Hiroko Baba scite author profile

Hiroko Baba

2Publications

35Citation Statements Received

24Citation Statements Given

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National Institute for Physiological Sciences, Nagoya City University

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Completion of myelin compaction, but not the attachment of oligodendroglial processes triggers K channel clustering

et al. 1999

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The characteristic localization of ion channels is crucial for the propagation of saltatory conduction in myelinated nerves. Voltage-gated Na(+) channels are located at nodes of Ranvier while voltage-gated K(+) channels are mainly found at juxtaparanodal regions. Recently, a humoral factor secreted by oligodendrocytes has been reported to induce clustering of Na(+) channels in CNS axons. However, the molecular mechanisms for K(+) channel clustering as well as the role of oligodendrocytes are still uncertain. To clarify whether myelin sheath itself can induce the distinct distribution of K(+) channels, we have investigated the localization of K(+) channels in adult and developing mouse optic nerves. The CNS axons from chronic demyelinating and hypomyelinating mice were also examined to determine if myelin sheaths were required for the maintenance of clusters. In all cases, the K(+) channel clustering correlated well with compact myelin, but not with the presence of oligodendrocytes, suggesting that, in contrast to Na(+) channel clustering, the formation of compact myelin is required for initiation as well as maintenance of K(+) channel clustering. In addition, postsynaptic density protein-95 (PSD-95) or its highly related protein was found colocalized with K(+) channels, suggesting that it may interact with K(+) channels to form clusters at juxtaparanodal regions.

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Metabolic labeling of a subset of glial cells by UDP‐galactose: Implication for astrocyte lineage diversity

et al. 1998

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Astrocytes are implicated in many aspects of brain function; however, it remains unclear whether astrocytes arise from a single cell lineage. It is therefore important to obtain new markers for the astrocyte cell lineage. We show that exogenously added UDP-galactose (UDP-Gal) can be used to metabolically label a subset of glial fibrillary acidic protein-positive (GFAP+) cells. UDP-Gal was incorporated into the cultured embryonic mouse brain slices in a time-dependent manner. Surprisingly, the transferred sugar moiety was no longer Gal but was mainly glucose. Most of the radioactivity was transferred to a polymer of glucose, most likely to be glycogen, and also to glucosyl ceramide. In the slice culture, the reaction products were distributed densely in the ventricular zone and also on process-like structures extending to the pial surface. In dissociation culture, UDP-Gal labeled some of the GFAP+ cells and some of the vimentin+ cells. Because radial glial cells (RGCs) contain glycogen and change from vimentin+ to GFAP+, it is strongly suggested that UDP-Gal labeled RGCs and their descendants. Only 27% of the GFAP+ cells were labeled with UDP-Gal, which suggests that only a subset of astrocytes are derived from RGCs and that there is a discrete group of GFAP+ cells that is not generated from RGCs.

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Hiroko Baba

Completion of myelin compaction, but not the attachment of oligodendroglial processes triggers K channel clustering

Metabolic labeling of a subset of glial cells by UDP‐galactose: Implication for astrocyte lineage diversity

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