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ABSTRACT: Neurocan is one of the major chondroitin sulfate proteoglycans expressed in nervous tissues. The expression of neurocan is developmentally regulated, and full-length neurocan is detected in juvenile brains but not in adult brains. In the present study, we demonstrated by western blot analysis that full-length neurocan transiently appeared in adult rat hippocampus when it was lesioned by kainate-induced seizures. Immunohistochemical studies showed that neurocan was detected mainly around the CA1 region although the seizure resulted in neuronal cell degeneration in both the CA1 and CA3 regions of the hippocampus. Double-labeling for neurocan mRNA and glial fibrillary acidic protein demonstrated that many reactive astrocytes expressed neurocan mRNA. The re-expression of full-length neurocan was also observed in the surgically injured adult rat brain. In contrast, the expression of other nervous tissue chondroitin sulfate proteoglycans, such as phosphacan and neuroglycan C, was not intensified but rather was either reduced in the kainate-lesioned hippocampus or in the surgically injured cerebral cortex. These observations indicate that induction of neurocan expression by reactive astrocytes is a common phenomenon in the repair process of adult brain injury, and therefore, it can be postulated that juvenile-type neurocan plays some roles in brain repair.
Neuroscience 02/2002; 112(4):773-81. · 3.38 Impact Factor
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ABSTRACT: In this report, we investigated whether reactive astrocytes produce neuregulins (glial growth factor 2/heregulin/acetylcholine receptor-inducing activity or neu differentiation factor) and its putative receptors, ErbB2 and ErbB3 tyrosine kinases, in the injured CNS in vivo. Significant immunoreactivities with anti-neuregulin, anti-ErbB2, and anti-ErbB3 antibodies were detected on astrocytes at the injured site 4 d after injury to the adult rat cerebral cortex. To elucidate the mechanisms for the upregulation of neuregulin expression in astrocytes, primary cultured astrocytes were treated with certain reagents, including forskolin, that are known to elevate the intracellular level of cAMP and induce marked morphological changes in astrocytes. Western blot analysis showed that the expression of a 52 kDa membrane-spanning form of a neuregulin protein was enhanced in cultured astrocytes after administration of forskolin. The upregulation of glial fibrillary acidic protein was also observed in astrocytes treated with forskolin. In contrast, inactivation of protein kinase C because of chronic treatment with phorbol ester 12-O-tetradecanoyl phorbol 13-acetate downregulated the expression of the 52 kDa isoform, although other splice variants with apparent molecular sizes of 65 and 60 kDa were upregulated. These results suggest that the enhancement of neuregulin expression at injured sites is induced, at least in part, by elevation in intracellular cAMP levels and/or a protein kinase C signaling pathway. The neuregulin expressed on reactive astrocytes may stimulate their proliferation and support the survival of neurons surrounding cortical brain wounds in vivo.
Journal of Neuroscience 03/2001; 21(4):1257-64. · 7.11 Impact Factor
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ABSTRACT: Aggrecan family proteoglycans, phosphacan/RPTPzeta/beta, and neuroglycan C (NGC) are the major classes of chondroitin sulfate proteoglycan in the developing mammalian brain. A multidomain is a common structural feature of these proteoglycans which can interact with various molecules including growth factors, cell adhesion molecules, and extracellular matrix molecules. Individual proteoglycans are distributed in the developing brain in a distinct temporal and spatial pattern, suggesting that they are involved in distinct phases of the brain development through multiple molecular interactions. This review mainly summarizes recent studies on the involvement of these three classes of proteoglycan in cell-cell and cell-substratum interactions during the brain development. Their expressions and proposed functional roles in injured brains are also mentioned. In addition, this review briefly covers potential functions of other neural chondroitin sulfate proteoglycans such as decorin, testican, NG2 proteoglycan, and amyloid precursor protein (APP) in developing and injured brains.
Archives of Biochemistry and Biophysics 03/2000; 374(1):24-34. · 2.93 Impact Factor
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ABSTRACT: Neuroglycan C (NGC) is a membrane-spanning chondroitin sulfate proteoglycan with an epidermal growth factor module that is expressed predominantly in the brain. Cloning studies with mouse NGC cDNA revealed the expression of three distinct isoforms (NGC-I, -II, and -III) in the brain and revealed that the major isoform showed 94. 3% homology with the rat counterpart. The NGC gene comprised six exons, was approximately 17 kilobases in size, and was assigned to mouse chromosome band 9F1 by fluorescence in situ hybridization. Western blot analysis demonstrated that, although NGC in the immature cerebellum existed in a proteoglycan form, most NGC in the mature cerebellum did not bear chondroitin sulfate chain(s), indicating that NGC is a typical part-time proteoglycan. Immunohistochemical studies showed that only the Purkinje cells were immunopositive in the cerebellum. In the immature Purkinje cells, NGC, probably the proteoglycan form, was immunolocalized to the soma and thick dendrites on which the climbing fibers formed synapses, not to the thin branches on which the parallel fibers formed synapses. This finding suggests the involvement of NGC in the differential adhesion and synaptogenesis of the climbing and parallel fibers with the Purkinje cell dendrites.
Journal of Biological Chemistry 01/2000; 275(1):337-42. · 4.77 Impact Factor
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T Ono,
S Hirano,
S Yonezawa, S Aono,
M Osaki,
S Masaki,
S Yamashita,
T Tsukasaki,
A Oohira,
S T Suzuki,
S Sonta
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ABSTRACT: By fluorescence in situ hybridization (FISH) using mouse probes, we assigned homologues for cathepsin E (Ctse), protocadherin 10 (Pcdh10, alias OL-protocadherin, Ol-pc), protocadherin 13 (Pcdh13, alias protocadherin 2c, Pcdh2c), neuroglycan C (Cspg5) and myosin X (Myo10) genes to rat chromosomes (RNO) 13q13, 2q24-->q25, 18p12-->p11, 8q32.1 and 2q22.1-->q22.3, respectively. Similarly, homologues for mouse Ctse, Pcdh13, Cspg5 and Myo10 genes and homologues for rat Smad2 (Madh2) and Smad4 (Madh4) genes were assigned to Chinese hamster chromosomes (CGR) 5q28, 2q17, 4q26, 2p29-->p27, 2q112-->q113 and 2q112-->q113, respectively. The chromosome assignments of homologues of Ctse and Cspg5 reinforced well-known homologous relationships among mouse chromosome (MMU) 1, RNO 13 and CGR 5q, and among MMU 9, RNO 8 and CGR 4q, respectively. The chromosome locations of homologues for Madh2, Madh4 and Pcdh13 genes suggested that inversion events were involved in chromosomal rearrangements in the differentiation of MMU 18 and RNO 18, whereas most of MMU 18 is conserved as a continuous segment in CGR 2q. Furthermore, the mapping result of Myo10 and homologues suggested an orthologous segment of MMU 15, RNO 2 and CGR 2.
Cytogenetics and cell genetics 01/2000; 89(3-4):209-13.
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ABSTRACT: Neuroglycan C (NGC) is a 150 kDa transmembrane chondroitin sulfate proteoglycan with a 120 kDa core glycoprotein that was originally isolated from the developing rat brain. A rabbit antiserum, raised against a recombinant polypeptide representing a protein of the rat NGC core protein, recognized an NGC homolog in homogenates of brains of various vertebrates including humans. Because of the possible involvement of this proteoglycan in the etiology of a human neuronal disease, we cloned a complete coding sequence from a human brain cDNA library using a rat NGC cDNA as a probe. The predicted protein contains 539 amino acids and shows 86% homology with the rat counterpart. The domain structure characteristic of rat NGC was completely conserved in human NGC, which consisted of an N-terminal signal sequence, a chondroitin sulfate-attachment domain, an acidic amino acid cluster, an EGF-like domain, a transmembrane domain and a cytoplasmic tail. Northern blot analysis revealed that a single transcript of 2.4 kb was detectable in the brain, but not in other human tissues. By fluorescence in situ hybridization (FISH) analysis, the human NGC gene was assigned to the chromosomal 3p21.3 band, where the Sotos syndrome has been mapped. Involvement of the NGC gene in the etiology of the Sotos syndrome remains to be examined.
Neuroscience Research 01/1999; 32(4):313-22. · 2.25 Impact Factor
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ABSTRACT: Neurocan is a nervous tissue-unique chondroitin sulfate proteoglycan (CSPG) whose expression and proteolytic cleavage are developmentally regulated. In the adult rat brain, neurocan is completely cleaved into some proteoglycan fragments including the C-terminal half known as neurocan-C and a N-terminal fragment with a 130 kDa core glycoprotein (neurocan-130). We describe here the differential distribution of these two neurocan-derived CSPGs in the adult rat cerebrum and the occurrence of neurocan-130 as a new member of a perineuronal net-constituting molecule. At the light microscopic level, neurocan-130 exhibited pericellular localization around a subset of neurons in addition to diffuse distribution in the neuropil. In contrast, neurocan-C was distributed only diffusely in the neuropil. Double staining with anti-neurocan-130 and anti-synaptophysin antibodies suggested that neurocan-130 was localized in the vicinity of the synapses, but not at the synapses. Immunoelectron microscopy showed that neurocan-130 was mainly localized in the cytoplasm of glial cell processes, the so-called glial perineuronal net, encompassing the cell bodies of certain neurons. The presence of neurocan-130 in a limited number of glial cells may reflect some functional heterogeneity of the glia.
Brain Research 05/1998; 790(1-2):45-51. · 2.73 Impact Factor
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ABSTRACT: Crigler-Najjar syndrome type II (CN-II) is caused by a severely reduced hepatic activity of bilirubin UDP-glucuronosyltransferase (UGT). Recently, by the analysis of the genetic background of CN-II patients, it has been clarified that the patients carry homozygous missense mutations or nonsense plus missense mutations on the gene for UGT, and CN-II was inherited as an autosomal recessive trait. We encountered a new case which had a nonsense mutation caused by a single nucleotide substitution on one allele. This indicates that CN-II is also inherited as a dominant trait as well as a recessive trait. Expression study in vitro strongly suggests that the disease in this case is caused by a dominant negative mutation by forming a heterologous subunit structure.
Human Molecular Genetics 06/1996; 5(5):645-7. · 7.64 Impact Factor
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The Lancet 01/1996; 346(8988):1494. · 38.28 Impact Factor
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The Japanese journal of human genetics 10/1995; 40(3):253-7.
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ABSTRACT: Gilbert's syndrome, which is characterized by chronic, non-hemolytic unconjugated hyperbilirubinemia, is caused by a reduction in the activity of hepatic bilirubin UDP-glucuronosyltransferase (UGT). Here, we report that all examined patients with this disease carried missense mutations in the gene for UGT and that the mutations were heterozygous. An expression study in COS cells in vitro, using the expression vector pcDL that carried the mutated gene for UGT from a patient, indicated that approximately 14% of the normal UGT activity was expressed. However, the UGT activity of the patient with Gilbert's syndrome was unexpectedly < 50% of the normal, perhaps as the result of the dominant negative nature of the mutation.
Human Molecular Genetics 08/1995; 4(7):1183-6. · 7.64 Impact Factor
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ABSTRACT: Gilbert's and Crigler-Najjar syndromes are characterised by unconjugated hyperbilirubinaemia due to complete and partial absence of bilirubin UDP-glucuronosyltransferase (UGT). Nucleotide sequences of the genes for bilirubin UGT were analysed in six patients with Gilbert's syndrome. All patients had a missense mutation caused by a single nucleotide substitution and the mutations were heterozygous. In addition, relatives of patients with Crigler-Najjar syndrome types I and II, and of those with Gilbert's syndrome were analysed. All ten relatives with mild hyperbilirubinaemia were heterozygotes with respect to each defective allele. These results suggest that Gilbert's syndrome is inherited as a dominant trait.
The Lancet 05/1995; 345(8955):958-9. · 38.28 Impact Factor
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ABSTRACT: Neurocan is a developmentally regulated chondroitin sulphate proteoglycan in the rat brain. In the present study, spatiotemporal patterns of expression of neurocan and the corresponding mRNA were examined in the developing cortical barrel field of the rat brain by using a monoclonal antibody that was highly specific to neurocan and a riboprobe for a portion of the mRNA. Immunohistochemical analysis revealed that neurocan was distributed throughout the cerebral cortex during early postnatal development but was excluded from the centres of cortical barrels at the time of entry and arborization of thalamocortical axons. At this developmental stage, expression of neurocan mRNA was shown by in situ hybridization to be down-regulated in the barrel centres. When a row of whisker follicles was laser-cauterized on postnatal day 1, the pattern of expression of neurocan was disturbed in the row of barrels that corresponded to the lesioned whisker follicles in the contralateral somatosensory cortex. From these observations, it appears that neuronal stimuli through early thalamocortical fibres from the sensory periphery cause reduced expression of neurocan mRNA in neurocan-producing cells in the presumptive barrel centres. Our findings also suggest that the pattern of distribution of neurocan in early postnatal barrel fields may be due mainly to the down-regulation of expression of neurocan mRNA.
European Journal of Neuroscience 05/1995; 7(4):547-54. · 3.63 Impact Factor
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ABSTRACT: Crigler-Najjar syndrome (CN) type I, which is characterized by the complete absence of bilirubin uridine 5'-diphosphate-glucuronosyltransferase (UGT) activity, is inherited as an autosomal recessive trait associated with unconjugated hyperbilirubinemia. Phenobarbital has no effect on the bilirubin concentration in the serum of patients with CN type I. Recently, cDNA for two human liver bilirubin UGT (UGT1A and UGT1D) were isolated, and their genetic organization was determined. The UGT1A (UGT1*1) and UGT1D (UGT1*4) genes each have a unique exon 1, whereas exons 2-5 are common to both genes. It has been predicted that some defect in the exons common to both genes is responsible for the absence of UGT1A and UGT1D activities in CN type I, and five cases with such a mutation have been reported. We describe here a new type of defect in the gene for bilirubin UGT in a patient with CN type I, namely, an abnormality in the exon 1 that is characteristic of the UGT1A gene. This mutation is a single nucleotide substitution, that is, C is changed to A at base position 840 in UGT1A cDNA, and this change results in a stop codon. Our patient is homozygous for the defect, and his nonconsanguineous parents and elder brother, who are clinically normal, are heterozygous for the defective allele. No mutation was detected in any exons of the UGT1D gene. Our results suggest that a homozygous nonsense or deletion mutation is detected not only in the exons common to UGT1A and UGT1D genes but also in unique exon 1 of UGT1A in CN type I.
Pediatric Research 07/1994; 35(6):629-32. · 2.70 Impact Factor
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ABSTRACT: Crigler-Najjar syndrome (CN) type II is characterized by severe chronic nonhemolytic unconjugated hyperbilirubinemia due to reduced hepatic bilirubin UDP-glucuronosyl-transferase (UGT) activity. Two bilirubin UGT isozymes, UGT1A and UGT1D, have been identified. We analyzed the DNA sequence of the bilirubin UGT genes in a 5-year-old Japanese male patient with CN type II, who had consanguineous parents. Point mutations were found on exons 1 of the UGT1A and UGT1D genes. The abnormalities were single nucleotide substitutions of G by A and of T by C at base position 211 of UGT1A cDNA and at base position 395 of the UGT1D, respectively. We found another single nucleotide substitution of T by G on exon 5 common to both genes at base position 1456 of the UGT1A cDNA or 1459 of the UGT1D cDNA. These three mutations result in changes of glycine to arginine and of tyrosine to aspartic acid at amino acid positions 71 and 486 of the UGT1A protein, and of leucine to proline and of tyrosine to aspartic acid at amino acid positions 132 and 487 of the UGT1D protein, respectively. Our patient was homozygous for all defects and his parents and elder brother were heterozygous for all defective alleles. The findings suggest that the CN Type II is inherited as an autosomal recessive trait.
Biochemical and Biophysical Research Communications 01/1994; 197(3):1239-44. · 2.48 Impact Factor
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ABSTRACT: The hyperbilirubinemic Gunn rat lacks hepatic UDP-glucuronosyltransferase (UDPGT) activity toward bilirubin and has been used as an animal model for human Crigler-Najjar syndrome type I. Rat liver bilirubin UDPGT cDNA was isolated. The cDNA shared an identical 913-bp sequence (corresponding to the C-terminal 247 amino acid residues) with that for phenol UDPGT whose activity was also deficient in the Gunn rat. The bilirubin UDPGT gene was mapped at the position of 37 on mouse chromosome 1 by analyzing restriction endonuclease fragment length variations using the rat bilirubin UDPGT cDNA as a probe. The genetic defect of bilirubin UDPGT in the mutant rat was proved to be a -1 frameshift mutation. The mutation was found not only to be located in the region where the cDNA for bilirubin UDPGT shared the identical sequence with that for phenol UDPGT but also to occur in the same position in the two cDNAs from the mutant.
Nippon rinsho. Japanese journal of clinical medicine 03/1993; 51(2):501-6.
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ABSTRACT: In Japan, hyperargininemia has been reported in only 5 unrelated families and four patients are alive at present. In this study we examined arginase protein in erythrocytes of these Japanese patients using two analytical methods of immunoblotting and two-dimensional gel electrophoresis. Immunoblotting study with anti-E. coli-expressed human liver arginase rabbit IgG revealed lack of cross-reacting materials in the erythrocyte lysates from these patients. On two-dimensional gels, arginase protein was detected in any control subject, but it was completely absent in all the patients studied. These results suggest that either arginase protein in erythrocytes is not produced or it is structurally labile in these patients.
European Journal of Pediatrics 10/1991; 150(11):800-3. · 1.88 Impact Factor
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ABSTRACT: The genetic defect of bilirubin UDP-glucuronosyltransferase (UDPGT) in the hyperbilirubinemic Gunn rat was proved to be a -1 frameshift mutation. The mutation was found not only to be located in the region where bilirubin UDPGT cDNA shared an identical sequence with 3-methylcholanthrene (3M C)-inducible UDPGT cDNA but also to occur in the same position on the two cDNAs from the mutant rat. At the 5' end of the identical region there was a consensus sequence for splicing, of which position coincided with the boundary between the 2nd and 3rd exon of the testosterone UDPGT gene. These results strongly suggest that mRNAs for bilirubin and 3M C-inducible UDPGTs are produced from a single primary-transcript after an alternative splicing and the defects of bilirubin and 3M C-inducible UDPGTs in the mutant rat are caused by a point mutation on a common exon.
Biochemical and Biophysical Research Communications 07/1991; 177(3):1161-4. · 2.48 Impact Factor
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Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme 06/1990; 35(7 Suppl):1227-35.
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Yakubutsu, seishin, kōdō = Japanese journal of psychopharmacology 01/1990; 9(4):381-8.
