Brain cholinergic systems:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Oxford u.a.
Oxford Univ. Press
1990
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 446 S. Ill. |
| ISBN: | 0198542666 |
Internformat
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| 245 | 1 | 0 | |a Brain cholinergic systems |c ed. by M. Steriade ... |
| 264 | 1 | |a Oxford u.a. |b Oxford Univ. Press |c 1990 | |
| 300 | |a XXII, 446 S. |b Ill. | ||
| 336 | |b txt |2 rdacontent | ||
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| 650 | 2 | |a Acétylcholine - Congrès comme sujet | |
| 650 | 2 | |a Biochimie de l'encéphale - Congrès comme sujet | |
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| 650 | 4 | |a Systèmes cholinergiques | |
| 650 | 4 | |a Acetylcholine |v Congresses | |
| 650 | 4 | |a Brain Chemistry |v Congresses | |
| 650 | 4 | |a Brain chemistry | |
| 650 | 4 | |a Cholinergic mechanisms | |
| 650 | 4 | |a Neuromuscular Junction |v Congresses | |
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Datensatz im Suchindex
| _version_ | 1804118494498783232 |
|---|---|
| adam_text | Contents
List of contributors
xvii
List of abbreviations
xxi
PART I. NEW VISTAS ON THE ASCENDING CHOLINERGIC
ACTIVATION CONCEPT
1
1.
Parallel activation of thalamic and cortical neurons by
brainstem and basal forebrain cholinergic systems
3
M. Steriade and
G. Buzsáki
1.1.
Some steps in the history of the ascending activation
concept
3
1.1.1.
The
reticular
formation monolith and its dissection
3
1.1.2.
Definition and research methodology of activation
processes
6
1.2.
Cellular organization and projections of brainstem and
basal forebrain cholinergic systems
8
1.2.1.
Brainstem
reticular
nuclei
9
1.2.2.
Basal forebrain
neuronal
aggregates
14
1.3
Brainstem regulation of thalamic activity
19
1.3.1.
Direct excitation of thalamocortical neurons by
brainstem cholinergic systems
19
1.3.2.
Actions of brainstem cholinergic systems on
inhibitory processes of thalamocortical cells and on
GABAergic thalamic cells
27
1.3.3.
Activities of brainstem neurons with thalamic
projections related to tonic and phasic events of EEG-
desynchronized behavioural states
37
1.4.
Basal forebrain regulation of neocortical activity
43
1.4.1.
Effects of stimulation of nucleus basalis
43
1.4.2. Neuronal
activity in nucleus basalis
44
1.4.3.
Cellular origin of neocortical waves
45
1.4.4.
Effects of nucleus basalis damage on neocortical
EEG
47
1.4.5.
Effects of acetylcholine on neocortical neurons
47
1.5.
Synthesis
48
1.5.1.
An updated definition of arousal
48
Contents
VIU
1.5.2.
What is the function of brain arousal?
49
1.5.3.
Parallel activation of the
thalamus
and neocortex
51
Acknowledgements *2
References
52
PART II. MORPHOLOGICAL ORGANIZATION OF
CHOLINERGIC SYSTEMS
63
2.
Ascending cholinergic pathways in the rat brain
65
B. H. Wainer and M.-M. Mesulam
2.1.
Introduction
65
2.2.
Anti-choline acetyltransferase antibodies
67
2.3.
Magnocellular basal forebrain system
67
2.3.1.
Cell groups
68
2.3.2.
Cortical projections
77
2.3.3.
Cortical cholinergic
innervation
79
2.3.4.
Basal forebrain
afférents
85
2.3.5.
Functional considerations
87
2.4.
Brainstem ascending cholinergic system
89
2.4.1.
Brainstem cell groups
90
2.4.2.
Brainstem projections
94
2.4.3.
Diencephalic-telencephalic
innervation
98
2.4.4.
Brainstem
afférents
100
2.4.5.
Functional considerations
100
2.5.
Conclusions
102
Acknowledgements
103
References
103
3.
Efferent organization of the mammalian basal forebrain
120
V. E. Koliatsos, L. J. Martin, and
D. L.
Price
3.1.
Introduction
120
3.2.
Cyto- and chemoarchitecture of the basal forebrain
120
3.2.1.
Basal forebrain magnocellular complex
120
3.2.2.
Ventral pallidum
-
ventral striatum
123
3.2.3.
Bed nucleus of stria
terminalis
-
substantia
innominata
-
amygdaloid continuum
124
3.2.4.
Relationships among basal forebrain magnocellular
complex, ventral striatum
-
pallidum, bed nucleus of
stria
terminalis
-
substantia innominata
-
amygdala
124
3.3.
Cortical and
limbie
projections of the basal forebrain
125
3.3.1.
Neurons of origin
125
Contents
3.3.2.
Major fibre pathways of basal forebrain
magnocellular complex
128
3.3.3.
Axonal colateralization
128
3.3.4.
Terminal field patterns and synaptic specializations of
the basal forebrain magnocellular complex
131
3.4.
Thalamic projections of the basal forebrain
136
3.5.
Hypothalamic, mesencephalic, and pontine-medullary
projections of the basal forebrain
138
3.6.
Differential organization of the origin of cortical
,
thalamic, and
pontine
projections of the basal forebrain
139
3.7.
Comments
140
3.7.1.
Overall efferent organization
140
3.7.2.
Input-output organization of the basal forebrain
141
3.7.3.
Functional implications
142
3.7.4.
Implications for human disease
142
Acknowledgements
143
References
143
4.
The morphology of cholinergic projections from the brainstem
reticular
formation to the lateral geniculate nucleus and other
thalamic nuclei in the cat
153
D. Fitzpatrick and
D
.
Rączkowski
4.1.
Introduction
153
4.2.
Cholinergic
innervation
of the lateral geniculate and
perigeniculate nuclei
154
4.2.1.
Light microscopy of cholinergic fibres
154
4.2.2.
Electron microscopy of cholinergic fibres
154
4.3.
Distribution of cholinergic fibres in other thalamic
nuclei
163
4.4.
Conclusion: The functional significance of cholinergic
projections from the
reticular
formation to the
thalamus
168
Acknowledgements
169
References
170
5.
Nerve growth factor and cholinergic neurons of the
mammalian brain
173
F. Hefti, J. Hartikka, B. Knusel, M. O. LaPlume,
andD. C. Mash
5.1.
Introduction
173
5.2.
Nerve growth factor and cholinergic neurons in the
basalforebrain
174
Contents
5.2.1.
Role of nerve growth factor in development of basal
forebrain cholinergic neurons
174
5.2.2.
Role of nerve growth factor in adult function of
basal forebrain cholinergic neurons
177
5.2.3.
Studies on adult rats with experimental lesions
182
5.2.4.
Role of nerve growth factor during ageing of
forebrain cholinergic neurons
189
5.2.5.
Nerve growth factor and Alzheimer s disease
190
5.3.
Nerve growth factor and cholinergic neurons in corpus
striatum
191
5.4.
Nerve growth factor and
pontine
cholinergic neurons
193
5.5.
Nerve growth factor and cholinergic
motoneurons
194
5.6.
Nerve growth factor and non-cholinergic central
neurons
195
5.7.
Conclusions
195
Acknowledgements
195
References
195
PART III. PHYSIOLOGICAL ASPECTS OF CHOLINERGIC
SYSTEMS
203
6.
Electrophysiology of mammalian pedunculopontine and
laterodorsal tegmental neurons in vitro: Implications for the
control of
REM
sleep
205
C. S. Leonard and R. R.
Llinás
6.1.
Introduction
205
6.2.
Discharge properties of pedunculopontine and
laterodorsal tegmental neurons in vivo
206
6.2.1.
PGO-burst neurons
206
6.2.2.
Paradoxical sleep-on neurons
207
6.2.3.
Paradoxical sleep-off neurons
207
6.3.
Electrophysiological properties of pedunculopontine
and laterodorsal tegmental neurons in vitro
208
6.3.1.
Type I neurons have low-threshold spikes
208
6.3.2.
Type II neurons have transient outward currents
210
6.3.3.
Type III neurons have both
А
-currents and low-
threshold spikes
213
6.4.
Morphological identification of pedunculopontine and
laterodorsal tegmental neurons
214
6.5.
Comments
214
6.5.1.
Functional considerations
216
Contents xi
6.6.
Conclusions
219
References
220
7.
Cholinergic transmission in the brainstem: Implications for
behavioural state control
224
R. W. Greene and R. W. McCarley
7.1.
Introduction
224
7.2.
Medial
pontine
reticular
formation (mPRF) neurons
225
7.2.1.
Cholinergic activation
225
7.2.2.
Interaction with intrinsic mPRF currents
227
7.3.
Locus coeruleus neurons
231
7.3.1.
Cholinergic activation
231
7.3.2.
Interaction with intrinsic locus coeruleus currents
231
Acknowledgements
233
References
233
8.
Cellular mechanisms of cholinergic control of neocortical
and thalamic
neuronal
excitability
236
D. A. McCormick
8.1.
Introduction
236
8.2.
Cerebral cortex and basal forebrain cholinergic systems
237
8.2.1.
Anatomy
237
8.2.2.
Postsynaptic actions of acetylcholine in the cerebral
cortex
239
8.2.3.
Electrophysiological characteristics of cholinergic
neurons
244
8.2.4.
Activity of basal forebrain neurons during behaviour
244
8.2.5.
Summary of involvement of cholinergic systems in
cortical processing
246
8.3.
Brainstem cholinergic system and the
thalamus
246
8.3.1.
Anatomy 246
8.3.2.
Electrophysiological properties of thalamic neurons
247
8.3.3.
Postsynaptic actions of acetylcholine in the
thalamus
249
8.3.4.
Electrical activation of brainstem cholinergic
neurons AJJ
8.4.
Possible role of basal forebrain and brainstem
cholinergic systems in the ascending control of arousal
253
8.4.1.
Role of the ascending cholinergic-thalamic system
in arousal
8.5.
Final comments
References 259
Contents
9.
Functional properties of septo-hippocampal neurons
265
Y. Lamour,
M. C
Senut, M. H. Bassant, and
P. DUTAR
9.1.
Introduction
265
9.2.
Anatomy of the septo-hippocampal neurons
265
9.2.1.
Neurotransmitter
content
267
9.2.2.
Neuropeptides in septo-hippocampal neurons
268
9.2.3.
Control of the septo-hippocampal system
270
9.3.
Properties of septo-hippocampal neurons
271
9.3.1.
Properties of unidentified medial
šeptal
neurons
271
9.3.2.
Physiological and pharmacological properties of
septo-hippocampal neurons
272
9.3.3.
Intracellular recordings from
šeptal
slice
preparation
275
9.3.4.
Mechanisms subserving the rhythmically bursting
activity
276
9.4.
Conclusion
277
References
278
10.
Responses of primate nucleus basalis neurons to water
rewards and related stimuli
282
R. T. Richardson and M. R. DeLong
10.1.
Introduction
282
10.2.
Nucleus basalis responses to appetitive stimuli
283
10.2.1.
Responses to rewards in behavioural tasks
283
10.2.2.
Responses to water alone
283
10.3.
Nature of the response to appetitive stimuli
285
10.3.1.
Appetitiveness and arousal
285
10.3.2.
Responses to an aversive stimulus
285
10.3.3.
Comparisons with responses to water
285
10.4.
Alterations in the responses to an appetitive stimulus
286
10.4.1.
Position of the reward in a trial
286
10.4.2.
Changes in distribution of response types
288
10.4.3.
Water delivered in the
intertrial
interval
288
10.4.4.
Influence of a conditioned stimulus in classical
conditioning
290
10.4.5.
Implications of altered responses to water
292
10.5.
Conclusions
292
Acknowledgements
293
References
293
Contents
11. Acetylcholine and neuronal
plasticity
in somatosensory
cortex
294
R. W.
Dykes
11.1. Neuronal
plasticity: Definition and context
294
11.2.
Changes in excitability of single neurons: A multistep
process is required
295
11.3.
Cholinergic hypothesis of
neuronal
plasticity
298
11.3.1.
Hypothesis as it applies to learning
299
11.3.2.
Hypothesis as it applies to deafferentation
301
11.4.
Weaknesses of the cholinergic hypothesis
307
11.5.
Conclusion
308
References
309
12.
Role of acetylcholine in use-dependent plasticity of the
visual cortex
314
W. Singer
12.1.
Introduction
314
12.2.
Visual cortex as a model for use-dependent synaptic
plasticity
316
12.3.
Hebb synapses as a basis for circuit selection
317
12.4.
Central gating of
neuronal
plasticity
319
12.5.
Nature of the permissive gating signal
320
12.6.
Use-dependent plasticity depends on muscarinic
receptors
321
12.7.
NMDA-receptors in developmental plasticity
323
12.8.
Possible mechanisms of a cholinergic control of
plasticity
324
12.9.
Development of cholinergic mechanisms and the time
course of the critical period
326
12.10.
Necessity of a global control of a synaptic plasticity
328
12.11.
Co-operativity, resonance, and synaptic plasticity
329
References
331
13.
Control of the mammillothalamic axis by brainstem
cholinergic laterodorsal tegmental
afférents:
Possible
involvement in mnemonic processes
337
D.
Paré
and M. Steriade
13.1.
Introduction 337
Contents
XIV
13.2.
Connections between the laterodorsal tegmental
nucleus, the anterior thalamic complex, the
mammillary nuclei, and the hippocampal formation
337
13.3.
Effects of laterodorsal tegmental stimulation on the
synaptic responsiveness of AT neurons: Long-lasting
facilitatory influences
338
13.3.1.
Short-latency activation of AT neurons by LDT
stimulation
339
13.3.2.
Enhancement of AT responsiveness by LDT
stimulation
341
13.3.3.
Comparison between hippocampal long-term
potentiation and LDT-induced enhancement of AT
synaptic responsiveness
347
13.4.
Brain regions damaged in amnesia
348
13.4.1.
Hippocampal formation and amygdala
348
13.4.2.
Medial diencephalic structures
349
13.5.
Possible functional significance of the LDT-induced
enhancement in mammillothalamic synaptic efficacy
for mnemonic processes
350
Acknowledgements
350
References
350
PART IV. DISORDERS WITH COGNITIVE DECLINE
355
14.
Spontaneous and drug-stimulated recovery of cortical
cholinergic function after lesion of the nucleus basalis
357
G. Pepeu, P. L. DiPatre, and F.
Casamenti
14.1.
Introduction
357
14.2.
Neurochemical and behavioural changes following
357
lesions of the nucleus basalis
14.3.
Spontaneous recovery
358
14.4.
Drug-induced recovery
359
14.5.
Conclusions
360
References
361
15.
The nucleus basalis of Meynert during ageing and in
dementing
neuropsychiatrie
disorders
364
V. Bigl, T.
Arendt,
and D. Biesold
15.1.
Introduction
364
15.2.
The nucleus basalis of Meynert and the cholinergic
hypothesis of geriatric memory disorders
-
brief
historical overview
365
Contents
15.3.
Aspects of the neuroanatomical organization of the
NBM in humans
369
15.4.
Morphometric studies
371
15.4.1. Neuronal
counts in dementing disorders
371
15.4.2.
Normal ageing
376
15.4.3.
Morphometrical considerations
376
15.5.
Pathogenetic aspects of
neuronal
degeneration in the
NBM
378
15.5.1.
Degenerative changes in the NBM and the
pathogenesis of dementias
378
15.5.2.
Possible mechanisms of
neuronal
loss in the NBM
379
Acknowledgements
381
References
381
16.
Dysdifferentiation of structurally plastic neurons initiates the
pathologic cascade of Alzheimer s disease: Toward a
387
unifying hypothesis
N.
J.
Woolf
and L. L. Butcher
16.1.
Introduction and statement of hypothesis
387
16.2.
Defining characteristics of Alzheimer s disease:
Principal features and quest for the trigger
388
16.2.1.
Cognitive correlates
388
16.2.2.
Neuropathologic and chemopathologic correlates
389
16.2.3.
Immunologie
correlates
399
16.2.4.
Neurotransmitter
and related functional correlates
400
16.3.
Mechanism of Alzheimer s disease
410
16.3.1.
Ageing of higher cognitive functions: A proposal
410
16.3.2.
Pathologic cascade
415
16.3.3.
Preferential involvement of telencephalic areas in
the pathogenesis of Alzheimer s disease
421
16.4.
Alzheimer s disease and normal ageing
422
16.5.
Risk factors in Alzheimer s disease
424
16.6.
Pharmacological and other treatment strategies
425
Acknowledgements
426
References
426
Index
439
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| genre | (DE-588)1071861417 Konferenzschrift 1987 Leipzig gnd-content |
| genre_facet | Konferenzschrift 1987 Leipzig |
| id | DE-604.BV004303973 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T16:11:11Z |
| institution | BVB |
| isbn | 0198542666 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-002676619 |
| oclc_num | 20759159 |
| open_access_boolean | |
| owner | DE-12 DE-M49 DE-BY-TUM DE-355 DE-BY-UBR DE-578 |
| owner_facet | DE-12 DE-M49 DE-BY-TUM DE-355 DE-BY-UBR DE-578 |
| physical | XXII, 446 S. Ill. |
| publishDate | 1990 |
| publishDateSearch | 1990 |
| publishDateSort | 1990 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spelling | Brain cholinergic systems ed. by M. Steriade ... Oxford u.a. Oxford Univ. Press 1990 XXII, 446 S. Ill. txt rdacontent n rdamedia nc rdacarrier Acétylcholine - Congrès comme sujet Biochimie de l'encéphale - Congrès comme sujet Cerveau - Chimie Jonction neuromusculaire - Congrès comme sujet Récepteur cholinergique - Congrès comme sujet Système nerveux parasympathique Systèmes cholinergiques Acetylcholine Congresses Brain Chemistry Congresses Brain chemistry Cholinergic mechanisms Neuromuscular Junction Congresses Parasympathetic nervous system Receptors, Cholinergic Congresses Zentralnervensystem (DE-588)4067637-7 gnd rswk-swf Gehirn (DE-588)4019752-9 gnd rswk-swf Cholinerges System (DE-588)4147867-8 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 1987 Leipzig gnd-content Cholinerges System (DE-588)4147867-8 s Zentralnervensystem (DE-588)4067637-7 s DE-604 Gehirn (DE-588)4019752-9 s Steriade, Mircea 1924-2006 Sonstige (DE-588)133940306 oth Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002676619&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Brain cholinergic systems Acétylcholine - Congrès comme sujet Biochimie de l'encéphale - Congrès comme sujet Cerveau - Chimie Jonction neuromusculaire - Congrès comme sujet Récepteur cholinergique - Congrès comme sujet Système nerveux parasympathique Systèmes cholinergiques Acetylcholine Congresses Brain Chemistry Congresses Brain chemistry Cholinergic mechanisms Neuromuscular Junction Congresses Parasympathetic nervous system Receptors, Cholinergic Congresses Zentralnervensystem (DE-588)4067637-7 gnd Gehirn (DE-588)4019752-9 gnd Cholinerges System (DE-588)4147867-8 gnd |
| subject_GND | (DE-588)4067637-7 (DE-588)4019752-9 (DE-588)4147867-8 (DE-588)1071861417 |
| title | Brain cholinergic systems |
| title_auth | Brain cholinergic systems |
| title_exact_search | Brain cholinergic systems |
| title_full | Brain cholinergic systems ed. by M. Steriade ... |
| title_fullStr | Brain cholinergic systems ed. by M. Steriade ... |
| title_full_unstemmed | Brain cholinergic systems ed. by M. Steriade ... |
| title_short | Brain cholinergic systems |
| title_sort | brain cholinergic systems |
| topic | Acétylcholine - Congrès comme sujet Biochimie de l'encéphale - Congrès comme sujet Cerveau - Chimie Jonction neuromusculaire - Congrès comme sujet Récepteur cholinergique - Congrès comme sujet Système nerveux parasympathique Systèmes cholinergiques Acetylcholine Congresses Brain Chemistry Congresses Brain chemistry Cholinergic mechanisms Neuromuscular Junction Congresses Parasympathetic nervous system Receptors, Cholinergic Congresses Zentralnervensystem (DE-588)4067637-7 gnd Gehirn (DE-588)4019752-9 gnd Cholinerges System (DE-588)4147867-8 gnd |
| topic_facet | Acétylcholine - Congrès comme sujet Biochimie de l'encéphale - Congrès comme sujet Cerveau - Chimie Jonction neuromusculaire - Congrès comme sujet Récepteur cholinergique - Congrès comme sujet Système nerveux parasympathique Systèmes cholinergiques Acetylcholine Congresses Brain Chemistry Congresses Brain chemistry Cholinergic mechanisms Neuromuscular Junction Congresses Parasympathetic nervous system Receptors, Cholinergic Congresses Zentralnervensystem Gehirn Cholinerges System Konferenzschrift 1987 Leipzig |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002676619&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT steriademircea braincholinergicsystems |