Takeo Usui scite author profile

The progressive myoclonus epilepsy of Lafora type is an autosomal recessive disorder caused by mutations in the EPM2A gene. EPM2A is predicted to encode a putative tyrosine phosphatase protein, named laforin, whose full sequence has not yet been reported. In order to understand the function of the EPM2A gene, we isolated a full-length cDNA, raised an antibody and characterized its protein product. The full-length clone predicts a 38 kDa laforin that was very close to the size detected in transfected cells. Recombinant laforin was able to hydrolyze phosphotyrosine as well as phosphoserine/threonine substrates, demonstrating that laforin is an active dual-specificity phosphatase. Biochemical, immunofluorescence and electron microscopic studies on the full-length laforin expressed in HeLa cells revealed that laforin is a cytoplasmic protein associated with polyribosomes, possibly through a conformation-dependent protein-protein interaction. We analyzed the intracellular targeting of two laforin mutants with missense mutations. Expression of both mutants resulted in ubiquitin-positive perinuclear aggregates suggesting that they were misfolded proteins targeted for degradation. Our results suggest that laforin is involved in translational regulation and that protein misfolding may be one of the molecular bases of the Lafora disease phenotype caused by missense mutations in the EPM2A gene.

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Tryprostatin A, a specific and novel inhibitor of microtubule assembly

Usui

Kondoh

Cui³

et al. 1998

214

111

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We have investigated the cell cycle inhibition mechanism and primary target of tryprostatin A (TPS-A) purified from Aspergillus fumigatus. TPS-A inhibited cell cycle progression of asynchronously cultured 3Y1 cells in the M phase in a dose- and time-dependent manner. In contrast, TPS-B (the demethoxy analogue of TPS-A) showed cell-cycle non-specific inhibition on cell growth even though it inhibited cell growth at lower concentrations than TPS-A. TPS-A treatment induced the reversible disruption of the cytoplasmic microtubules of 3Y1 cells as observed by indirect immunofluorescence microscopy in the range of concentrations that specifically inhibited M-phase progression. TPS-A inhibited the assembly in vitro of microtubules purified from bovine brains (40% inhibition at 250 microM); however, there was little or no effect on the self-assembly of purified tubulin when polymerization was induced by glutamate even at 250 microM TPS-A. TPS-A did not inhibit assembly promoted by taxol or by digestion of the C-terminal domain of tubulin. However, TPS-A blocked the tubulin assembly induced by inducers interacting with the C-terminal domain, microtubule-associated protein 2 (MAP2), tau and poly-(l-lysine). These results indicate that TPS-A is a novel inhibitor of MAP-dependent microtubule assembly and, through the disruption of the microtubule spindle, specifically inhibits cell cycle progression at the M phase.

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The XMAP215 homologue Stu2 at yeast spindle pole bodies regulates microtubule dynamics and anchorage

et al. 2003

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T.Usui and H.Maekawa contributed equally to this workThe yeast protein Stu2 belongs to the XMAP215 family of conserved microtubule-binding proteins which regulate microtubule plus end dynamics. XMAP215-related proteins also bind to centrosomes and spindle pole bodies (SPBs) through proteins like the mammalian transforming acidic coiled coil protein TACC or the yeast Spc72. We show that yeast Spc72 has two distinct domains involved in microtubule organization. The essential 100 N-terminal amino acids of Spc72 interact directly with the g-tubulin complex, and an adjacent non-essential domain of Spc72 mediates binding to Stu2. Through these domains, Spc72 brings Stu2 and the g-tubulin complex together into a single complex. Manipulation of Spc72±Stu2 interaction at SPBs compromises the anchorage of astral microtubules at the SPB and surprisingly also in¯uences the dynamics of microtubule plus ends. Permanently tethering Stu2 to SPBs by fusing it to a version of Spc72 that lacks the Stu2-binding site in part complements these defects in a manner which is dependent upon the microtubule-binding domain of Stu2. Thus, the SPB-associated Spc72±Stu2 complex plays a key role in regulating microtubule properties.

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Identification of Cytochrome P450s Required for Fumitremorgin Biosynthesis in Aspergillus fumigatus

et al. 2009

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Fumitremorgin C, a diketopiperazine mycotoxin produced by Aspergillus fumigatus, is a potent and specific inhibitor of breast cancer resistance protein (BCRP). Elucidation of the fumitremorgin C biosynthetic pathway provides a strategy for new drug design. A structure-activity relationship study based on metabolites related to the ftm gene cluster revealed that the process most crucial for inhibitory activity against BCRP was cyclization to form fumitremorgin C. To determine the gene involved in the cyclization reaction, targeted gene inactivation was performed with candidate genes in the ftm cluster. Analysis of the gene disruptants allowed us to identify ftmE, one of the cytochrome P450 genes in the cluster, as the gene responsible for the key step in fumitremorgin biosynthesis. Additionally, we demonstrated that the other two cytochrome P450 genes, ftmC and ftmG, were involved in hydroxylation of the indole ring and successive hydroxylation of fumitremorgin C, respectively.

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Takeo Usui

Laforin, defective in the progressive myoclonus epilepsy of Lafora type, is a dual-specificity phosphatase associated with polyribosomes

Tryprostatin A, a specific and novel inhibitor of microtubule assembly

The XMAP215 homologue Stu2 at yeast spindle pole bodies regulates microtubule dynamics and anchorage

Identification of Cytochrome P450s Required for Fumitremorgin Biosynthesis in Aspergillus fumigatus

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