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Download Astrocytes: Pharmacology and Function djvu

by Author Unknown

Author: Author Unknown
Subcategory: Medicine
Language: English
Publisher: Academic Press (March 12, 1993)
Pages: 457 pages
Category: Medicine
Rating: 4.8
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Astrocytes: Pharmacology and Function. This book relates astrocyte pharmacology to cell function for the first time, making it an attractive text across the neuroscience community

Astrocytes: Pharmacology and Function. Publisher: Academic Press. Print ISBN: 9780125113700, 0125113706. This book relates astrocyte pharmacology to cell function for the first time, making it an attractive text across the neuroscience community. Discusses the pharmacological regulation of specific astrocyte functions Covers functional interactions between these and adjacent CNS cell types Examines regional heterogeneity of astrocytes with respect to receptor expression Compares in vitro and in vivo approaches. The world’s eTextbook reader for students.

This book relates astrocyte pharmacology to cell function for the first time, making it an attractive text across the neuroscience community. Discusses the pharmacological regulation of specific astrocyte functions Covers functional interactions between these and adjacent CNS cell types Examines regional heterogeneity of astrocytes with respect to receptor expression Compares in vitro and in vivo approaches. Read on the Scribd mobile app. Download the free Scribd mobile app to read anytime, anywhere. Discusses the pharmacological regulation of specific astrocyte functionsCovers functional interactions between these and adjacent CNS cell typesExamines regional heterogeneity of astrocytes with respect to receptor expressionCompares in vitro and in vivo approaches.

The chloride/anion channels that have been so far identified in cultured astrocytes and those that have .

The best-studied anion channels studied so far are those known as volume-regulated anion channels (VRACs).

Studies have shown that astrocytes play an important function in the regulation of neural stem cells. Sorting out astrocyte physiology from pharmacology".

Postnatally, astrocyte progenitors migrate to reach their brain area and related properties. They have a regulatory role of brain functions that are implicated in neurogenesis and synaptogenesis, controlling blood–brain barrier permeability and maintaining extracellular homeostasis. Aguirre-Rueda, . Guerra-Ojeda, . Aldasoro, . Iradi, . Obrador, . Mauricio, M. et al.

Author information Cannabinoid-like receptors expressed by astrocytes. Hu-311 induces apoptosis through an unknown receptor, and CBD both induces apoptosis and inhibits cell migration.

1. Department of Pharmacology, Psychiatry and Behavioral Sciences, University of Washington, Seattle, Washington 98195-7280, USA. [email protected] Cannabinoid-like receptors expressed by astrocytes. Anandamide (AEA) activates a Gi/o-protein coupled receptor that inhibits adenylyl cyclase activity, WIN regulates nitric oxide (NO) production through an unknown receptor, and anandamide closes gap junction through an unknown receptor.

Astrocytes: Biochemistry, Physiology, and Pharmacology of Astrocytes, Volume 2 focuses on the physiological and pharmacological aspects of astrocytes. This volume gives specific attention to intracellular metabolic activity; membrane components and functions; responses to neurotransmitters and other intrinsic factors; and neuronal-glial interactions. Studies in this text establishe the astrocyte as an essential neuronal partner in the neuronal-glial interrelationship throughout the life-span of the neuron and also further explain the potential roles of astrocytes in brain function.

Interest in the functional roles of astrocytes in the nervous system has grown significantly as it is recognized that these cells not only have their own pharmacology but also release neuro- and vaso-active factors. This book relates astrocyte pharmacology to cell function for the first time, making it an attractive text across the neuroscience community. * Discusses the pharmacological regulation of specific astrocyte functions* Covers functional interactions between these and adjacent CNS cell types* Examines regional heterogeneity of astrocytes with respect to receptor expression* Compares in vitro and in vivo approaches