Hiroko Tabunoki scite author profile

Aquaporins (AQP) constitute an evolutionarily conserved family of integral membrane water transport channel proteins. Previous studies indicate that AQP1 is expressed exclusively in the choroid plexus epithelium, while AQP4 is localized on the vascular foot of astrocytes in the central nervous system (CNS) under physiological conditions. To investigate a role of AQP in the pathophysiology of neurological diseases involving astrogliosis we studied the expression of AQP1 and AQP4 in cultured human astrocytes and brain tissues of multiple sclerosis (MS), cerebral infarction and control cases. By reverse transcriptasepolymerase chain reaction and western blot analysis, cultured human astrocytes co-expressed both AQP1 and AQP4 mRNA and proteins, where AQP4 levels were elevated by exposure to interferon-gamma but neither by tumor necrosis factor-alpha nor interleukin-1beta, whereas AQP1 levels were unaffected by any of the cytokines examined. By western blot analysis, AQP1 and AQP4 proteins were detected in the brain homogenates of the MS and non-MS cases, where both levels were correlated with those of glial fibrillary acid protein. By immunohistochemistry, astrocytes with highly branched processes surrounding blood vessels, along with glial scar, expressed intensely AQP1 and AQP4 in MS and ischemic brain lesions, whereas neither macrophages, neurons nor oligodendrocyte cell bodies were immunopositive. These immunohistochemical results indicate that the expression not only of AQP4 but also of AQP1 was enhanced in MS and ischemic brain lesions located predominantly in astrocytes, suggesting a pivotal role of astrocytic AQP in the maintenance of water homeostasis in the CNS under pathological conditions.

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Isolation, Characterization, and cDNA Sequence of a Carotenoid Binding Protein from the Silk Gland of Bombyx mori Larvae

Tabunoki¹,

Sugiyama²,

Tanaka³

et al. 2002

Journal of Biological Chemistry

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Characterization of a Novel C-Type Lectin, Bombyx mori Multibinding Protein, from the B. mori Hemolymph: Mechanism of Wide-Range Microorganism Recognition and Role in Immunity

et al. 2006

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To investigate the system used by insects to recognize invading microorganisms, we examined proteins from the larval hemolymph of Bombyx mori that bind to the cell surface of microorganisms. Two hemolymph proteins that bound to the cell surfaces of Micrococcus luteus and Saccharomyces cerevisiae were shown to be identical. This protein bound to all 11 microorganisms examined–5 Gram-negative bacteria, 3 Gram-positive bacteria, and 3 yeasts–and was consequently designated B. mori multibinding protein (BmMBP). The sequence of the cDNA encoding BmMBP revealed that it was a C-type lectin with two dissimilar carbohydrate-recognition domains (CRD1 and CRD2) distantly related to known insect C-type lectins. CRD1 and CRD2 were prepared as recombinant proteins and their binding properties were investigated using inhibition assays. Each domain had wide, dissimilar binding spectra to sugars. These properties enable BmMBP to bind to two sites on a microorganism, facilitating high-affinity binding to many types of microorganisms. The dissociation constants of BmMBP with M. luteus cells and S. cerevisiae were 1.23 × 10−8 and 1.00 × 10−11 M, respectively. rBmMBP triggered the aggregation of hemocytes from B. mori larvae in vitro and microorganisms recognized by BmMBP were surrounded by aggregated hemocytes in vivo, forming a nodule, which is the typical cellular reaction in insect immune responses. These observations suggest that BmMBP functions as a trigger for the nodule reaction and that the multirecognition characteristic of BmMBP plays an important role in the early stages of infection by a variety of microorganisms.

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TDP-43 Dimerizes in Human Cells in Culture

et al. 2009

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TAR DNA-binding protein-43 (TDP-43) is a 43-kDa nuclear protein involved in regulation of gene expression. Abnormally, phosphorylated, ubiquitinated, and aggregated TDP-43 constitute a principal component of neuronal and glial cytoplasmic and nuclear inclusions in the brains of frontotemporal lobar degeneration with ubiquitin-positive inclusions (FTLD-U) and amyotrophic lateral sclerosis (ALS), although the molecular mechanism that triggers aggregate formation remains unknown. By Western blot analysis using anti-TDP-43 antibodies, we identified a band with an apparent molecular mass of 86-kDa in HEK293, HeLa, and SK-N-SH cells in culture. It was labeled with both N-terminal-specific and C-terminal-specific TDP-43 antibodies, enriched in the cytosolic fraction, and the expression levels were reduced by TDP-43 siRNA but unaltered by treatment with MG-132 or by expression of ubiqulin-1 or casein kinase-1. By immunoprecipitation analysis, we found the interaction between the endogenous full-length TDP-43 and the exogenous Flag-tagged TDP-43, and identified the N-terminal half of TDP-43 spanning amino acid residues 3-183 as an intermolecular interaction domain. When the tagged 86-kDa tandemly connected dimer of TDP-43 was overexpressed in HEK293, it was sequestered in the cytoplasm and promoted an accumulation of high-molecular-mass TDP-43-immunoreactive proteins. Furthermore, the 86-kDa band was identified in the immunoblot of human brain tissues, including those of ALS. These results suggest that the 86-kDa band represents dimerized TDP-43 expressed constitutively in normal cells under physiological conditions.

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Hiroko Tabunoki

Aberrant microRNA expression in the brains of neurodegenerative diseases: miR‐29a decreased in Alzheimer disease brains targets neurone navigator 3

Human astrocytes express aquaporin‐1 and aquaporin‐4 in vitro and in vivo

Isolation, Characterization, and cDNA Sequence of a Carotenoid Binding Protein from the Silk Gland of Bombyx mori Larvae

Characterization of a Novel C-Type Lectin, Bombyx mori Multibinding Protein, from the B. mori Hemolymph: Mechanism of Wide-Range Microorganism Recognition and Role in Immunity

TDP-43 Dimerizes in Human Cells in Culture

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