Hitoshi Onoue

Alterations in the expression of osteonectin, osteopontin and osteocalcin mRNAs during the development of skeletal tissues in vivo

Heterogeneity in the expression of three members of non-collagenous matrix proteins in osteogenic and chondrogenic development in vivo were investigated by in situ hybridization. Sections of several skeletal tissues from mice at various stages of development were hybridized with digoxigenin-labeled complementary RNA probes encoding osteonectin (Osn), osteopontin (Osp) and osteocalcin (Osc). In calvariae and mandibulae, Osn messenger RNA (mRNA) was detected in cells in pre-osseous and osseous tissues before mineralization. Osp mRNA was found in cells attached to the mineralized bone matrix together with Osn mRNA followed by the expression Osc mRNA. In long bones, mRNAs for Osn, Osp and Osc were sequentially expressed with bone development from primary spongiosa to diaphyseal bone. In growth cartilage, Osn mRNA was observed in chondrocytes in non-mineralized cartilage, whereas Osp mRNA was detected in hypertrophic chondrocytes in mineralized cartilage matrix with a characteristic switch in expression. Osc mRNA was not detected in any chondrocytes. These results indicate that osteogenic differentiation in bone development in vivo is characterized by the sequential expression of these three genes, and suggest that these genes are expressed differentially and specifically, in association with extra-cellular matrix mineralization.

Association of gankyrin protein expression with early clinical stages and insulin-like growth factor-binding protein 5 expression in human hepatocellular carcinoma†

Gankyrin (also known as PSMD10) is a liver oncoprotein that interacts with multiple proteins including MDM2 and accelerates degradation of the tumor suppressors p53 and Rb. We produced a monoclonal anti‐gankyrin antibody and immunohistochemically assessed the clinicopathological significance of gankyrin overexpression in 43 specimens of human hepatocellular carcinoma (HCC). Specific cytoplasmic staining for gankyrin was observed in 62.8% (27/43) of HCCs, which was significantly associated with low TNM stage (P = 0.004), no capsular invasion (P = 0.018), no portal venous invasion (P = 0.008), and no intrahepatic metastasis (P = 0.012). The cumulative survival rate of patients with gankyrin‐positive HCC was significantly higher than that with gankyrin‐negative HCC (P = 0.037). p53 and MDM2 were positively stained by antibodies in 30.2% and 23.3%, respectively, of HCCs, but neither was inversely associated with gankyrin expression. In the Huh‐7 human HCC cell line, overexpression of gankyrin up‐regulated expression of insulin‐like growth factor binding protein 5 (IGFBP‐5), whereas suppression of gankyrin expression by siRNA down‐regulated it. Supression of IGFBP‐5 expression inhibited proliferation of Huh‐7 cells as well as U‐2 OS osteosarcoma cells. In HCC specimens, positive staining for IGFBP‐5 was observed by immunohistochemistry in 41.9% (18/43), and the level of expression was significantly correlated with that of gankyrin (rho = 0.629, P < 0.001). Conclusion: These results suggest that gankyrin plays an oncogenic role(s) mainly at the early stages of human hepatocarcinogenesis, and that IGFBP‐5 inducible by gankyrin overexpression may be involved in it. (HEPATOLOGY 2008.)

Brain histaminergic system in mast cell-deficient (Ws/Ws) rats : histamine content, histidine decarboxylase activity, and effects of (S)α-fluoromethylhistidine

Abstract: The mast cell‐deficient [Ws/Ws (White spotting in the skin)] rat was investigated with regard to the origin of histamine in the brain. No mast cells were detected in the pia mater and the perivascular region of the thalamus of Ws/Ws rats by Alcian Blue staining. The histamine contents and histidine decarboxylase (HDC) activities of various brain regions of Ws/Ws rats were similar to those of +/+ rats except the histamine contents of the cerebral cortex and cerebellum. As the cerebral cortex and cerebellum have meninges that are difficult to remove completely, the histamine contents of these two regions may be different between Ws/Ws and +/+ rats. We assume that the histamine content of whole brain with meninges in Ws/Ws rats is <60% of that in +/+ rats. So we conclude that approximately half of the histamine content of rat brain is derived from mast cells. Next, the effects of (S)α‐fluoromethylhistidine (FMH), a specific inhibitor of HDC, on the histamine contents and HDC activities of various regions of the brain were examined in Ws/Ws rats. In the whole brain of Ws/Ws rats, 51 and 37% of the histamine content of the control group remained 2 and 6 h, respectively, after FMH administration (100 mg/kg of body weight). Therefore, we suggest that there might be other histamine pools including histaminergic neurons in rat brain.

Expression of neurotrophin genes in the brain of senescence-accelerated mouse (SAM) during postnatal development

We compared the expression patterns of neurotrophin genes in the brain of senescence-accelerated mouse (SAMP8) which shows age-related impairment of learning behavior, with SAMR1 control which shows normal aging. By Northern blot analysis, NT-3 mRNA levels in the cortex were higher in SAMP8 than in SAMR1 mice during development, whereas in the midbrain, hippocampus and forebrain, NT-3 expression levels in SAMP8 were lower than those in SAMR1. At early stages, although NGF mRNA levels in SAMP8 were lower than those in SAMR1, BDNF mRNA levels were almost equivalent in both strains. By in situ hybridization analysis, NT-3 mRNA signals in the CA1 and CA2 regions in SAMP8 were shown to be reduced at early stages. However, BDNF mRNA signals were almost equivalent in both SAMR1 and SAMP8.

Structural isoforms of the circadian neuropeptide PDF expressed in the optic lobes of the cricket Gryllus bimaculatus: Immunocytochemical evidence from specific monoclonal antibodies

Pigment‐dispersing factor (PDF) is an 18‐mer peptide that acts as a principal neurotransmitter of the insect circadian clock. Our previous study, utilizing anti‐Uca β‐PDH polyclonal antibody (pAb) to immunolabel the optic lobe of the cricket Gryllus bimaculatus, suggested the existence of an alternative PDF‐like peptide in the outer cells of the first neuropile, or lamina (La), which were much less immunoreactive than the inner cells of the second neuropile, the medulla (Me). To obtain structural information about such a PDF‐like peptide, we prepared 10 anti‐Gryllus PDF monoclonal (mAb) and pAb antibodies and analyzed their detailed epitope specificities. The PDFMe and PDFLa inner cells and their axonal projections were clearly immunoreactive to all these antibodies, revealing the widespread immunocytochemical organization of the PDF system in the optic lobe, as seen previously with anti‐Uca β‐PDH pAb and anti‐Gryllus PDF mAb, the epitope structures of which were also clarified in this study. The lamina outer cells, which we found lacked a target pdf mRNA, displayed specific immunoreactivities, indicating that the cells contain a distinct PDF‐like peptide possessing both N‐ and C‐terminal structures. These cells were not immunolabeled by some other monoclonal antibodies, however, implying that the PDFLa outer cells have a PDF isoform peptide devoid of Asn at positions 6 and 16. This isoform was also identified in a varicose arborization in the lamina. These results suggest not only the structure of the peptide, but also the possibility of additional functions of this novel PDF isoform. J. Comp. Neurol. 499:404–421, 2006.

Localization and developmental expression of a novel protein kinase C δ gene

The expression and localization of a novel protein kinase C delta (nPKC delta) mRNA were investigated using Northern blotting and in situ hybridization in the developmental process of mouse brain. In adult mice, nPKC delta was abundantly expressed in the thalamus, moderately in the pons and the cerebellum, but faintly in the cerebral cortex and the spinal cord. By in situ hybridization, the signals were observed specifically at the sensory and motor relay nuclei of the thalamus, the dorsal cochlear nuclei of the pons, and the molecular layer of the cerebellum. When developmental changes in the expression of nPKC delta gene were analyzed by in situ hybridization, it was not detectable in embryonic and neonatal brains, very weakly expressed in the thalamus in the first week, and highly expressed at two weeks of age. These results suggest that the gene expression of nPKC delta is strictly controlled by both the cell type and the developmental process.

Localization of ryanodine receptor 3 in the sinus endothelial cells of the rat spleen.

The ultrastructural localization of ryanodine receptors (RyR) in sinus endothelial cells of the rat spleen was examined by confocal laser scanning and electron microscopy by using isoform-specific antibodies to each of the RyR isoforms. Immunofluorescence microscopy of tissue cryosections revealed RyR3 to be localized, with a strand-like form, in the superficial layer and within the cytoplasm of endothelial cells. Antibodies to RyR1 and RyR2 did not react indicating RyR3 was the predominant isoform. RyR3 was observed over the cortical layer of actin filaments in the apical part and beneath stress fibers in the basal part of the endothelial cells. The distribution of Ca2+-storing tubulovesicular-structures within endothelial cells was established by tissue sections treated with osmium ferricyanide selectively to stain the sarcoplasmic reticulum and transverse tubules in muscle cells; electron microscopy revealed densely stained tubulovesicular structures located throughout the sinus endothelial cells and interconnected at various sites. These structures closely apposed the plasma membrane at the apical, lateral, and basal surfaces of the cells and occasionally ran closely parallel to the plasma membrane and near to the mitochondria. Immunogold electron microscopy revealed RyR in the membranes of the nucleus, tubulovesicular structures, and subplasmalemmal cisternae. In the subplasmalemmal cisternae at the apical, lateral, and basal surfaces, RyR was detected on the membranes near to the plasma membrane. Labeling was also present on the membranes of tubulovesicular structures near to caveolae and on the cristae of the mitochondria. Thus, RyR probably participates in Ca2+ signal transduction and/or mechanosignal transduction in sinus endothelial cells.

Molecular cloning and circadian expression profile of insect neuropeptide PDF in black blowfly, Phormia regina

Pigment-dispersing factor PDF is an 18-amino acid insect neuropeptide that mediates a circadian rhythmicity in locomotor activity. PDF is coded in a precursor protein together with another neuropeptide named PDF-associated peptide, PAP. PDF is highly conserved among insects, whereas the homology of PAPs is very low with considerably varied amino acid sequences. Since such dissimilarity has suggested that the function of PAP peptide is not associated with that of PDF, we have attempted to analyze the sequences of PDF precursor proteins among a series of species of insects and hypothesized that PDF precursors are classified into at least three different classes:Drosophila-Musca, Meimuna-Romalea, andGryllus. In order to exemplify this hypothesis, we here describe the molecular cloning of thepdf-gene of the black blowflyPhormia regina and anin silico screening for thepdf-gene in the genome databank of the mosquitoAnopheles gambie, both species belonging to the Diptera. It was found that deduced amino acid sequences of PDF peptides are almost completely conserved among all Dipterans and also the amino acid sequences of PAPs are considerably highly preserved (55–82% similarity) among the species of Diptera. The results confirmed the validity of grouping the PDF precursor proteins.In situ hybridization was carried out in fly brains to identify the precise locations ofpdf-expressing cells and to examine any daily cycling ofpdf mRNA. Intense signals forpdf mRNA were identified in the medulla, but not in the pars lateralis where PDF neurons were strongly immunostained by the antibody raised against PDF peptide. Hybridization was also performed for the brain samples at two hour intervals throughout the day. Although very intense hybridization signals were observed at ZT8 even in some neurites, no prominent rhythmicity ofpdf mRNA expression was observed.

Growth competition between W mutant and wild-type cells in mouse aggregation chimeras

The dominant spotting (W) locus of the mouse has been demonstrated to be identical with the c‐kit proto‐oncogene. The c‐kit is strongly expressed in hematopoietic organs and the brain of mice. In homozygotes and double heterozygotes of the W mutant alleles (hereafter W mutant), development of erythrocytes, mast cells, melanocytes and germ cells is deficient. The deficiency of erythrocytes, mast cells and melanocytes is attributed to a defect of precursor cells, but the cause of the germ cell deficiency is not clear. We investigated the effect of the W mutation on proliferative potential of cells composing various organs by examining aggregation chimeras between W mutant and wild‐type (+/+) embryos. Proportions of +/+ components were significantly greater in the male germ cells and hematopoietic cells. In contrast, the average proportions of +/+ components were comparable to those of W mutant components in other organs including the brain. The present result suggests that the W (c‐kit) gene plays an important role in development of the male germ cells and hematopoietic cells and that it does not promote the proliferation of major cell population in the brain, in spite of the strong expression of the W (c‐kit) gene in the brain.

Identification of the cell type origin of odontoma‐like cell masses in microphthalmic (mi/mi) mice by in situ hybridization

Tooth abnormalities occur in microphthalmic (mi/mi) mice. The elongated odontogenlc epithelium is interrupted by un‐resorbed bone at the basal end of the mi/mi Incisor, with the epithelium gathered into cell clusters. These clusters develop to odontoma‐like masses. To identify the origin of the cell types of these odontoma‐like masses, the localization of osteonectin (Osn), osteocalcin (Osc), osteopontin (Osp), matrix Gla protein (MGP) and amelogenin (Am) mRNA in the process of tooth development in mi/mi and +/+ mice was investigated by means of in situ hybridization. Decalcified mandibles of neonatal, 5‐, 10‐, 14‐day‐old mice were examined. Osn and Osc mRNA, which localized in osteoblasts and odontoblasts, were also detected in the cells of odontoma‐like masses in mi/mi mice. The cells expressing these mRNA were short, columnar and odontoblast‐like. Am mRNA was detected In ameloblasts. In mi/mi mice, Am mRNA was also detected in ameloblastic cell clusters, which were formed by the tall columnar cells in the odontoma‐like masses. No apparent Osp mRNA expression was detected in the masses. These results indicated that even In odontogenlc abnormal cells resulting from physical obstruction in mi/mi mice, the genes that are involved in normal tooth development were still expressed.