Yangzhou Du scite author profile

Glial cells recently are being appreciated as supporters of brain neurons. This review addresses their role as growth factor providers. While the function of astrocytes in this capacity is known, new data indicate that oligodendrocytes, the myelinating cells of the brain, exhibit similar abilities. Oligodendrocytes provide trophic signals to nearby neurons and synthesize defined growth factors. Expression of growth factors is influenced by neural signals. The review summarizes these roles and their implications in brain function.

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Astroglia‐mediated effects of uric acid to protect spinal cord neurons from glutamate toxicity

Chen

Tseng

et al. 2007

Glia

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Uric acid (UA) has been demonstrated to reduce damage to neurons elicited by oxidative stress. However, our studies utilizing cultures derived from embryonic rat spinal cord indicate that an astroglia-mediated mechanism is involved in the effects of UA to protect neurons from glutamate toxicity. The damage elicted by glutamate to neurons in a mixed culture of spinal cord cells can be reversed by UA. Furthermore, addition of UA after the termination of glutamate exposure suggests that UA plays an active role in mediating neuroprotection rather than purely binding peroxynitrite, as previously thought. Importantly, in pure neuron cultures from the same tissue, UA does not protect against glutamate toxicity. Addition of astroglia to the pure neuron cultures restores the ability of UA to protect the neurons from glutamate-induced toxicity. Our results also suggest that glia provide EAAT-1 and EAAT-2 glutamate transporters to protect neurons from glutamate, that functional EAATs may be necessary to mediate the effects of UA, and that treatment with UA results in upregulation of EAAT-1 protein. Taken together, our data strongly suggest that astroglia in mixed cultures are essential for mediating the effects of UA, revealing a novel mechanism by which UA, a naturally produced substance in the body, may act to protect neurons from damage during insults such as spinal cord injury.

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Regionally Specific Effects of BDNF on Oligodendrocytes

et al. 2003

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To define the effects of neurotrophins on oligodendrocytes, we monitored NGF, BDNF and NT-3 actions on basal forebrain (BF) and cortical populations. NGF, BDNF and NT-3 applied to BF oligodendrocytes elicited increases in expression of myelin basic protein (MBP) and enhanced the numbers of MBP+ cells, without affecting total cell numbers. In the cortex, however, while NGF and NT-3 influenced MBP expression, BDNF was without effect. To explore this apparent regional difference in BDNF action, we compared expression of the neurotrophin receptors trkA, trkB and trkC. While BF cells expressed all three trks, cortical cells did not express the full-length BDNF receptor, trkB. Interestingly, in no case was any receptor expressed by all oligodendrocytes, indicating that oligodendrocytes may be heterogeneous within a brain region. The data suggest that BF oligodendrocytes are influenced by BDNF to express MBP and are distinct in this ability from cortical cells.

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Brain‐derived neurotrophic factor effects on oligodendrocyte progenitors of the basal forebrain are mediated through trkB and the MAP kinase pathway

Veer

Fischer

et al. 2008

J of Neuroscience Research

109

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Previous work has indicated that BDNF increases the differentiation of basal forebrain (BF) oligodendrocytes (OLGs) in culture through the mediation of trkB and the MAPK pathway (Du et al. [2006a,b] Mol. Cell. Neurosci. 31:366–375; J. Neurosci. Res. 84:1692–1702). In the present work, effects of BDNF on BF OLG progenitor cells (OPCs) were examined. BDNF increased DNA synthesis of OPCs, as assessed by thymidine and bro-modeoxyuridine incorporation. Effects of BDNF on DNA synthesis were mediated through the trkB receptor and not the p75 receptor, as shown by inhibitors that block neurotrophin binding to the receptors and by the phosphorylation of trkB. TrkB can activate the mitogenactivated protein kinase (MAPK), phosphatidylinositol-3 kinase (PI3-K), and phospholipase C-γ (PLC-γ) pathways. BDNF elicited the phosphorylation of MAPK and Akt, a kinase downstream of PI3K, but not PLC-γ in OPCs. Through the use of specific inhibitors to the MAPK and PI3-K pathways, it was found that the MAPK pathway was responsible for the effect of BDNF on DNA synthesis. These data indicate that BDNF affects OPC proliferation and development through the mediation of trkB and the MAPK pathway.

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The Trophic Role of Oligodendrocytes in the Basal Forebrain

et al. 2003

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Traditionally, the primary function of oligodendrocytes (OLGs) in the CNS has been considered to be myelination. Here, we investigated whether OLGs may play a trophic role, particularly during development. Neurotrophin expression was assessed in postnatal day 7 basal forebrain (BF) OLGs, using in situ hybridization and detection of myelin basic protein. Nerve growth factor, brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) mRNAs were revealed in OLGs in vivo and in culture. To determine whether OLGs support nearby neurons, we examined the influence of OLGs on BF cholinergic neurons. Neuronal function was enhanced by cocultured OLGs and OLG conditioned medium. Moreover, trophic effects of OLG conditioned medium were partially blocked by K252a, a trk tyrosine kinase inhibitor, and by neutralizing anti-BDNF or anti-NT-3 antisera, indicating that neurotrophins may mediate these effects, perhaps in concert with other signals. Our studies support a novel role for OLGs in providing local trophic support for neurons in the CNS.

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Yangzhou Du

Oligodendrocytes as providers of growth factors

Astroglia‐mediated effects of uric acid to protect spinal cord neurons from glutamate toxicity

Regionally Specific Effects of BDNF on Oligodendrocytes

Brain‐derived neurotrophic factor effects on oligodendrocyte progenitors of the basal forebrain are mediated through trkB and the MAP kinase pathway

The Trophic Role of Oligodendrocytes in the Basal Forebrain

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