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The Journal of Antibiotics 01/2012; 65(4):207-9. · 1.65 Impact Factor
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ABSTRACT: Marianins A (1) and B (2), two new prenylated phenylpropanoids, were isolated from the culture extract of the fungus Mariannaea camptospora. Structures of marianins were elucidated by interpretation of NMR and other spectroscopic data. 1 is a 5-methylcoumarin bearing two prenyloxy groups, while 2 is an orcinol derivative substituted with a 3,3-dimethyl-4-pentenoyl chain. 2 is possibly derived from 1 through a Claisen rearrangement of the prenyl group, followed by lactone hydrolysis and decarboxylation. These compounds showed weak antibacterial activity against Micrococcus luteus.
Journal of Natural Products 05/2011; 74(5):1327-30. · 3.13 Impact Factor
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ABSTRACT: Abyssomicin I (1), a new modified polycyclic polyketide, was isolated from the culture extract of a soil-derived Streptomyces sp. The structure of 1 was elucidated by interpretation of NMR and other spectroscopic data. The stereochemistry of the new compound was assigned by NOE analysis, chemical derivatization, and application of the modified Mosher method. While 1 was inactive against bacteria and yeasts, the oxidized derivative 7 showed weak activities against gram-positive bacteria. Compounds 1 and 7 exhibited inhibitory effects on tumor cell invasion with IC(50) values of 11 and 0.21 μM, respectively.
Journal of Natural Products 10/2010; 73(11):1943-6. · 3.13 Impact Factor
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Takeshi Uchiumi,
Abbas Fotovati,
Takakazu Sasaguri,
Kohtaro Shibahara,
Tatsuo Shimada, Takao Fukuda,
Takanori Nakamura,
Hiroto Izumi,
Teruhisa Tsuzuki,
Michihiko Kuwano,
Kimitoshi Kohno
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ABSTRACT: The eukaryotic Y-box-binding protein-1 (YB-1) is involved in the transcriptional and translational control of many biological processes, including cell proliferation. In clinical studies, the cellular level of YB-1 closely correlates with tumor growth and prognosis. To understand the role of YB-1 in vivo, especially in the developmental process, we generated YB-1 knock-out mice, which are embryonic lethal and exhibit exencephaly associated with abnormal patterns of cell proliferation within the neuroepithelium. beta-Actin expression and F-actin formation were reduced in the YB-1 null embryo and YB-1(-/-) mouse embryonic fibroblasts, suggesting that the neural tube defect is caused by abnormal cell morphology and actin assembly within the neuroepithelium. Fibroblasts derived from YB-1(-/-) embryos demonstrated reduced growth and cell density. A colony formation assay showed that YB-1(-/-) mouse embryonic fibroblasts failed to undergo morphological transformation and remained contact-inhibited in culture. These results demonstrate that YB-1 is involved in early mouse development, including neural tube closure and cell proliferation.
Journal of Biological Chemistry 01/2007; 281(52):40440-9. · 4.77 Impact Factor
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Takeshi Uchiumi,
Abbas Fotovati,
Takakazu Sasaguri,
Kohtaro Shibahara,
Tatsuo Shimada, Takao Fukuda,
Takanori Nakamura,
Hiroto Izumi,
Teruhisa Tsuzuki,
Michihiko Kuwano,
Kimitoshi Kohno
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ABSTRACT: The eukaryotic Y-box-binding protein-1 (YB-1) is involved in the transcriptional and translational control of many biological
processes, including cell proliferation. In clinical studies, the cellular level of YB-1 closely correlates with tumor growth
and prognosis. To understand the role of YB-1 in vivo, especially in the developmental process, we generated YB-1 knock-out mice, which are embryonic lethal and exhibit exencephaly
associated with abnormal patterns of cell proliferation within the neuroepithelium. β-Actin expression and F-actin formation
were reduced in the YB-1 null embryo and YB-1-/- mouse embryonic fibroblasts, suggesting that the neural tube defect is caused by abnormal cell morphology and actin assembly
within the neuroepithelium. Fibroblasts derived from YB-1-/- embryos demonstrated reduced growth and cell density. A colony formation assay showed that YB-1-/- mouse embryonic fibroblasts failed to undergo morphological transformation and remained contact-inhibited in culture. These
results demonstrate that YB-1 is involved in early mouse development, including neural tube closure and cell proliferation.
Journal of Biological Chemistry 12/2006; 281(52):40440-40449. · 4.77 Impact Factor
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ABSTRACT: The eukaryotic Y-box binding protein-1 (YB-1) functions in various biological processes, including transcriptional and translational control, DNA repair, drug resistance, and cell proliferation. To elucidate the physiological role of the YB-1 protein, we disrupted one allele of mouse YB-1 in embryonic stem (ES) cells. Northern blot analysis revealed that YB-1(+/-) ES cells with one intact allele contain approximately one-half the amount of mRNA detected in wild-type (YB-1(+/+)) cells. We further found that the protein level of YB-1(+/-) cells was reduced to approximately 50-60% compared with that of YB-1(+/+) cells. However, no apparent growth difference was found between YB-1(+/-) and YB-1(+/+) cells. YB-1(+/-) cells showed increased sensitivity to cisplatin and mitomycin C, but not to etoposide, X-ray or UV irradiation, as compared to YB-1(+/+) cells. YB-1 may have the capacity to exert a protective role against cytotoxic effects of DNA damaging agents, and may be involved in certain aspects of drug resistance.
Cancer Science 05/2004; 95(4):348-53. · 3.33 Impact Factor
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ABSTRACT: The eukaryotic Y-box binding protein YB-1 is involved in various biological processes, including DNA repair, cell proliferation and the regulation of transcription and translation. YB-1 protein is abundant and expressed ubiquitously in human cells, functioning in cell proliferation and transformation. Its concentration is thought to be highly regulated at both the levels of transcription and translation. Therefore, we investigated whether or not the 5'-UTR of YB-1 mRNA affects the translation of YB-1 protein, thus influencing expression levels. Luciferase mRNA ligated to the YB-1 mRNA 5'-UTR was used as a reporter construct. Ligation of the full-length YB-1 5'-UTR (331 bases) enhanced translation as assessed by in vitro and in vivo translation assays. Deletion constructs of the YB-1 5'-UTR also resulted in a higher efficiency of translation, especially in the region mapped to +197 to +331 from the major transcription start site. RNA gel shift assays revealed that the affinity of YB-1 for various 5'-UTR probe sequences was higher for the full-length 5'-UTR than for deleted 5'-UTR sequences. An in vitro translation assay was used to demonstrate that recombinant YB-1 protein inhibited translation of the full-length 5'-UTR of YB-1 mRNA. Thus, our findings provide evidence for the autoregulation of YB-1 mRNA translation via the 5'-UTR.
Nucleic Acids Research 02/2004; 32(2):611-22. · 8.03 Impact Factor
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ABSTRACT: 8-oxoguanine (8-oxo-7,8-dihydroguanine) is generated in the cellular nucleotide pool as well as in nucleic acids, by the action of oxygen radicals produced in cells. 8-oxoguanine has the potential to pair with both cytosine and adenine, and thus, the persistence of this base in messenger RNA would cause translational errors. To prevent such an outcome, organisms should have mechanisms for preventing the misincorporation of 8-oxoguanine-containing nucleotide into RNA and for removing 8-oxoguanine-containing RNA from processes of translation. We now report that mammalian Y box-binding protein 1 (YB-1 protein) possesses the activity to bind specifically to RNA containing 8-oxoguanine. On incubation with a purified preparation of YB-1 protein, 8-oxoguanine-containing RNA forms stable complexes with the protein while normal RNA scarcely forms such a complex. Using a series of deletion mutants which produce altered forms of YB-1 protein lacking some parts of the sequence, domains of the protein necessary for RNA binding were identified. Escherichia coli cells expressing normal or truncated forms of YB-1 protein with the binding capacity acquire resistance against paraquat, a drug that induces oxidative stress in cells, whereas cells with truncated proteins lacking such an activity do not. YB-1 protein may disturb the bacterial system in recognizing oxidatively damaged RNA, thus exerting a dominant negative effect on cell growth. We propose that YB-1 protein may discriminate the oxidized RNA molecule from normal ones, thus contributing to the high fidelity of translation in cells.
Biochemistry 11/2002; 41(42):12739-44. · 3.42 Impact Factor
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ABSTRACT: The eukaryotic Y-box-binding protein YB-1 functions in various biological processes, including DNA repair, cell proliferation, and transcriptional and translational controls. To gain further insight into how human YB-1 plays its role in pleiotropic functions, we here used two-hybrid screenings to identify partners of this protein; the results showed that YB-1 itself, iron-regulatory protein 2 (IRP2), and five ribosomal proteins each served as partners to YB-1. We then examined the biological effect of the interaction of YB-1 and IRP2 on translational regulation. Both in vitro binding and coimmunoprecipitation assays showed the direct interaction of YB-1 and IRP2 in the presence of a high concentration of iron. RNA gel shift assays showed that YB-1 reduced the formation of the IRP2-mRNA complex when the iron-responsive element of the ferritin mRNA 5' untranslated region (UTR) was used as a probe. By using an in vitro translation assay using luciferase mRNA ligated to the ferritin mRNA 5'UTR as a reporter construct, we showed that both YB-1 and IRP2 inhibited the translation of the mRNA. However, coadministration of YB-1 and IRP2 proteins abrogated the inhibition of protein synthesis by each protein. An In vivo coimmunoprecipitation assay showed that IRP2 bound to YB-1 in the presence of iron and a proteasome inhibitor. The direct interaction of YB-1 and IRP2 provides the first evidence of the involvement of YB-1 in the translational regulation of an iron-related protein.
Molecular and Cellular Biology 10/2002; 22(18):6375-83. · 5.53 Impact Factor
