Noradrenergic Signaling and Astroglia
Editat de Nina Vardjan, Robert Zorecen Limba Engleză Hardback – 19 iul 2017
- Covers what is currently known about the role of astroglia in the noradrenergic system
- Provides biochemical and physiological mechanistic data to understand how noradrenergic signals acting on astroglia produce observed effects
- Includes figures and tables of structures, mechanisms and processes related to astroglia and noradrenergic signaling in CNS
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Specificații
ISBN-13: 9780128050880
ISBN-10: 0128050888
Pagini: 342
Dimensiuni: 152 x 229 x 26 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0128050888
Pagini: 342
Dimensiuni: 152 x 229 x 26 mm
Editura: ELSEVIER SCIENCE
Public țintă
Neuroscientists, graduate and undergraduate students in biological and biomedical sciences, post-doctoral fellows, researchersCuprins
1. Locus coeruleus noradrenergic neurons and astroglia in health and disease
2. Astroglial adrenergic receptor signaling in brain cortex
3. White matter astrocytes: Adrenergic mechanisms
4. Role for astroglial a1-adrenergic receptors in glia-neuron communications and aging-related metaplasticity in the neocortex
5. Adrenergic Ca2+ and cAMP excitability: Effects on glucose availability and cell morphology in astrocytes
6. Adrenergic receptors on astrocytes modulate gap junctions
7. Fluxes of lactate into, from, and among gap junction-coupled astroglia and their interaction with noradrenaline
8. Dialogue between astrocytes and noradrenergic neurones via L-lactate
9. Noradrenergic system and memory: The role of astrocytes
10. Hippocampal noradrenaline regulates spatial working memory in the rat
11. Enteric astroglia and noradrenergic/purinergic signaling
12. Noradrenaline drives structural changes in astrocytes and brain extracellular space
13. Signalling pathway of B-adrenergic receptor in astrocytes and its relevance to brain oedema
14. Noradrenaline, astroglia, and neuroinflammation
15. Astrocytic B2 adrenergic receptors and multiple sclerosis
16. Potentiation of B-amyloid–induced cortical inflammation by noradrenaline and noradrenergic depletion: Implications for Alzheimer’s disease
2. Astroglial adrenergic receptor signaling in brain cortex
3. White matter astrocytes: Adrenergic mechanisms
4. Role for astroglial a1-adrenergic receptors in glia-neuron communications and aging-related metaplasticity in the neocortex
5. Adrenergic Ca2+ and cAMP excitability: Effects on glucose availability and cell morphology in astrocytes
6. Adrenergic receptors on astrocytes modulate gap junctions
7. Fluxes of lactate into, from, and among gap junction-coupled astroglia and their interaction with noradrenaline
8. Dialogue between astrocytes and noradrenergic neurones via L-lactate
9. Noradrenergic system and memory: The role of astrocytes
10. Hippocampal noradrenaline regulates spatial working memory in the rat
11. Enteric astroglia and noradrenergic/purinergic signaling
12. Noradrenaline drives structural changes in astrocytes and brain extracellular space
13. Signalling pathway of B-adrenergic receptor in astrocytes and its relevance to brain oedema
14. Noradrenaline, astroglia, and neuroinflammation
15. Astrocytic B2 adrenergic receptors and multiple sclerosis
16. Potentiation of B-amyloid–induced cortical inflammation by noradrenaline and noradrenergic depletion: Implications for Alzheimer’s disease