Stereological Analysis of Oligodendrocyte Progenitor Cells In the Adult Mouse Brain

Boulanger, Jenna

January 2017

The main goal of this study was to further explore the hypothesis that experience-dependent neural network activity and neurotransmission can modulate adult OPC proliferation and differentiation. More specifically, we used stereology to establish whether extensive reference memory training and system-wide administration of GABAergic agonists and antagonists could influence the proliferation and differentiation of adult OPCs, as well as the prevalence of OPC-neuron pairs. Analysis of the effects of reference memory training on OPC proliferation and differentiation corresponds to experiment 2, analysis of the effects of GABAergic agents on OPC proliferation and differentiation corresponds to experiment 3, and analysis of the effects of both reference memory training and GABAergic agents on OPC-neuron pairs, as well as an histological analysis of these closely apposed cells, corresponds to experiment 4.

Oligodendrocyte progenitor cells

GABA

Stereology

Reference Memory

Doublecortin

Oligodendrocyte progenitor cells : from experimental remyelination to multiple sclerosis

Jennings, Alison Ruth

January 2007

In experimental models of demyelination such as cat optic nerve injected with antibody to galactocerebroside, stepwise and ultimately full repair occurs, starting with recruitment of oligodendrocyte progenitor cells (OP) from surrounding tissue and culminating in remyelination by young competent oligodendrocytes. Endogenous repair of demyelination can also occur in the adult human central nervous system, as evidenced by remyelinated shadow plaques in MS, but ultimately fails in this disease, leading to areas of chronic demyelination where surviving axons are both dysfunctional in terms of conduction and vulnerable to ongoing damage. In order to meaningfully investigate this failure of remyelination in the human situation, an essential prerequisite is to be able to reliably identify the neuroglial cells, and in particular, oligodendrocyte lineage cells, involved in the repair pathway in situ in post mortem tissue. While some marker antigens have been shown to remain demonstrable despite autolytic change and through differing fixation levels, others are far more sensitive and only reliable in freshly obtained tissue with light fixation. For instance, the surface antigens NG2 and PDGFαR, which have been widely used in experimental studies as a marker for OP both in vivo and in vitro, have been shown to be adversely affected by both fixation and autolysis. To this end, the cat optic nerve demyelination model, in which the reparative oligodendrocyte lineage stages have been antigenically defined, was extended to normal optic nerve including lightly fixed tissue. Here, NG2, PDGFαR and the oligodendrocyte lineage transcription factors Olig1 and Olig2 were able to be demonstrated and then correlated with the existing antigenic phenotypes. Subsequently, normal human optic nerve, optimised for both morphological preservation and antigen retention, was used to develop an in vivo staining profile for all neuroglia including OP, that was then applied to conventionally prepared, normal and MS tissue. It was found that, with careful attention to technical parameters such as post mortem interval and details of fixation, OP and other stages of the remyelinating oligodendrocyte lineage could be identified in such material, resulting in meaningful insight into the repair status of the three MS samples studied.

Multiple sclerosis -- Etiology

Optic nerve

Neuroglia -- Identification

Oligodendroglia

Myelination

Demyelination

Neuroglial cell identification

Oligodendrocyte progenitor cells

Immunoablation of cells expressing the NG2 chondroitin sulphate proteoglycan

Leoni, G., Rattray, Marcus, Fulton, D., Rivera, A., Butt, A.M.

02 1900

Yes / Expression of the transmembrane NG2 chondroitin sulphate proteoglycan (CSPG) defines a distinct population of NG2-glia. NG2-glia serve as a regenerative pool of oligodendrocyte progenitor cells in the adult central nervous system (CNS), which is important for demyelinating diseases such as multiple sclerosis, and are a major component of the glial scar that inhibits axon regeneration after CNS injury. In addition, NG2-glia form unique neuron–glial synapses with unresolved functions. However, to date it has proven difficult to study the importance of NG2-glia in any of these functions using conventional transgenic NG2 ‘knockout’ mice. To overcome this, we aimed to determine whether NG2-glia can be targeted using an immunotoxin approach. We demonstrate that incubation in primary anti-NG2 antibody in combination with secondary saporin-conjugated antibody selectively kills NG2-expressing cells in vitro. In addition, we provide evidence that the same protocol induces the loss of NG2-glia without affecting astrocyte or neuronal numbers in cerebellar brain slices from postnatal mice. This study shows that targeting the NG2 CSPG with immunotoxins is an effective and selective means for killing NG2-glia, which has important implications for studying the functions of these enigmatic cells both in the normal CNS, and in demyelination and degeneration.

Oligodendrocyte pathology following Traumatic Brain Injury : Experimental and clinical studies

Flygt, Johanna

January 2017

Traumatic brain injury (TBI) caused by traffic and fall accidents, sports-related injuries and violence commonly results in life-changing disabilities. Cognitive impairments following TBI may be due to disruption of axons, stretched by the acceleration/deceleration forces of the initial impact, and their surrounding myelin in neuronal networks. The primary injury, which also results in death to neuronal and glial cells, is followed by a cascade of secondary injury mechanisms including a complex inflammatory response that will exacerbate the white matter injury. Axons are supported and protected by the ensheathing myelin, ensuring fast conduction velocity. Myelin is produced by oligodendrocytes (OLs), a cell type vulnerable to many of the molecular processes, including several inflammatory mediators, elicited by TBI. Since one OL extends processes to several axons, the protection of OLs is an important therapeutic target post-TBI.  During development, OLs mature from oligodendrocyte progenitor cells (OPCs), also present in the adult brain. The aim of this thesis was to investigate white matter pathology, with a specific focus on the OL population, in experimental and clinical TBI. Since the inflammatory response may contribute to OL cell death and OPC proliferation, neutralization of interleukin-1β (IL-1β) was investigated. The lateral and central fluid percussion injury models were used in mice and rats where memory, learning and complex behaviors were investigated by two functional tests. Brain tissue, surgically resected due to life-threatening brain swelling or hemorrhage, from TBI patients was also investigated. Axonal injury, myelin damage, microglia alterations and OPCs and OL cell death were investigated by immunohistochemical techniques. In focal and diffuse experimental TBI, OL cell death was observed in important white matter tracts. OL cell death was accompanied by myelin damage, axonal injury and presence of microglia as well as an increased number of OPCs in both the experimental and human setting. OPCs were found to proliferate in diffuse TBI in mice where both complex behavioral changes and impaired memory were observed. Neutralization of IL-1β normalized and improved these behavioral alterations and also lead to a preserved number of mature OLs although without influencing OPC proliferation. The results provided in this thesis indicate that white matter pathology is a key component of the pathophysiology of TBI. The OPC proliferation may influence regeneration post-injury and might be an important future therapeutic targets for TBI. The present studies also suggest that treatment strategies targeting neuroinflammation may positively influence behavioral outcome and OL cell death in TBI. / <p>(Faculty of Medicine)</p>

Traumatic brain injury

oligodendrocytes

oligodendrocyte progenitor cells

interleukin 1-β

central fluid percussion injury

Natural Sciences

Naturvetenskap

Stem-like cells and glial progenitors in the adult mouse suprachiasmatic nucleus

Beligala, Dilshan Harshajith

06 December 2019

No description available.

Neurosciences

Biology

Cellular Biology

Biomedical Research

Suprachiasmatic nucleus

Adult neurogenesis

Neural stem cell

Circadian rhythm

Oligodendrocyte progenitor cells

Neuroplasticity