Strategies for repair of white matter: influence of osmolarity and microglia on proliferation and apoptosis of oligodendrocyte precursor cells in different basal culture media. Kleinsimlinghaus, K; Marx, R; Serdar, M; Bendix, I; Dietzel, ID Frontiers in cellular neuroscience
7
277
2013
Show Abstract
The aim of the present study has been to obtain high yields of oligodendrocyte precursor cells (OPCs) in culture. This is a first step in facilitation of myelin repair. We show that, in addition to factors, known to promote proliferation, such as basic fibroblast growth factor (FGF-2) and platelet derived growth factor (PDGF) the choice of the basal medium exerts a significant influence on the yield of OPCs in cultures from newborn rats. During a culture period of up to 9 days we observed larger numbers of surviving cells in Dulbecco's Modified Eagle Medium (DMEM), and Roswell Park Memorial Institute Medium (RPMI) compared with Neurobasal Medium (NB). A larger number of A2B5-positive OPCs was found after 6 days in RPMI based media compared with NB. The percentage of bromodeoxyuridine (BrdU)-positive cells was largest in cultures maintained in DMEM and RPMI. The percentage of caspase-3 positive cells was largest in NB, suggesting that this medium inhibits OPC proliferation and favors apoptosis. A difference between NB and DMEM as well as RPMI is the reduced Na(+)-content. The addition of equiosmolar supplements of mannitol or NaCl to NB medium rescued the BrdU-incorporation rate. This suggested that the osmolarity influences the proliferation of OPCs. Plating density as well as residual microglia influence OPC survival, BrdU incorporation, and caspase-3 expression. We found, that high density cultures secrete factors that inhibit BrdU incorporation whereas the presence of additional microglia induces an increase in caspase-3 positive cells, indicative of enhanced apoptosis. An enhanced number of microglia could thus also explain the stronger inhibition of OPC differentiation observed in high density cultures in response to treatment with the cytokines TNF-α and IFN-γ. We conclude that a maximal yield of OPCs is obtained in a medium of an osmolarity higher than 280 mOsm plated at a relatively low density in the presence of as little microglia as technically achievable. | | 24421756
|
Frequent infection of cortical neurons by JC virus in patients with progressive multifocal leukoencephalopathy. Wüthrich, C; Koralnik, IJ Journal of neuropathology and experimental neurology
71
54-65
2011
Show Abstract
The human polyomavirus JC (JCV) infects glial cells and causes progressive multifocal leukoencephalopathy (PML), a demyelinating disease of the brain, in immunosuppressed individuals. The extent of JCV infection of neurons is unclear. We determined the prevalence and pattern of JCV infection in gray matter (GM) by immunostaining in archival brain samples of 49 PML patients and 109 control subjects. Among PML patients, 96% had demyelinating lesions in white matter and at the gray-white junction (GWJ); 57% had them in the GM. Most JCV-infected cells in GWJ and GM were glia, but JCV also infected neurons in PML lesions at the GWJ of 54% and GM of 50% patients and in GM outside areas of demyelination in 11% of patients. The JCV regulatory T antigen (Ag) was expressed more frequently in cortical neurons than the VP1 capsid protein. None of the control subjects without PML had any cells expressing JCV proteins. Thus, the cerebral cortex often harbors demyelinating lesions of PML, and JCV infection of cortical neurons is frequent in PML patients. The predominance of T Ag over VP1 expression suggests a restrictive infection in neurons. These results indicate that JCV infection of cerebral cortical neurons is a previously under appreciated component of PML pathogenesis. | | 22157619
|
Altered expression pattern of testican-1 mRNA after brain injury. Ken Iseki,Seita Hagino,Yuxiang Zhang,Tetsuji Mori,Nobuko Sato,Sachihiko Yokoya,Yasukazu Hozumi,Kaoru Goto,Choichiro Tase Biomedical research (Tokyo, Japan)
32
2010
Show Abstract
Testican, a chondroitin/heparan sulfate proteoglycan, is primarily expressed in neurons of the adult and embryonic mouse brain, suggesting its role in normal and/or proliferation and differentiation processes of neurons. However, the role of testican in injured brain remains unclear. In the present study we investigated testican-1 mRNA expression pattern after cryo-injury of the brain. In situ hybridization histochemistry revealed that testican-1 mRNA is induced in the region surrounding the necrotic tissue. Time course study of testican-1 mRNA showed the highest level of signal intensity at 7 days after the injury. To determine which cell types express testican-1 mRNA, we performed in situ hybridization histochemistry combined with immunohistochemistry of several cell markers. Testican-1 mRNA signals were detected in the proximal reactive astrocytes, whereas the distribution pattern of testican-1 mRNA positive cells was different from those of mature oligodendrocytes and activated microglia. In addition, signals for testican-1 mRNA overlapped with those of FGF-2 mRNA, showing that these molecules are coexpressed in reactive astrocytes. These results suggest a possibility that testican-1 plays a permissive role for regenerating axons in reactive astrocytes after injury. | | 22199127
|
Transplantation of predifferentiated adipose-derived stromal cells for the treatment of spinal cord injury. David Arboleda,Serhiy Forostyak,Pavla Jendelova,Dana Marekova,Takashi Amemori,Helena Pivonkova,Katarina Masinova,Eva Sykova Cellular and molecular neurobiology
31
2010
Show Abstract
Adipose-derived stromal cells (ASCs) are an alternative source of stem cells for cell-based therapies of neurological disorders such as spinal cord injury (SCI). In the present study, we predifferentiated ASCs (pASCs) and compared their behavior with naïve ASCs in vitro and after transplantation into rats with a balloon-induced compression lesion. ASCs were predifferentiated into spheres before transplantation, then pASCs or ASCs were injected intraspinally 1 week after SCI. The cells' fate and the rats' functional outcome were assessed using behavioral, histological, and electrophysiological methods. Immunohistological analysis of pASCs in vitro revealed the expression of NCAM, NG2, S100, and p75. Quantitative RT-PCR at different intervals after neural induction showed the up-regulated expression of the glial markers NG2 and p75 and the neural precursor markers NCAM and Nestin. Patch clamp analysis of pASCs revealed three different types of membrane currents; however, none were fast activating Na(+) currents indicating a mature neuronal phenotype. Significant improvement in both the pASC and ASC transplanted groups was observed in the BBB motor test. In vivo, pASCs survived better than ASCs did and interacted closely with the host tissue, wrapping host axons and oligodendrocytes. Some transplanted cells were NG2- or CD31-positive, but no neuronal markers were detected. The predifferentiation of ASCs plays a beneficial role in SCI repair by promoting the protection of denuded axons; however, functional improvements were comparable in both the groups, indicating that repair was induced mainly through paracrine mechanisms. | | 21630007
|
A common progenitor for retinal astrocytes and oligodendrocytes. Rompani, SB; Cepko, CL The Journal of neuroscience : the official journal of the Society for Neuroscience
30
4970-80
2009
Show Abstract
Developing neural tissue undergoes a period of neurogenesis followed by a period of gliogenesis. The lineage relationships among glial cell types have not been defined for most areas of the nervous system. Here we use retroviruses to label clones of glial cells in the chick retina. We found that almost every clone had both astrocytes and oligodendrocytes. In addition, we discovered a novel glial cell type, with features intermediate between those of astrocytes and oligodendrocytes, which we have named the diacyte. Diacytes also share a progenitor cell with both astrocytes and oligodendrocytes. | | 20371817
|
The ANKK1 gene associated with addictions is expressed in astroglial cells and upregulated by apomorphine. J Hoenicka, A Quinones-Lombrana, L Espana-Serrano, X Alvira-Botero, L Kremer, R Perez-Gonzalez, R Rodriguez-Jimenez, MA Jimenez-Arriero, G Ponce, T Palomo Biological psychiatry
67
3-11
2009
Show Abstract
BACKGROUND: TaqIA, the most widely analyzed genetic polymorphism in addictions, has traditionally been considered a gene marker for association with D2 dopamine receptor gene (DRD2). TaqIA is located in the coding region of the ANKK1 gene that overlaps DRD2 and encodes a predicted kinase ANKK1. The ANKK1 protein nonetheless had yet to be identified. This study examined the ANKK1 expression pattern as a first step to uncover the biological bases of TaqIA-associated phenotypes. METHODS: Northern blot and quantitative reverse-transcriptase polymerase chain reaction analyses were performed to analyze the ANKK1 mRNA. To study ANKK1 protein expression, we developed two polyclonal antibodies to a synthetic peptides contained in the putative Ser/Thr kinase domain. RESULTS: We demonstrate that ANKK1 mRNA and protein were expressed in the adult central nervous system (CNS) in human and rodents, exclusively in astrocytes. Ankk1 mRNA level in mouse astrocyte cultures was upregulated by apomorphine, suggesting a potential relationship with the dopaminergic system. Developmental studies in mice showed that ANKK1 protein was ubiquitously located in radial glia in the CNS, with an mRNA expression pick around embryonic Day 15. This time expression pattern coincided with that of the Drd2 mRNA. On induction of differentiation by retinoic acid, a sequential expression was found in human neuroblastoma, where ANKK1 was expressed first, followed by that of DRD2. An opposite time expression pattern was found in rat glioma. CONCLUSIONS: Spatial and temporal regulation of the expression of ANKK1 suggest an involvement of astroglial cells in TaqIA-related neuropsychiatric phenotypes both during development and adult life. | | 19853839
|
Analysis of jmjd6 cellular localization and testing for its involvement in histone demethylation. Hahn P, Wegener I, Burrells A, Böse J, Wolf A, Erck C, Butler D, Schofield CJ, Böttger A, Lengeling A PLoS One
5
e13769.
2009
Show Abstract
BACKGROUND: Methylation of residues in histone tails is part of a network that regulates gene expression. JmjC domain containing proteins catalyze the oxidative removal of methyl groups on histone lysine residues. Here, we report studies to test the involvement of Jumonji domain-containing protein 6 (Jmjd6) in histone lysine demethylation. Jmjd6 has recently been shown to hydroxylate RNA splicing factors and is known to be essential for the differentiation of multiple tissues and cells during embryogenesis. However, there have been conflicting reports as to whether Jmjd6 is a histone-modifying enzyme. Full Text Article | | 21060799
|
Frequent infection of cerebellar granule cell neurons by polyomavirus JC in progressive multifocal leukoencephalopathy. Wüthrich, C; Cheng, YM; Joseph, JT; Kesari, S; Beckwith, C; Stopa, E; Bell, JE; Koralnik, IJ Journal of neuropathology and experimental neurology
68
15-25
2009
Show Abstract
Progressive multifocal leukoencephalopathy (PML) occurs most often in immunosuppressed individuals. The lesions of PML result from astrocyte and oligodendrocyte infection by the polyomavirus JC (JCV); JCV has also been shown to infect and destroy cerebellar granule cell neurons (GCNs) in 2 human immunodeficiency virus (HIV)-positive patients. To determine the prevalence and pattern of JCV infection in GCNs, we immunostained formalin-fixed paraffin-embedded cerebellar samples from 40 HIV-positive and 3 HIV-negative PML patients for JCV, and glial and neuronal markers. The JCV infection was detected in 30 patients (70%); 28 (93%) of them had JCV-infected cells in the GC layer; JCV-infected GCNs were demonstrated in 15 (79%) of 19 tested cases. The JCV regulatory T antigen was expressed more frequently and abundantly in GCNs than JCV VP1 capsid protein. None of 37 HIV-negative controls but 1 (3%) of 35 HIV-positive subjects without PML had distinct foci of JCV-infected GCNs. Thus, JCV infection of GCNs is frequent in PML patients and may occur in the absence of cerebellar white matter demyelinating lesions. The predominance of Tantigen over VP1 expression in GCNs suggests that they may be the site of early or latent central nervous system JCV infection. These results indicate that infection of GCNs is an important, previously overlooked, aspect of JCV pathogenesis in immunosuppressed individuals. Full Text Article | | 19104450
|
Morphological differentiation of tau-green fluorescent protein embryonic stem cells into neurons after co-culture with auditory brain stem slices. A Glavaski-Joksimovic, C Thonabulsombat, M Wendt, M Eriksson, H Ma, P Olivius, A Glavaski-Joksimovic, C Thonabulsombat, M Wendt, M Eriksson, H Ma, P Olivius, A Glavaski-Joksimovic, C Thonabulsombat, M Wendt, M Eriksson, H Ma, P Olivius Neuroscience
162
472-81
2009
Show Abstract
Most types of congenital and acquired hearing loss are caused by loss of sensory hair cells in the inner ear and their respective afferent neurons. Replacement of spiral ganglion neurons (SGN) would therefore be one prioritized step in an attempt to restore sensory neuronal hearing loss. To initiate an SGN repair paradigm we previously transplanted embryonic neuronal tissue and stem cells (SC) into the inner ear in vivo. The results illustrated good survival of the implant. One such repair, however, would not have any clinical significance unless central connections from the implanted SGN could be established. For the purpose of evaluating the effects of cell transplantation on cochlear nucleus (CN) neurons we have established organotypic brain stem (BS) cultures containing the CN. At present we have used in vitro techniques to study the survival and differentiation of tau-green fluorescent protein (GFP) mouse embryonic stem cells (MESC) as a mono- or co-culture with BS slices. For the co-culture, 300 mum thick auditory BS slices encompassing the CN were prepared from postnatal Sprague-Dawley rats. The slices were propagated using the membrane interface method and the CN neurons labeled with DiI. After 5+/-2 days in culture a tau-GFP MESC suspension was deposited next to CN in the BS slice. Following deposition the MESC migrated towards the CN. One and two weeks after transplantation the co-cultures were fixed and immunostained with antibodies raised against neuroprogenitor, neuronal, glial and synaptic vesicle protein markers. Our experiments with the tau-GFP MESC and auditory BS co-cultures show a significant MESC survival but also differentiation into neuronal cells. The findings illustrate the significance of SC and auditory BS co-cultures regarding survival, migration, neuronal differentiation and connections. | | 19410633
|
CD163, a marker of perivascular macrophages, is up-regulated by microglia in simian immunodeficiency virus encephalitis after haptoglobin-hemoglobin complex stimulation and is suggestive of breakdown of the blood-brain barrier. Juan T Borda,Xavier Alvarez,Mahesh Mohan,Atsuhiko Hasegawa,Andrea Bernardino,Sherrie Jean,Pyone Aye,Andrew A Lackner The American journal of pathology
172
2008
Show Abstract
Macrophages and microglia are the major cell types infected by human immunodeficiency virus and simian immunodeficiency virus (SIV) in the central nervous system. Microglia are likely infected in vivo, but evidence of widespread productive infection (ie, presence of viral RNA and protein) is lacking. This conclusion is controversial because, unlike lymphocytes, macrophages and microglia cannot be discreetly immunophenotyped. Of particular interest in the search for additional monocyte/macrophage-lineage cell markers is CD163; this receptor for haptoglobin-hemoglobin (Hp-Hb) complex, which forms in plasma following erythrolysis, is expressed exclusively on cells of monocyte/macrophage lineage. We examined CD163 expression in vitro and in vivo by multiple techniques and at varying times after SIV infection in macaques with or without encephalitis. In normal and acutely SIV-infected animals, and in SIV-infected animals without encephalitis, CD163 expression was detected in cells of monocyte/macrophage lineage, including perivascular macrophages, but not in parenchymal microglia. However, in chronically infected animals with encephalitis, CD163 expression was detected in activated microglia surrounding SIV encephalitis lesions in the presence of Hp-Hb complex, suggesting leakage of the blood-brain barrier. CD163 expression was also induced on microglia in vitro after stimulation with Hp-Hb complex. We conclude that CD163 is a selective marker of perivascular macrophages in normal macaques and during the early phases of SIV infection; however, later in infection in animals with encephalitis, CD163 is also expressed by microglia, which are probably activated as a result of vascular compromise. Full Text Article | | 18276779
|