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Purinergic Signaling in Neuroinflammation

It is currently apparent that extracellular ATP's physiological effect is mediated by its interaction with specific purinergic receptors. All purinergic receptors are divided into P1-purinoreceptors and P2-purinoreceptors. Each of the subtypes is divided into a number of families. For instance,...

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Bibliographic Details
Main Author: Aminin, Dmitry
Other Authors: Illes, Peter
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Development
Hippocampus
Microglia
G Protein-coupled Receptor 17 (gpr17)
Ng2
Spinal Cord
P2y2 Receptor
Retina
Macrophage
Depression
Glycine Transporters
Inflammation
Montelukast
N/a
Adipogenesis
Neonatal Seizures
Adipose Tissue
A2b Receptors
Bone Marrow
Neuroprotection
Osteogenesis
P2x4 Receptor
Endometrium
Dh82
Gallic Acid
Neurodegeneration And Neuroregeneration
Neurodegeneration
P2x7 Receptor
P2y
Ex Vivo Organotypic Brain Slice Co-culture
Cd73
Oligodendrocyte Differentiation
Guanosine
Neuroinflammation
Adenosine
Autoimmune Disease
Pore Formation
Inflammatory Diseases
Visceral Pain
Endometriosis
Research & Information: General / Bicssc
Oxygen-glucose Deprivation
Atp
Purinergic Modulation
Macrophages
Inflammasome Activation
Biology, Life Sciences / Bicssc
Ectonucleotidases
P2x7r
Purinergic Signaling
Obesity
Demyelination
Stroke
Dog
Neurite Outgrowth
Astroglia
Purinergic Receptors
Canine
Pain
Adenosine Receptors
Dorsal Root Ganglion
Antinociception
Glycinergic Neurotransmission
P2x
Cd39
Cerebral Ischemia
Purinergic Signalling
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:It is currently apparent that extracellular ATP's physiological effect is mediated by its interaction with specific purinergic receptors. All purinergic receptors are divided into P1-purinoreceptors and P2-purinoreceptors. Each of the subtypes is divided into a number of families. For instance, P2 receptors are divided into P2X and P2Y receptors according to the mechanism by which their effect is realized: P2Y are G-protein-coupled receptors, while P2X receptors are ligand-operated ion channels. P2X receptors are important molecular therapeutic targets, the malfunctioning of which leads to severe complications in the physiology of humans and animals and causes dangerous diseases. The search for compounds that can modulate the function of purinergic receptors can lead to the creation of new drugs that are effective in central and peripheral nervous system and immune system disease treatment, including neuroinflammation, hypoxia/ischemia, epilepsy and neuropathic pain. In this Special Issue, we wish to offer a platform for high-quality publications on the latest advances in the identification of P2X/Y- and P1-receptor blockers, functions and regulation by them; the characterization of these receptor signaling networks and crosstalk; mechanisms underlying the role of purinoceptors in neurodegenerative illnesses as well as chronic neuronal changes following acute noxious damage and therapeutic opportunities associated with regulation of purinergic receptor activity.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (276 p.)
ISBN:books978-3-0365-7686-2
9783036576879
9783036576862

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