Publications by authors named "Kazuto Ohashi"

Article Synopsis
  • * Researchers determined the crystal structure of ATG3 conjugated to GABARAP, revealing a unique open configuration with non-covalent interactions that contribute to a helical filament formation, differing from typical ubiquitin conjugates.
  • * The study emphasizes the importance of the E2 backside interaction for lipidation, suggesting that ATG3 has evolved distinct features that support its function in the lipidation process.
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Article Synopsis
  • The endosomal-lysosomal system is essential for breaking down extracellular substances, and its malfunction is associated with diseases like cardiovascular and neurodegenerative disorders.
  • While the process involves steps like uptake, transportation to lysosomes, and digestion, the exact regulation of cargo transport is not well understood.
  • A study found that the flavonoid isorhamnetin boosts this degradation process independently of known signals, revealing the role of the transcription factor GATA3 and the mTORC2-GATA3 axis, which could serve as a new target for improving the removal of abnormal substances.
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Tryptophan (Trp) is a proteinogenic aromatic amino acid; however, high levels of Trp are toxic in animals and yeast with unknown mechanisms. Previously, we suggested that aromatic aminotransferase Aro9 is important for excess Trp degradation. Besides, Schroeder and Ikui showed that aro9Δ is sensitive to membrane stress by sodium dodecyl sulfate.

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Liquid chromatography-mass spectrometry (LC-MS) based nontargeted metabolomics has been applied to a wide range of biological samples and can provide information on thousands of compounds. However, reliable identification of the compounds remains a challenge affecting result interpretation. In this protocol, we describe comparable yeast cell and whole blood metabolome sample preparation for extracting similar compound groups, and we present a LC-MS method using the all ion fragmentation (AIF) approach for the purposes of increasing accuracy in metabolite annotation.

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Members of the autophagy-related protein 8 (Atg8) family of ubiquitin-like proteins (ublps), including mammalian LC3 and GABARAP proteins, play crucial roles in autophagosome biogenesis, as well as selective autophagy. Upon induction of autophagy, the autophagic ublps are covalently attached to a phosphatidylethanolamine (PE) molecule of the autophagosomal membrane. This unique lipid conjugation of the autophagic ublps, which is essential for their functions, occurs in a ubiquitination-like reaction cascade consisting of the E1 enzyme ATG7, the E2 ATG3, and the E3 ATG12~ATG5-ATG16L1 complex (~denotes a covalent linkage).

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Autophagy is an enigmatic cellular process in which double-membrane compartments, called "autophagosomes, form de novo adjacent to the endoplasmic reticulum (ER) and package cytoplasmic contents for delivery to lysosomes. Expansion of the precursor membrane phagophore requires autophagy-related 2 (ATG2), which localizes to the PI3P-enriched ER-phagophore junction. We combined single-particle electron microscopy, chemical cross-linking coupled with mass spectrometry, and biochemical analyses to characterize human ATG2A in complex with the PI3P effector WIPI4.

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Kynurenic acid (KA) is a tryptophan (Trp) metabolite that is synthesised in a branch of kynurenine (KYN) pathway. KYN aminotransferase (KAT) catalyses deamination of KYN, yielding KA. Although KA synthesis is evolutionarily conserved from bacteria to humans, the cellular benefits of synthesising KA are unclear.

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Transfer of GABARAP thioester from the E1 ATG7 to the E2 ATG3 requires the interaction between the N-terminal domain of ATG7 and the flexible region (FR) of ATG3. This interaction has been visualized in the yeast Atg7-Atg3 complex crystal structure, but remains to be defined in higher eukaryotes. Here, our NMR data precisely define the region of the FR of human ATG3 that interacts with ATG7 (RIA7) and demonstrate RIA7 partially overlaps with the E3-interacting region, explaining how the E1-E2 and E2-E3 interactions are mutually exclusive.

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The members of the LC3/Atg8 family of proteins are covalently attached to phagophore and autophagosomal membranes. At the last step of the LC3 lipidation cascade, LC3 is transferred from the E2 enzyme ATG3 to phosphatidylethanolamine (PE). This transfer is stimulated by the ATG12-ATG5-ATG16L1 E3 complex, but the mechanism is not fully understood.

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Marine brown macroalgae is a promising source of material for biorefining, and alginate is one of the major components of brown algae. Despite the huge potential availability of alginate, no system has been reported for the production of valuable compounds other than ethanol from alginate, hindering its further utilization. Here we report that a bacterium, Sphingomonas sp.

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NAD(+) is synthesized from tryptophan either via the kynurenine (de novo) pathway or via the salvage pathway by reutilizing intermediates such as nicotinic acid or nicotinamide ribose. Quinolinic acid is an intermediate in the kynurenine pathway. We have discovered that the budding yeast Saccharomyces cerevisiae secretes quinolinic acid into the medium and also utilizes extracellular quinolinic acid as a novel NAD(+) precursor.

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NAD kinase is the sole NADP(+) biosynthetic enzyme. Despite the great significance of NADP(+), to date no mitochondrial NAD kinase has been identified in human, and the source of human mitochondrial NADP(+) remains elusive. Here we present evidence demonstrating that a human protein of unknown function, C5orf33, is a human mitochondrial NAD kinase; this protein likely represents the missing source of human mitochondrial NADP(+).

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NAD kinase catalyzes the phosphorylation of NAD(+) to synthesize NADP(+), whereas NADH kinase catalyzes conversion of NADH to NADPH. The mitochondrial protein Pos5 of Saccharomyces cerevisiae shows much higher NADH kinase than NAD kinase activity and is therefore referred to as NADH kinase. To clarify the structural determinant underlying the high NADH kinase activity of Pos5 and its selectivity for NADH over NAD(+), we determined the tertiary structure of Pos5 complexed with NADH at a resolution of 2.

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Background: Although bradykinin is a potent algogenic peptide, the roles of this peptide and kinin receptors in cancer pain are unclear.

Aims: The present study was conducted to clarify whether kinin B(1) and B(2) receptors would be involved in pain using a mouse model of skin cancer pain.

Methods: B16-BL6 melanoma cells were inoculated into the hind paw of C57BL/6 mice.

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