04638nam 2200709 450 991014974500332120230525192748.01-61504-731-X10.4199/C00143ED1V01Y201610NGL009(CKB)3710000000935166(MiAaPQ)EBC4731703(OCoLC)962190531(CaBNVSL)swl00406914(MOCL)201610NGL009(EXLCZ)99371000000093516620161107d2017 fy 0engurcnu||||||||rdacontentrdamediardacarrierNG2-glia (polydendrocytes) /Arthur M. Butt[San Rafael, California] :Morgan & Claypool,2017.1 online resource (54 pages) color illustrationsColloquium series on neuroglia in biology and medicine,2375-9917 ;# 9Part of: Colloquium digital library of life sciences.1-61504-730-1 Includes bibliographical references (pages 25-38).1. Introduction --2. Identification and lineage of NG2-glia (polydendrocytes) -- 2.1 Morphology and distribution of NG2-glia -- 2.2 Structure and function of NG2 (Cspg4) -- 2.3 Proliferation of NG2-glia and generation of oligodendrocytes -- 2.4 Multipotential nature of NG2-glia --3. Physiological characteristics of NG2-glia (polydendrocytes) -- 3.1 Ion channels -- 3.1.1 Potassium channels -- 3.1.2 Sodium channels -- 3.1.3 Calcium channels -- 3.1.4 Chloride channels -- 3.1.5 HCN channels -- 3.2 Neurotransmitter receptors -- 3.2.1 Glutamate receptors -- 3.2.2 GABA receptors -- 3.2.3 Purine receptors -- 3.2.4 Other neurotransmitter receptors --4. Synaptic signalling in NG2-glia (polydendrocytes) -- 4.1 Prominence of AMPA and GABAA receptor mediated signalling in NG2-glia -- 4.2 Functions of synaptic signalling in NG2-glia -- 4.3 Neurotransmitters and NG2-glial cell pathology --5. Pathological responses of NG2-glia (polydendrocytes) -- 5.1 Demyelination -- 5.2 Traumatic injury -- 5.3 Ageing --6. Concluding remarks -- References -- Author biography -- Titles of related interest.Classically, the central nervous system (CNS) was considered to contain neurons and three main types of glial cells--astrocytes, oligodendrocytes, and microglia. Now, it has been clearly established that NG2-glia are a fourth glial cell type that are identified and defined by their expression of the NG2 chondroitin sulfate proteoglycan (Cspg4). NG2-glia differentiate into oligodendrocytes, the myelin-forming cells of the CNS, under the control of multiple extacellular and intrinsic factors. Due to this, NG2-glia are often referred to in the literature as oligodendrocyte progenitor cells (OPCs). The name polydendrocytes has been suggested for NG2-glia (OPCs), to emphasize their nature as a fourth distinct glial cell type. NG2-glia respond rapidly to neurotransmission via their synaptic connections with neurons and their repertoire of neurotransmitter receptors and ion channels. Bidirectional interactions between NG2-glia and neurons are also important for synaptic function and neuronal integrity. NG2-glia respond to most neuropathologies by increased proliferation and differentiation into oligodendrocytes, which is critical for replacing damaged myelin after injury and in demyelinating diseases, such as multiple sclerosis. There is also evidence NG2-glia are capable of generating astrocytes and neurons under some circumstances. The full capacity of NG2-glia is not yet clear, but their key function is the lifelong generation of oligodendrocytes, which is absolutely critical for CNS function and integrity.Colloquium digital library of life sciences.Colloquium series on neuroglia in biology and medicine ;# 9.2375-9917NeurogliaAstrocytesNeurogliaAstrocytesNG2-Gliaoligodendrocyte precursor cellpolydendrocytesynapseglutamatepotassiumneuron-glial signallingremyelinationNeuroglia.Astrocytes.Neuroglia.Astrocytes.611.0188Butt Arthur1344575CaBNVSLCaBNVSLCaBNVSLBOOK9910149745003321NG2-glia (polydendrocytes)3364490UNINA