tolerance Explain the Decreased Intrinsic Activity of Full Positive Allosteric Modulators at GABAA Receptors? 235 I. Changes in GABA Receptor Subunit Assembly 235 1. Studies on Ligand Binding to BZ RS 235 2. Changes in GABAA Receptor Subunit mRNA Expression 236 3. Changes in GABAA Receptor Subunit Expression 238 II. GABAA Receptor Subunit Allosteric Uncoupling 239 F. Are Changes in GABAA Receptor Subunit Assembly Relevant to BZ Dependence? 240 G. Development of Tolerance and Dependence Liability After Long Term Treatment with Selective Positive Allosteric Modulators of GABAA Receptors 242 I. Zolpidem 242 II. Abecarnil 242 H. Lack of Tolerance or Dependence Following Long Term Treatment with Partial Positive Allosteric BZ RS Ligands 243 XVIII Contents I. Imidazenil is Devoid of Tolerance and Dependence Liability in Rodents 244 II. Imidazenil is Devoid of Tolerance and Dependence Liability in Monkeys 245 References 247 CHAPTER 9 GABAA Receptors and Disease H.Y. Kim and R.W. Olsen 251 A. Introduction 251 B. Diseases of Development and GABAA Receptors 252 C. Diseases of Adult and GABAA Receptors 254 I. GABAA Receptor Function in Adult Epilepsy 254 II. GABAA Receptor Function in Anxiety 257 III. GABAA Receptor Function in Alcoholism 258 D. Conclusion 260 References 261 CHAPTER 10 GABAC Receptors: Structure, Function and Pharmacology J. Bormann and A. Feigenspan. With 7 Figures 271 A. Introduction 271 B. Structure of GABAC Receptors 272 I. Cloning of Vertebrate p Subunits 272 II. Subunit Composition of GABAC Receptors 272 C. Neuronal Localization 272 D. Functional Properties of GABAC Receptors 274 I. Identification of GABAC Receptors 274 II. GABA Affinity and Ion Selectivity 274 III. Single Channel Characteristics 276 IV. Pore Size 276 V. Desensitization 277 E. Pharmacology 278 I. GABAC Agonists 278 II. GABAc Antagonists 280 F. Modulation of GABAC Receptors 283 I. Extracellular Modulation 283 II. Intracellular Modulation by Protein Kinases 284 G. Physiological Function of GABAC Receptors 287 H. Terminology for GABAC Receptors 290 I. Conclusions 290 References 291 Contents XIX GABAB Receptors CHAPTER 11 Structure of GABAB Receptors B. Bettler and K. Kaupmann. With 2 Figures 299 A. Physiological Evidence for GABAB Receptor Subtypes 299 B. Pharmacology, Structure and Distribution of Cloned GABAB Receptors 300 I. Cloned GABAB Receptors 300 II. Binding Pharmacology 302 III. Molecular Determinants of Ligand Binding 302 C. Functional Studies with Recombinant GABAB Receptors 303 I. Individually Expressed BR1 and BR2 Receptors 303 II. Heteromeric BR1 + BR2 Receptors 305 D. Temporal and Spatial Distribution of Cloned GABAB Receptors 306 E. Concluding Remarks and Future Directions 307 References 307 CHAPTER 12 Pharmacology of GABAB Receptors N.G. Bowery 311 A. Introduction 311 B. Physiological Role 312 C. GABAB Receptor Distribution and Localization in CNS 313 D. GABAB Receptor Coupling to Adenylate Cyclase 314 E. Ca and K+ Channel Coupling to GABAB Sites 315 F. Pharmacological Effects GABAB Receptor Agonists 316 G. Pharmacological Effects GABAB Receptor Antagonists 319 H. Subtypes of Receptor 321 References 321 CHAPTER 13 GABAB Receptor Signaling Pathways S.J. Enna. With 3 Figures 329 A. Introduction 329 B. Second Messenger Production 330 I. Overview 330 II. cAMP 330 III. Gene Transcription 334 C. Calcium Channels 336 D. Potassium Channels 337 I XX Contents E. Conclusion 338 References 339 GABA Transporters CHAPTER 14 Structure and Function of GABA Transporters B.I. Kanner 345 A. Introduction 345 B. Stoichiometry 346 C. Reconstitution and Purification 346 D. Biochemical Characterisation of the GABA Transporter 347 E. A New Superfamily of Na Dependent Neurotransmitter Transporters 348 F. Topology 348 G. Structure Function Relationships 349 H. Conclusions 351 References 352 CHAPTER 15 Pharmacology of GABA Transporters J.E. Clark and W.A. Clark. With 4 Figures 355 A. Introduction 355 B. Physiological Relevance of GABA Transporters 356 C. Neuronal and Glial Specific GABA Transport Inhibitors 357 D. GABA Transporter Heterogeneity 359 E. Lipophilic GABA Transport Inhibitors 361 I. THPO 361 II. Prodrugs of Nipecotic Acid, Hydroxynipecotic Acid, and Isoguvacine 361 III. Nipecotic Acid and Guvacine Derivatives 362 F. Specific GABA Transport Inhibitors 364 I. Compounds Selective for GAT 1 364 II. Compounds Selective for GAT 2, GAT 3, and BGT 1 365 G. GABA Uptake Inhibitors as Experimental Tools 366 I. GABA Transport Inhibition and Sleep 366 II. Depolarizing Effects of GABA and Inhibition of GABA Uptake 367 H. Conclusion 367 References 368 Contents XXI Section III: Pharmacology of the Glycine System CHAPTER 16 Structures, Diversity and Pharmacology of Glycine Receptors and Transporters H. Betz, R.J. Harvey, and P. Schloss. With 3 Figures 375 A. Introduction 375 I. The Neurotransmitter Glycine 375 B. Structure and Diversity of Glycine Transporters 376 I. Structure of Plasma Membrane Glycine Transporters 376 II. Diversity and Regulation of Plasma Membrane Glycine Transporters 378 III. Distribution of Plasma Membrane Glycine Transporters and Possible Physiological Function 380 IV. The Vesicular Glycine/GABA Transporter 381 C. Structure and Diversity of Glycine Receptor Channels 382 I. GlyRs are Ligand Gated Ion Channels of the nAChR Superfamily 382 II. Glycine Receptor Isoforms 384 III. Ligand Binding Determinants 385 IV. Ion Channel Function 387 V The Peripheral Membrane Protein Gephyrin 387 VI. Pharmacology of GlyRs 389 1. Antagonism of GlyR Function by Strychnine 389 2. Amino Acids and Piperidine Carboxylic Acid Compounds 390 3. Picrotoxinin, Cyanotriphenylborate, and Quinolinic Acid Derivatives 390 4. Potentiation of GlyR Function by Anesthetics, Alcohol, and Zn2+ 391 D. Concluding Remarks 393 References 393 Subject Index 403
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV013386918
illustrated	Illustrated
indexdate	2024-07-09T18:44:57Z
institution	BVB
isbn	3540676163
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-009132106
oclc_num	643203138
open_access_boolean
owner	DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-12 DE-188 DE-578
owner_facet	DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-12 DE-188 DE-578
physical	XXI, 413 S. Ill., graph. Darst.
publishDate	2001
publishDateSearch	2001
publishDateSort	2001
publisher	Springer
record_format	marc
series	Handbook of experimental pharmacology
series2	Handbook of experimental pharmacology
spelling	Pharmacology of GABA and glycine neurotransmission contributors B. E. Alger ... Ed. Hanns Möhler Berlin [u.a.] Springer 2001 XXI, 413 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Handbook of experimental pharmacology 150 gamma-Aminobutyric Acid cabt Neurotransmitters cabt Aminobuttersäure gamma- (DE-588)4155919-8 gnd rswk-swf Pharmakologie (DE-588)4045687-0 gnd rswk-swf Neuropharmakologie (DE-588)4041896-0 gnd rswk-swf Neurotransmitter (DE-588)4041905-8 gnd rswk-swf Glycin (DE-588)4157727-9 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Aminobuttersäure gamma- (DE-588)4155919-8 s Neurotransmitter (DE-588)4041905-8 s Pharmakologie (DE-588)4045687-0 s DE-604 Glycin (DE-588)4157727-9 s Neuropharmakologie (DE-588)4041896-0 s Möhler, Hanns 1940- Sonstige (DE-588)1063989035 oth Alger, B. E. Sonstige oth Handbook of experimental pharmacology 150 (DE-604)BV002390716 150 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009132106&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Pharmacology of GABA and glycine neurotransmission Handbook of experimental pharmacology gamma-Aminobutyric Acid cabt Neurotransmitters cabt Aminobuttersäure gamma- (DE-588)4155919-8 gnd Pharmakologie (DE-588)4045687-0 gnd Neuropharmakologie (DE-588)4041896-0 gnd Neurotransmitter (DE-588)4041905-8 gnd Glycin (DE-588)4157727-9 gnd
subject_GND	(DE-588)4155919-8 (DE-588)4045687-0 (DE-588)4041896-0 (DE-588)4041905-8 (DE-588)4157727-9 (DE-588)4143413-4
title	Pharmacology of GABA and glycine neurotransmission
title_auth	Pharmacology of GABA and glycine neurotransmission
title_exact_search	Pharmacology of GABA and glycine neurotransmission
title_full	Pharmacology of GABA and glycine neurotransmission contributors B. E. Alger ... Ed. Hanns Möhler
title_fullStr	Pharmacology of GABA and glycine neurotransmission contributors B. E. Alger ... Ed. Hanns Möhler
title_full_unstemmed	Pharmacology of GABA and glycine neurotransmission contributors B. E. Alger ... Ed. Hanns Möhler
title_short	Pharmacology of GABA and glycine neurotransmission
title_sort	pharmacology of gaba and glycine neurotransmission
topic	gamma-Aminobutyric Acid cabt Neurotransmitters cabt Aminobuttersäure gamma- (DE-588)4155919-8 gnd Pharmakologie (DE-588)4045687-0 gnd Neuropharmakologie (DE-588)4041896-0 gnd Neurotransmitter (DE-588)4041905-8 gnd Glycin (DE-588)4157727-9 gnd
topic_facet	gamma-Aminobutyric Acid Neurotransmitters Aminobuttersäure gamma- Pharmakologie Neuropharmakologie Neurotransmitter Glycin Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009132106&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV002390716
work_keys_str_mv	AT mohlerhanns pharmacologyofgabaandglycineneurotransmission AT algerbe pharmacologyofgabaandglycineneurotransmission

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