Go Kawaguchi scite author profile

Go Kawaguchi

4Publications

46Citation Statements Received

144Citation Statements Given

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132

Affiliations

Kitasato University, The University of Tokyo, Tokyo University of Science

Publications

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Identification of Novel d-Aspartate Oxidase Inhibitors by in Silico Screening and Their Functional and Structural Characterization in Vitro

et al. 2015

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D-Aspartate oxidase (DDO) is a degradative enzyme that is stereospecific for acidic D-amino acids, including D-aspartate, a potential agonist of the N-methyl-D-aspartate (NMDA) receptor. Dysfunction of NMDA receptor-mediated neurotransmission has been implicated in the onset of various mental disorders, such as schizophrenia. Hence, a DDO inhibitor that increases the brain levels of D-aspartate and thereby activates NMDA receptor function is expected to be a useful compound. To search for potent DDO inhibitor(s), a large number of compounds were screened in silico, and several compounds were identified as candidates. They were then characterized and evaluated as novel DDO inhibitors in vitro (e.g., the inhibitor constant value of 5-aminonicotinic acid for human DDO was 3.80 μM). The present results indicate that some of these compounds may serve as lead compounds for the development of a clinically useful DDO inhibitor and as active site probes to elucidate the structure-function relationships of DDO.

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The role of the conserved residue in pocket A and the polymorphic residue in pocket E of HLA-B^*3501 in presentation of human minor histocompatibility peptides to T cells

et al. 1994

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We investigated T cell recognition for human minor histocompatibility (hmH) peptides using HLA-B*3501 restricted, hmH specific cytotoxic T lymphocytes (CTL) clones. These CTL clones killed C1R cells expressing HLA-B*3501 but not C1R cells expressing chimeric antigens between HLA-B*3501 and HLA-B*5101. They also failed to kill C1R cells expressing HLA-B*3501 mutants at residue 152 (B*3501-V152E) or at residue 171 (B*3501-Y171H). The CTL clone failed to kill C1R cells expressing these mutant molecules loaded with the hmH peptides isolated from C1R-B*3501 cells although it killed a self-B cell line expressing HLA-B3501 loaded with the specific hmH peptides. The CTL clone also failed to kill T2 cells expressing the mutant molecules loaded with the specific peptides whereas it killed T2 cells expressing HLA-B*3501 loaded with the specific peptide. On the other hand, naturally occurring specific hmH peptides were isolated from purified B*3501-V152E and B*3501-Y171H molecules, indicating that both HLA-B*3501-V152E and HLA-B*3501-Y171H molecules can bind the hmH peptides. These findings indicate that both the conserved residue 171 in pocket A and the polymorphic residue 152 in pocket E are critical in recognition of the T cells but not binding of the hmH peptides. Furthermore, these results provide the possibility that the TCR recognizes a conformational structure of hmH peptides bound to HLA-B*3501 molecules.

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Two subtypes of HLA-B51 differing by substitution at position 171 of the ?2 helix

Kawaguchi

Hildebrand

Hiraiwa³

et al. 1992

Immunogenetics

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Newly defined antigens of the B5, B35 cross-reacting group have been found in Japanese and North American Indians. Nucleotide sequencing of the alleles encoding the Japanese B5.35 antigen and the variant B5 antigen from the Piman Indians show them to be identical. This new allele, B*5102, differs from B*5101 by a single nucleotide substitution that changes residue 171 from histidine to tyrosine. Residue 171, which is part of the alpha 2 helix, is believed to contribute directly to peptide interaction in the A pocket of the binding groove and is either histidine or tyrosine in all HLA-A, B, C heavy chains. Tyrosine 171 is shared by B*5102, B*3501, B*3502, and B*5301 and must be responsible for the serological cross-reactivities of these molecules not shared with B*5101. Stimulation of lymphocytes from a B*5101 positive donor with B*5102 positive cells failed to generate cytotoxic T cells with specificity for the difference between these molecules. However, one out of five clones of cytotoxic T cells raised against B*5101 failed to lyse targets expressing B*5102. Substitution of histidine for tyrosine at residue 171 affected recognition of HLA-B35-restricted human minor histocompatibility antigen-specific T cell clones.

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Structural analysis of HLA-B40 epitopes

et al. 1993

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Go Kawaguchi

Identification of Novel d-Aspartate Oxidase Inhibitors by in Silico Screening and Their Functional and Structural Characterization in Vitro

The role of the conserved residue in pocket A and the polymorphic residue in pocket E of HLA-B^*3501 in presentation of human minor histocompatibility peptides to T cells

Two subtypes of HLA-B51 differing by substitution at position 171 of the ?2 helix

Structural analysis of HLA-B40 epitopes

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About

Go Kawaguchi

Identification of Novel d-Aspartate Oxidase Inhibitors by in Silico Screening and Their Functional and Structural Characterization in Vitro

The role of the conserved residue in pocket A and the polymorphic residue in pocket E of HLA-B*3501 in presentation of human minor histocompatibility peptides to T cells

Two subtypes of HLA-B51 differing by substitution at position 171 of the ?2 helix

Structural analysis of HLA-B40 epitopes

Contact Info

Product

Resources

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The role of the conserved residue in pocket A and the polymorphic residue in pocket E of HLA-B^*3501 in presentation of human minor histocompatibility peptides to T cells