Takashi Ohtsu

Publications (13)78.31 Total impact

• Article: Effective isolation of RNA aptamer through suppression of PCR bias.

  Shoutaro Tsuji, Naomi Hirabayashi, Shintaro Kato, Joe Akitomi, Hazuki Egashira, Taku Tanaka, Iwao Waga, Takashi Ohtsu
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  ABSTRACT: An aptamer is a short RNA or DNA molecule that binds to a specific target. The main strategy for obtaining aptamers is systematic evolution of ligands by exponential enrichment (SELEX). Although various SELEX techniques have been devised and refined on the basis of the selection technique used, in most cases, the isolation of an aptamer still requires several trials or the use of special equipment. In the present study, we attempted SELEX in which PCR bias was suppressed by using RNA transcription to amplify nucleic acids. This procedure, which can be accomplished easily and inexpensively without special equipment, effectively simplifies the SELEX process. Using this SELEX, we obtained large numbers of RNA aptamers against the target that could not be isolated by standard SELEX. The results of our study suggest that exclusion of PCR bias may be far more important than previously assumed for isolating RNA aptamers via SELEX.
  Biochemical and Biophysical Research Communications 07/2009; 386(1):223-6. · 2.48 Impact Factor
• Article: RNA aptamer binding to polyhistidine-tag.

  Shoutaro Tsuji, Taku Tanaka, Naomi Hirabayashi, Shintaro Kato, Joe Akitomi, Hazuki Egashira, Iwao Waga, Takashi Ohtsu
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  ABSTRACT: Polyhistidine-tag (His-tag) is a powerful tool for purification of recombinant protein. His-tagged protein can be affinity-purified by using resins immobilizing Ni2+ or anti-His-tag antibodies. However, Ni2+-affinity-purification is prevented by the presence of divalent cations. The purification with antibodies has contamination of antibody peptides, which interferes with following analysis. In the present study, we isolated RNA aptamers binding to His-tag. The best clone, named shot47, bound to the target with low picomolar dissociation constant. In the presence of divalent cations, shot47 was substitutable for antibodies against His-tag on ELISA, immunoprecipitation, and Western blotting. Shot47 can be synthesized easily by in vitro transcription. Thus, shot47 would be applicable as a useful and cost-effective tool for biochemical analyses.
  Biochemical and Biophysical Research Communications 07/2009; 386(1):227-31. · 2.48 Impact Factor
• Article: An aptamer-based biosensor for mammalian initiation factor eukaryotic initiation factor 4A.

  Akihiro Oguro, Takashi Ohtsu, Yoshikazu Nakamura
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  ABSTRACT: Aptamers are short single-stranded DNA or RNA sequences that are selected in vitro based on their high affinity to a target molecule. Here we demonstrate that an RNA aptamer selected against eukaryotic initiation factor 4A (eIF4A) serves as an efficient biosensor. The aptamer, when immobilized to resin, purifies eIF4A from crude cell extracts by affinity pull-down, and 32P-labeled aptamer can detect some 300 ng of eIF4A by dot-blot analysis. Moreover, by use of an aptamer-immobilized sensor chip, we developed a surface plasmon resonance assay to detect eIF4A at the nanogram level within whole cell lysates after optimizing sample preparation, thereby showing a real-time sensor for eIF4A in cell extract solution.
  Analytical Biochemistry 03/2009; 388(1):102-7. · 3.00 Impact Factor
• Article: Capture of heat-killed Mycobacterium bovis bacillus Calmette-Guérin by intelectin-1 deposited on cell surfaces.

  Shoutaro Tsuji, Makiko Yamashita, Donald R Hoffman, Akihito Nishiyama, Tsutomu Shinohara, Takashi Ohtsu, Yoshimi Shibata
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  ABSTRACT: Intelectin is an extracellular animal lectin found in chordata. Although human and mouse intelectin-1 recognize galactofuranosyl residues included in cell walls of various microorganisms, the physiological function of mammalian intelectin had been unclear. In this study, we found that human intelectin-1 was a serum protein and bound to Mycobacterium bovis bacillus Calmette-Guérin (BCG). Human intelectin-1-binding to BCG was inhibited by Ca(2+)-depletion, galactofuranosyl disaccharide, ribose, or xylose, and was dependent on the trimeric structure of human intelectin-1. Although monomeric, mouse intelectin-1 bound to BCG, with its C-terminal region contributing to efficient binding. Human intelectin-1-transfected cells not only secreted intelectin-1 into culture supernatant but also expressed intelectin-1 on the cell surface. The cell surface intelectin-1 was not a glycosylphosphatidylinositol-anchored membrane protein. Intelectin-1-transfected cells captured BCG more than untransfected cells, and the BCG adherence was inhibited by an inhibitory saccharide of intelectin-1. Intelectin-1-preincubated cells took up BCG more than untreated cells, but the adhesion of intelectin-1-bound BCG was the same as that of untreated BCG. Mouse macrophages phagocytosed BCG more efficiently in medium containing mouse intelectin-1 than in control medium. These results indicate that intelectin is a host defense lectin that assists phagocytic clearance of microorganisms.
  Glycobiology 02/2009; 19(5):518-26. · 3.58 Impact Factor
• Article: RNA aptamers to mammalian initiation factor 4G inhibit cap-dependent translation by blocking the formation of initiation factor complexes.

  Shin Miyakawa, Akihiro Oguro, Takashi Ohtsu, Hiroaki Imataka, Nahum Sonenberg, Yoshikazu Nakamura
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  ABSTRACT: Eukaryotic translation initiation factor 4G (eIF4G) plays a crucial multimodulatory role in mRNA translation and decay by interacting with other translation factors and mRNA-associated proteins. In this study, we isolated eight different RNA aptamers with high affinity to mammalian eIF4G by in vitro RNA selection amplification. Of these, three aptamers (apt3, apt4, and apt5) inhibited the cap-dependent translation of two independent mRNAs in a rabbit reticulocyte lysate system. The cap-independent translation directed by an HCV internal ribosome entry site was not affected. Addition of exogenous eIF4G reversed the aptamer-mediated inhibition of translation. Even though apt3 and apt4 were selected independently, they differ only by two nucleotides. The use of truncated eIF4G variants in binding experiments indicated that apt4 (and probably apt3) bind to both the middle and C-terminal domains of eIF4G, while apt5 binds only to the middle domain of eIF4G. Corresponding to the difference in the binding sites in eIF4G, apt4, but not apt5, hindered eIF4G from binding to eIF4A and eIF3, in a purified protein solution system as well as in a crude lysate system. Therefore, the inhibition of translation by apt4 (and apt3) is due to the inhibition of formation of initiation factor complexes involving eIF4A and eIF3. On the other hand, apt5 had a much weaker affinity to eIF4G than apt4, but inhibited translation much more efficiently by an unknown mechanism. The five additional aptamers have sequences and predicted secondary structures that are largely different from each other and from apt3 through apt5. Therefore, we speculate that these seven sets of aptamers may bind to different regions in eIF4G in different fashions.
  RNA 11/2006; 12(10):1825-34. · 5.09 Impact Factor
• Article: Selection of RNA aptamers against recombinant transforming growth factor-beta type III receptor displayed on cell surface.

  Shoji P Ohuchi, Takashi Ohtsu, Yoshikazu Nakamura
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  ABSTRACT: In most cases, anti-protein aptamers are selected by systematic evolution of ligands by exponential enrichment (SELEX) using purified recombinant protein targets. Cell surface proteins, however, are not easy targets for SELEX due to the difficulties associated with their purification. Here, we developed a novel SELEX procedure (referred to as TECS-SELEX) in which cell-surface displayed recombinant protein is directly used as the selection target. Using this method, we isolated RNA aptamers against transforming growth factor-beta type III receptor expressed on Chinese hamster ovary (CHO) cells. One of the RNA aptamers has a dissociation constant in the 1 nM range and competed with transforming growth factor-beta to bind to the cell surface receptor in vitro.
  Biochimie 08/2006; 88(7):897-904. · 3.02 Impact Factor
• Source

  Available from: joensuu.fi

  Article: Circannual control of hibernation by HP complex in the brain.

  Noriaki Kondo, Tsuneo Sekijima, Jun Kondo, Nobuhiko Takamatsu, Kazuo Tohya, Takashi Ohtsu
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  ABSTRACT: Seasonal hibernation in mammals is under a unique adaptation system that protects organisms from various harmful events, such as lowering of body temperature (Tb), during hibernation. However, the precise factors controlling hibernation remain unknown. We have previously demonstrated a decrease in hibernation-specific protein (HP) complex in the blood of chipmunks during hibernation. Here, HP is identified as a candidate hormone for hibernation. In chipmunks kept in constant cold and darkness, HP is regulated by an individual free-running circannual rhythm that correlates with hibernation. The level of HP complex in the brain increases coincident with the onset of hibernation. Such HP regulation proceeds independently of Tb changes in constant warmth, and Tb decreases only when brain HP is increased in the cold. Blocking brain HP activity using an antibody decreases the duration of hibernation. We suggest that HP, a target of endogenously generated circannual rhythm, carries hormonal signals essential for hibernation to the brain.
  Cell 05/2006; 125(1):161-72. · 32.40 Impact Factor
• Article: A novel method to generate aptamers against recombinant targets displayed on the cell surface.

  Shoji P Ohuchi, Takashi Ohtsu, Yoshikazu Nakamura
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  ABSTRACT: Isolation of anti-protein aptamers is typically carried out against purified recombinant protein. Thus, certain cell surface proteins including pharmacologically important receptors do not become targets of aptamers due to the difficulties encountered in their purification. In order to overcome this limitation, we developed a new SELEX procedure in which cells displaying the target protein on the cell surface are used, thereby precluding the need for target purification. As a model experiment, CHO cells expressing human transforming growth factor-beta type III receptor (TbRIII) were used as the target for SELEX, resulting in the successful isolation of a specific, high-affinity aptamer.
  Nucleic Acids Symposium Series 02/2005;
• Source

  Available from: PubMed Central

  Article: NMR structures of double loops of an RNA aptamer against mammalian initiation factor 4A.

  Taiichi Sakamoto, Akihiro Oguro, Gota Kawai, Takashi Ohtsu, Yoshikazu Nakamura
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  ABSTRACT: A high affinity RNA aptamer (APT58, 58 nt long) against mammalian initiation factor 4A (eIF4A) requires nearly its entire nucleotide sequence for efficient binding. Since splitting either APT58 or eIF4A into two domains diminishes the affinity for each other, it is suggested that multiple interactions or a global interaction between the two molecules accounts for the high affinity. To understand the structural basis of APT58's global recognition of eIF4A, we determined the solution structure of two essential nucleotide loops (AUCGCA and ACAUAGA) within the aptamer using NMR spectroscopy. The AUCGCA loop is stabilized by a U-turn motif and contains a non-canonical A:A base pair (the single hydrogen bond mismatch: Hoogsteen/Sugar-edge). On the other hand, the ACAUAGA loop is stabilized by an AUA tri-nucleotide loop motif and contains the other type of A:A base pair (single hydrogen bond mismatch: Watson-Crick/Watson-Crick). Considering the known structural and functional properties of APT58, we propose that the AUCGCA loop is directly involved in the interaction with eIF4A, while the flexibility of the ACAUAGA loop is important to support this interaction. The Watson-Crick edges of C7 and C9 in the AUCGCA loop may directly interact with eIF4A.
  Nucleic Acids Research 02/2005; 33(2):745-54. · 8.03 Impact Factor
• Article: High affinity RNA for mammalian initiation factor 4E interferes with mRNA-cap binding and inhibits translation.

  Kiyotaka Mochizuki, Akihiro Oguro, Takashi Ohtsu, Nahum Sonenberg, Yoshikazu Nakamura
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  ABSTRACT: The eukaryotic translation initiation factor 4F (eIF4F) consists of three polypeptides (eIF4A, eIF4G, and eIF4E) and is responsible for recruiting ribosomes to mRNA. eIF4E recognizes the mRNA 5'-cap structure (m7GpppN) and plays a pivotal role in control of translation initiation, which is the rate-limiting step in translation. Overexpression of eIF4E has a dramatic effect on cell growth and leads to oncogenic transformation. Therefore, an inhibitory agent to eIF4E, if any, might serve as a novel therapeutic against malignancies that are caused by aberrant translational control. Along these lines, we developed two RNA aptamers, aptamer 1 and aptamer 2, with high affinity for mammalian eIF4E by in vitro RNA selection-amplification. Aptamer 1 inhibits the cap binding to eIF4E more efficiently than the cap analog m7GpppN or aptamer 2. Consistently, aptamer 1 inhibits specifically cap-dependent in vitro translation while it does not inhibit cap-independent HCV IRES-directed translation initiation. The interaction between eIF4E and eIF4E-binding protein 1 (4E-BP1), however, was not inhibited by aptamer 1. Aptamer 1 is composed of 86 nucleotides, and the high affinity to eIF4E is affected by deletions at both termini. Moreover, relatively large areas in the aptamer 1 fold are protected by eIF4E as determined by ribonuclease footprinting. These findings indicate that aptamers can achieve high affinity to a specific target protein via global conformational recognition. The genetic mutation and affinity study of variant eIF4E proteins suggests that aptamer 1 binds to eIF4E adjacent to the entrance of the cap-binding slot and blocks the cap-binding pocket, thereby inhibiting translation initiation.
  RNA 02/2005; 11(1):77-89. · 5.09 Impact Factor
• Article: RNA aptamers selected against the receptor activator of NF-kappaB acquire general affinity to proteins of the tumor necrosis factor receptor family.

  Tadashi Mori, Akihiro Oguro, Takashi Ohtsu, Yoshikazu Nakamura
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  ABSTRACT: The receptor activator of NF-kappaB (RANK) is a member of the tumor necrosis factor (TNF) receptor family and acts to cause osteoclastgenesis through the interaction with its ligand, RANKL. We isolated RNA aptamers with high affinity to human RANK by SELEX. Sequence and mutational analysis revealed that the selected RNAs form a G-quartet conformation that is crucial for binding to RANK. When the aptamer binding to RANK was challenged by RANKL, there was no competition between the aptamer and RANKL. Instead, the formation of a ternary complex, aptamer-RANK-RANKL, was detected by a spin down assay and by BIAcore surface plasmon resonance analysis. Moreover, the selected aptamer efficiently bound to other TNF receptor family proteins, such as TRAIL-R2, CD30, NGFR as well as osteoprotegerin, a decoy receptor for RANK. These results suggest that the selected aptamer recognizes not the ligand-binding site, but rather a common structure conserved in the TNF receptor family proteins.
  Nucleic Acids Research 02/2004; 32(20):6120-8. · 8.03 Impact Factor
• Article: RNA aptamers to initiation factor 4A helicase hinder cap-dependent translation by blocking ATP hydrolysis.

  Akihiro Oguro, Takashi Ohtsu, Yuri V Svitkin, Nahum Sonenberg, Yoshikazu Nakamura
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  ABSTRACT: The mammalian translation initiation factor 4A (eIF4A) is a prototype member of the DEAD-box RNA helicase family that couples ATPase activity to RNA binding and unwinding. In the crystal form, eIF4A has a distended "dumbbell" structure consisting of two domains, which probably undergo a conformational change, on binding ATP, to form a compact, functional structure via the juxtaposition of the two domains. Moreover, additional conformational changes between two domains may be involved in the ATPase and helicase activity of eIF4A. The molecular basis of these conformational changes, however, is not understood. Here, we generated RNA aptamers with high affinity for eIF4A by in vitro RNA selection-amplification. On binding, the RNAs inhibit ATP hydrolysis. One class of RNAs contains members that exhibit dissociation constant of 27 nM for eIF4A and severely inhibit cap-dependent in vitro translation. The binding affinity was increased on Arg substitution in the conserved motif Ia of eIF4A, which probably improves a predicted arginine network to bind RNA substrates. Selected RNAs, however, failed to bind either domain of eIF4A that had been split at the linker site. These findings suggest that the selected RNAs interact cooperatively with both domains of eIF4A, either in the dumbbell or the compact form, and entrap it into a dead-end conformation, probably by blocking the conformational change of eIF4A. The selected RNAs, therefore, represent a new class of specific inhibitors that are suitable for the analysis of eukaryotic initiation, and which pose a potential therapeutic against malignancies that are caused by aberrant translational control.
  RNA 05/2003; 9(4):394-407. · 5.09 Impact Factor
• Article: Selection of RNA aptamers against recombinant transforming growth factor-β type III receptor displayed on cell surface

  Shoji P. Ohuchi, Takashi Ohtsu, Yoshikazu Nakamura
  [show abstract] [hide abstract]
  ABSTRACT: In most cases, anti-protein aptamers are selected by systematic evolution of ligands by exponential enrichment (SELEX) using purified recombinant protein targets. Cell surface proteins, however, are not easy targets for SELEX due to the difficulties associated with their purification. Here, we developed a novel SELEX procedure (referred to as TECS-SELEX) in which cell-surface displayed recombinant protein is directly used as the selection target. Using this method, we isolated RNA aptamers against transforming growth factor-β type III receptor expressed on Chinese hamster ovary (CHO) cells. One of the RNA aptamers has a dissociation constant in the 1 nM range and competed with transforming growth factor-β to bind to the cell surface receptor in vitro.
  Biochimie.