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1. In Memorian [Professor John Tanaka]

Author

Yoshimichi Ohki, Naohiro Hozumi, Kaoru Kawamura, H. Homma, K. Kimura, Tatsuo Takada, Toshikatsu Tanaka, K. Mio, and K. Kudo

Subjects
Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials
Published
2012

2. Shielding Analysis and Evaluation of JRR-2 Decommissioning

Author

K. Kishimoto, K. Arigane, M. Iwashita, N. Fukumura, K. Mio, and Y. Seiki

Subjects
Measurement point, Nuclear and High Energy Physics, Nuclear Energy and Engineering, Nuclear engineering, Electromagnetic shielding, Residual activity, Environmental science, Research reactor, Dose rate, Nuclear decommissioning
Abstract

In order to plan the shielding method for Japan Research Reactor No.2 (JRR-2) decommissioning, we calculated the dose rate of residual activity after activation calculation based on JRR-2 operation history, and compared the calculation values with the measured values. The ratios (C/E) of calculation to experiment were about 2 at the each selecting measurement point.

Published
2000

3. Space time adaptive processing for low frequency sonar

Author

Y. Doisy, Y. Chocheyras, and K. Mio

Subjects
Beamforming, Reverberation, Engineering, Space-time adaptive processing, business.industry, Acoustics, Temporal resolution, Electronic engineering, Direction of arrival, Wideband, Marine mammals and sonar, business, Sonar
Abstract

The objective of this work is to enhance performances of active sonar in reverberation limited conditions by means of specific waveforms and space time processing techniques. We focus on the performances of comb spectrum waveforms, merging the advantages of both HFM and CW codes: their broadband characteristics enable good detection performances (good temporal resolution) the reverberation direction of arrival is spatially limited and it can be rejected with spatial processing techniques. We compare the results of comb transmissions with adaptive and conventional beamforming.

Published
2002

6. Reverse hyaluronan substrate gel zymography procedure for the detection of hyaluronidase inhibitors

Author

K, Mio and R, Stern

Subjects
Male, Mice, Animals, Humans, Hyaluronoglucosaminidase, Cattle, Electrophoresis, Polyacrylamide Gel, Enzyme Inhibitors, Hyaluronic Acid
Abstract

Little is known of the ubiquitous inhibitors of hyaluronidase, molecules that may be important for the deposition of hyaluronan. A reverse hyaluronan-substrate gel procedure is described here that detects such inhibitors, even in crude biological extracts, and is independent of the catalytic mechanism of the target enzyme. Following electrophoresis, hyaluronan-containing gels are incubated in a hyaluronidase solution. Alcian blue-staining bands indicate hyaluronan protected from degradation and the location of hyaluronidase inhibitors. Coordinated use of hyaluronan substrate gel and reverse substrate gel procedures provides estimates of the number and relative molecular sizes of both enzymes and their inhibitors.

Published
2001

8. Design Concepts and Experimental Results of Superconductor for Field Windings of 70mw Class Superconducting Generator

Author

Akinori Ueda, Hideto Yoshimura, K. Mio, Y. Nagata, T. Yamada, Susumu Maeda, Masao Morita, and Toshiki Hirao

Subjects
Superconductivity, Physics, Field (physics), business.industry, Superconducting electric machine, Electrical engineering, Mechanical engineering, Superconducting magnetic energy storage, law.invention, Generator (circuit theory), law, Electromagnetic coil, Condensed Matter::Superconductivity, Eddy current, business, Excitation
Abstract

AC losses and critical currents of three types of superconductors were measured to evaluate the characteristics of the superconductors which are designed to meet the requirements for the field windings of a 70MW class superconducting generator with low response excitation system. The superconductors used for the test are compacted stranded cables composed of Cu-CuNi-NbTi strands, and have the same cable size. The cross sectional structure of the strands and matrix ratios for tested cables are different. This paper presents the results of the experiment and design concepts of the superconductor for the 70MW class generator.

Published
1990

12. Modified Nonlinear Schrödinger Equation for Alfvén Waves Propagating along the Magnetic Field in Cold Plasmas

Author

Susumu Takeda, Tatsuki Ogino, K. Mio, and Kazuo Minami

Subjects
Physics, Wave propagation, General Physics and Astronomy, Schrödinger equation, Alfvén wave, Split-step method, Nonlinear system, symbols.namesake, Classical mechanics, Physics::Space Physics, symbols, Initial value problem, Boundary value problem, Nonlinear Schrödinger equation
Abstract

The basic nonlinear equation which describes the Alfven waves, with small but finite amplitude propagating along the magnetic field in cold plasmas, is derived modifying the reductive perturbation method proposed by Taniuti and Wei. Then as a result, the nonlinear dispersion relation is obtained through a procedure which clarifies the physical meaning. Furthermore, the modified nonlinear Schrodinger equation which describes the modulated Alfven wave more correctly than the previous works is proposed. An example of the nonlinear phenomena is shown by the numerical calculations of the initial value problem, using our basic equation for the Alfven waves.

Published
1976

13. A Perturbation Method and Its Application to Obliquely Propagating Nonlinear Alfvén Wave

Author

Susumu Takeda, K. Mio, and Tatsuki Ogino

Subjects
Physics, Waves in plasmas, Wave propagation, Plane wave, General Physics and Astronomy, Breaking wave, Poincaré–Lindstedt method, symbols.namesake, Cross-polarized wave generation, Physics::Plasma Physics, Surface wave, Quantum electrodynamics, Physics::Space Physics, symbols, Mechanical wave
Abstract

A procedure to the coordinate stretching and the perturbation expansion for the reductive perturbation method is proposed to analyze the nonlinear wave behaviors in dispersive medium. The method is applied to the nonlinear Alfven wave propagating in an oblique direction to the static magnetic field in cold plasmas. Although the wave is described by a linear equation for some physical quantities, the nonlinearity appears in the relation among the other quantities for considerably large amplitude. These outstanding features are much different from other waves in plasmas.

Published
1976

14. Protective coats for radiation-resistant optical fibers

Author

T. Hirashima, K. Mio, T. Shintani, H. Kuzushita, and E. Iri

Subjects
Materials science, Optical coating, Optical fiber, Radiation resistant, law, business.industry, Optoelectronics, Fiber, Nuclear reactor, Radiation, business, law.invention, Actual use
Abstract

Attempts have been made to use optical fibers as signal transmission lines in radiation fields as in nuclear reactor facilities etc. For use in such high-radiation fields, it is not infrequently required that the fiber be resistant not only to radiation but also to heat. We have already demonstrated that the pure-silica core optical fiber fabricated by the MRT process1 has high-radiation resistance.2 Based on our research conducted on jacket materials, we propose a new radiation- and heat-resistant fiber for actual use.

Published
1984

17. Underwater vehicle positioning with correlation sonar

Author

K. Mio, Y. Doisy, and V. Rigaud

Subjects
Engineering, Spatial correlation, Positioning system, business.industry, Long baseline acoustic positioning system, Acoustics, Trajectory, business, Remotely operated underwater vehicle, Sonar, Displacement (vector), Underwater acoustic communication
Abstract

Deals with accurate positioning of an underwater vehicle with respect to the sea bottom. The principle uses the spatial correlation of bottom reverberation signals between successive sonar pulses to measure array displacement, as in correlation log. The horizontal translation is estimated from ping to ping and combined with heading sensor information to reconstruct the complete trajectory. This reconstructed trajectory has been compared with a reference positioning system. Experimental results prove that this method enables an accurate estimation of the underwater vehicle displacements. The standard deviation between the estimated displacement and the reference one (for frequencies around 25 kHz) ranges from 1 mm (static) to 5 mm (dynamic).

18. Barley β-glucan consumption improves glucose tolerance by increasing intestinal succinate concentrations.

Author

Mio K, Goto Y, Matsuoka T, Komatsu M, Ishii C, Yang J, Kobayashi T, Aoe S, and Fukuda S

Abstract

Barley is rich in β-glucan, which can alter gut microbiota and metabolome profiles, potentially affecting host metabolism. However, the microbiota and metabolites increased by barley β-glucan remain unclear. In this study, we focused on the gut-microbiota-derived metabolite succinate and investigated the microbiome and metabolome profiles altered by barley β-glucan intake. C57BL/6 J mice were fed a standard or middle-fat diet containing barley flour rich in β-glucan or barley flour without β-glucan, and their gut microbiota and metabolome profiles were analyzed. The results showed increased Bacteroides, Parasutterella, and succinate due to barley β-glucan intake independent of diet differences. Next, we used mice lacking slc13a2, a gene that is involved in the cellular uptake of succinate. Wild-type mice showed improved glucose tolerance after the intake of barley β-glucan, but this effect was attenuated in the slc13a2-deficient mice. These results suggest that barley β-glucan intake increases succinate and succinate-producing bacteria and affects glucose metabolism., (© 2024. The Author(s).)

Published
2024
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19. Micro-second time-resolved X-ray single-molecule internal motions of SARS-CoV-2 spike variants.

Author

Sasaki D, Arai T, Yang Y, Kuramochi M, Furuyama W, Nanbo A, Sekiguchi H, Morone N, Mio K, and Sasaki YC

Abstract

Single-molecule intramolecular dynamics were successfully measured for three variants of SARS-CoV-2 spike protein, alpha: B.1.1.7, delta: B.1.617, and omicron: B.1.1.529, with a time resolution of 100 μs using X-rays. The results were then compared with respect to the magnitude and directions of motions for the three variants. The largest 3-D intramolecular movement was observed for the omicron variant irrespective of ACE2 receptor binding. A more detailed analysis of the intramolecular motions revealed that the distribution state of intramolecular motion for the three variants was completely different with and without ACE2 receptor binding. The molecular dynamics for the trimeric spike protein of the omicron variant increased when ACE2 binding occurred. At that time, the diffusion constant increased from 71.0 [mrad 2 /ms] to 91.1 [mrad 2 /ms]., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Yuji C. Sasaki reports financial support was provided by Japan Science and Technology Agency. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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20. Simultaneous Recording of Remote Domain Dynamics in Membrane Proteins Using the Double-Labeled DXB/DXT Technique.

Author

Mio K, Ohkubo T, Sasaki D, Sugiura M, Kawaguchi K, Araki K, Taninaka K, Sakaguchi M, Nozawa S, Arai T, and Sasaki YC

Abstract

Protein dynamics play important roles in biological functions, which accompany allosteric structure changes. Diffracted X-ray blinking (DXB) uses monochromatic X-rays and nanocrystal probes. The intramolecular motion of target proteins is analyzed from the intensity changes in detector signals at the diffraction rings. In contrast, diffracted X-ray tracking (DXT) elucidates molecular dynamics by analyzing the trajectories of Laue spots. In this study, we have developed a dual-labeling technique for DXB and DXT, allowing the simultaneous observation of motions at different domains in proteins. We identified zinc oxide (ZnO) crystals as promising candidates for the second labeling probes due to their excellent diffraction patterns, high chemical stability, and favorable binding properties with proteins. The diffraction spots from the ZnO crystals are sufficiently separated from those of gold, enabling independent motion analysis at different domains. Dual-labeling DXB was employed for the motion analysis of the 5-HT 2A receptor in living cells. Simultaneous motion recording of the N-terminus and the second extracellular loop demonstrated ligand-induced motion suppression at both domains. The dual-labeling DXT technique demonstrated a capsaicin-induced peak shift in the two-dimensional motion maps at the N-terminus of the TRPV1 protein, but the peak shift was not obvious in the C-terminus. The capsaicin-induced motion modulation was recovered by the addition of the competitive inhibitor AMG9810.

Published
2024
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21. Barley consumption under a high-fat diet suppresses lipogenic genes through altered intestinal bile acid composition.

Author

Mio K, Iida-Tanaka N, Togo-Ohno M, Tadenuma N, Yamanaka C, and Aoe S

Subjects
Mice, Animals, Bile Acids and Salts metabolism, Liver metabolism, Lipid Metabolism, Lipids pharmacology, Cellulose metabolism, Cellulose pharmacology, Anti-Bacterial Agents pharmacology, Mice, Inbred C57BL, Diet, High-Fat adverse effects, Hordeum metabolism
Abstract

We evaluated whether barley flour consumption in a high-fat environment affects lipid metabolism through signals mediated by bile acids. Four-week-old mice were fed a high-fat diet supplemented with cellulose (HC) or β-glucan-rich barley flour (HB) for 12 weeks. Bile acid composition in the intestinal tract and feces was measured by GC/MS. Gene expression levels involved in bile acid metabolism in the liver and intestinal tract were determined by RT-PCR. Similar parameters were measured in mice treated with antibiotics (antibiotics-cellulose [AC] and antibiotics-barley [AB]) to reduce the activity of intestinal bacteria. The Results showed that the HB group had lower liver blood cholesterol and triglyceride levels than the HC group. The HB group showed a significant decrease in primary bile acids in the gastrointestinal tract compared to the HC group. On the other hand, the concentration of secondary bile acids relatively increased in the cecum and feces. In the liver, Fxr activation suppressed gene expression levels in synthesizing bile acids and lipids. Furthermore, in the gastrointestinal tract, Tgr5 was activated by increased secondary bile acids. Correspondingly, AMP levels were increased in the HB group compared to the HC group, AMPK was phosphorylated in the liver, and gene expression involved in lipid synthesis was downregulated. A comparison of the AC and AB groups treated with antibiotics did not confirm these effects of barley intake. In summary, our results suggest that the prevention of lipid accumulation by barley consumption involves signaling through changes in bile acid composition in the intestinal tract., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2024
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22. Real-time tilting and twisting motions of ligand-bound states of α7 nicotinic acetylcholine receptor.

Author

Yang Y, Arai T, Sasaki D, Kuramochi M, Inagaki H, Ohashi S, Sekiguchi H, Mio K, Kubo T, and Sasaki YC

Subjects
Acetylcholine chemistry, Acetylcholine metabolism, Ligands, Ivermectin pharmacology, Allosteric Regulation, alpha7 Nicotinic Acetylcholine Receptor chemistry, alpha7 Nicotinic Acetylcholine Receptor metabolism, Receptors, Nicotinic chemistry, Receptors, Nicotinic metabolism
Abstract

The α7 nicotinic acetylcholine receptor is a member of the nicotinic acetylcholine receptor family and is composed of five α7 subunits arranged symmetrically around a central pore. It is localized in the central nervous system and immune cells and could be a target for treating Alzheimer's disease and schizophrenia. Acetylcholine is a ligand that opens the channel, although prolonged application rapidly decreases the response. Ivermectin was reported as one of the positive allosteric modulators, since the binding of Ivermectin to the channel enhances acetylcholine-evoked α7 currents. One research has suggested that tilting motions of the nicotinic acetylcholine receptor are responsible for channel opening and activation. To verify this hypothesis applies to α7 nicotinic acetylcholine receptor, we utilized a diffracted X-ray tracking method to monitor the stable twisting and tilting motion of nAChR α7 without a ligand, with acetylcholine, with Ivermectin, and with both of them. The results show that the α7 nicotinic acetylcholine receptor twists counterclockwise with the channel transiently opening, transitioning to a desensitized state in the presence of acetylcholine and clockwise without the channel opening in the presence of Ivermectin. We propose that the conformational transition of ACh-bound nAChR α7 may be due to the collective twisting of the five α7 subunits, resulting in the compression and movement, either downward or upward, of one or more subunits, thus manifesting tilting motions. These tilting motions possibly represent the transition from the resting state to channel opening and potentially to the desensitized state., (© 2024. The Author(s).)

Published
2024
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23. Time-Resolved X-ray Observation of Intracellular Crystallized Protein in Living Animal.

Author

Kuramochi M, Sugawara I, Shinkai Y, Mio K, and Sasaki YC

Subjects
Animals, X-Rays, X-Ray Diffraction, Radiography, Crystallography, X-Ray, Proteins, Caenorhabditis elegans
Abstract

Understanding the cellular environment as molecular crowding that supports the structure-specific functional expression of biomolecules has recently attracted much attention. Time-resolved X-ray observations have the remarkable capability to capture the structural dynamics of biomolecules with subnanometre precision. Nevertheless, the measurement of the intracellular dynamics within live organisms remains a challenge. Here, we explore the potential of utilizing crystallized proteins that spontaneously form intracellular crystals to investigate their intracellular dynamics via time-resolved X-ray observations. We generated transgenic Caenorhabditis elegans specifically expressing the crystallized protein in cells and observed the formation of the protein aggregates within the animal cells. From the toxic-effect observations, the aggregates had minimal toxic effects on living animals. Fluorescence observations showed a significant suppression of the translational diffusion movements in molecules constituting the aggregates. Moreover, X-ray diffraction measurements provided diffraction signals originating from these molecules. We also observed the blinking behaviour of the diffraction spots, indicating the rotational motion of these crystals within the animal cells. A diffracted X-ray blinking (DXB) analysis estimated the rotational motion of the protein crystals on the subnanometre scale. Our results provide a time-resolved X-ray diffraction technique for the monitoring of intracellular dynamics.

Published
2023
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24. The Blinking of Small-Angle X-ray Scattering Reveals the Degradation Process of Protein Crystals at Microsecond Timescale.

Author

Arai T, Mio K, Onoda H, Chavas LMG, Umena Y, and Sasaki YC

Subjects
X-Ray Diffraction, X-Rays, Scattering, Small Angle, Crystallography, X-Ray, Blinking, Proteins chemistry
Abstract

X-ray crystallography has revolutionized our understanding of biological macromolecules by elucidating their three-dimensional structures. However, the use of X-rays in this technique raises concerns about potential damage to the protein crystals, which results in a quality degradation of the diffraction data even at very low temperatures. Since such damage can occur on the micro- to millisecond timescale, a development in its real-time measurement has been expected. Here, we introduce diffracted X-ray blinking (DXB), which was originally proposed as a method to analyze the intensity fluctuations of diffraction of crystalline particles, to small-angle X-ray scattering (SAXS) of a lysozyme single-crystal. This novel technique, called the small-angle X-ray blinking (SAXB) method, analyzes the fluctuation in SAXS intensity reflecting the domain fluctuation in the protein crystal caused by the X-ray irradiation, which could be correlated with the X-ray-induced damage on the crystal. There was no change in the protein crystal's domain dynamics between the first and second X-ray exposures at 95K, each of which lasted 0.7 s. On the other hand, its dynamics at 295K increased remarkably. The SAXB method further showed a dramatic increase in domain fluctuations with an increasing dose of X-ray radiation, indicating the significance of this method.

Published
2023
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25. The ice-binding site of antifreeze protein irreversibly binds to cell surface for its hypothermic protective function.

Author

Yang Y, Yamauchi A, Tsuda S, Kuramochi M, Mio K, Sasaki YC, and Arai T

Subjects
Animals, Humans, Binding Sites, Antifreeze Proteins genetics, Antifreeze Proteins chemistry, Antifreeze Proteins metabolism, Biophysical Phenomena, Fish Proteins genetics, Ice, alpha-Fetoproteins
Abstract

Antifreeze proteins (AFPs) are multifunctional polypeptides that adsorb onto ice crystals to inhibit their growth and onto cells to protect them from nonfreezing hypothermic damage. However, the mechanism by which AFP exerts its hypothermic cell protective (HCP) function remains uncertain. Here, we assessed the HCP function of three types of fish-derived AFPs (type I, II, and III AFPs) against human T-lymphoblastic lymphoma by measuring the survival rate (%) of the cells after preservation at 4 °C for 24 h. All AFPs improved the survival rate in a concentration-dependent manner, although the HCP efficiency was inferior for type III AFP compared to other AFPs. In addition, after point mutations were introduced into the ice-binding site (IBS) of a type III AFP, HCP activity was dramatically increased, suggesting that the IBS of AFP is involved in cell adsorption. Significantly, high HCP activity was observed for a mutant that exhibited poorer antifreeze activity, indicating that AFP exerts HCP- and ice-binding functions through a different mechanism. We next incubated the cells in an AFP-containing solution, replaced it with pure EC solution, and then preserved the cells, showing that no significant reduction in the cell survival rate occurred for type I and II AFPs even after replacement. Thus, these AFPs irreversibly bind to the cells at 4 °C, and only tightly adsorbed AFP molecules contribute towards the cell-protection function., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:Tatsuya Arai reports financial support was provided by Japan Society for the Promotion of Science., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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26. Structural bases for the Charcot-Marie-Tooth disease induced by single amino acid substitutions of myelin protein zero.

Author

Sakakura M, Tanabe M, Mori M, Takahashi H, and Mio K

Subjects
Humans, Myelin P0 Protein genetics, Amino Acid Substitution, Phenotype, Mutation, Charcot-Marie-Tooth Disease genetics
Abstract

Myelin protein zero (MPZ or P0) is a transmembrane protein which functions to glue membranes in peripheral myelin. Inter-membrane adhesion is mediated by homophilic interactions between the extracellular domains (ECDs) of MPZ. Single amino acid substitutions in an ECD cause demyelinating neuropathy, Charcot-Marie-Tooth disease (CMT), with unknown mechanisms. In this study, by using a novel assay system "nanomyelin," we revealed that a stacked-rings-like ECD-8-mer is responsible for membrane adhesion. Two inter-ECD interactions, cis and head-to-head, are essential to constituting the 8-mer and to gluing the membranes. This result was reinforced by the observation that the CMT-related N87H substitution at the cis interface abolished membrane-adhesion activity. In contrast, the CMT-related D32G and E68V variants retained membrane-stacking activity, whereas their thermal stability was lower than that of the WT. Reduced thermal stability may lead to impairment of the long-term stability of ECD and the layered membranes of myelin., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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27. Molecular Dynamics Mappings of the CCT/TRiC Complex-Mediated Protein Folding Cycle Using Diffracted X-ray Tracking.

Author

Araki K, Watanabe-Nakayama T, Sasaki D, Sasaki YC, and Mio K

Subjects
Animals, X-Rays, Group II Chaperonins chemistry, Group II Chaperonins metabolism, Chaperonins metabolism, Adenosine Triphosphate metabolism, Nucleotides, Chaperonin Containing TCP-1 chemistry, Protein Conformation, Mammals metabolism, Molecular Dynamics Simulation, Protein Folding
Abstract

The CCT/TRiC complex is a type II chaperonin that undergoes ATP-driven conformational changes during its functional cycle. Structural studies have provided valuable insights into the mechanism of this process, but real-time dynamics analyses of mammalian type II chaperonins are still scarce. We used diffracted X-ray tracking (DXT) to investigate the intramolecular dynamics of the CCT complex. We focused on three surface-exposed loop regions of the CCT1 subunit: the loop regions of the equatorial domain (E domain), the E and intermediate domain (I domain) juncture near the ATP-binding region, and the apical domain (A domain). Our results showed that the CCT1 subunit predominantly displayed rotational motion, with larger mean square displacement (MSD) values for twist (χ) angles compared with tilt (θ) angles. Nucleotide binding had a significant impact on the dynamics. In the absence of nucleotides, the region between the E and I domain juncture could act as a pivotal axis, allowing for greater motion of the E domain and A domain. In the presence of nucleotides, the nucleotides could wedge into the ATP-binding region, weakening the role of the region between the E and I domain juncture as the rotational axis and causing the CCT complex to adopt a more compact structure. This led to less expanded MSD curves for the E domain and A domain compared with nucleotide-absent conditions. This change may help to stabilize the functional conformation during substrate binding. This study is the first to use DXT to probe the real-time molecular dynamics of mammalian type II chaperonins at the millisecond level. Our findings provide new insights into the complex dynamics of chaperonins and their role in the functional folding cycle.

Published
2023
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28. Real-Time Observation of Capsaicin-Induced Intracellular Domain Dynamics of TRPV1 Using the Diffracted X-ray Tracking Method.

Author

Mio K, Ohkubo T, Sasaki D, Arai T, Sugiura M, Fujimura S, Nozawa S, Sekiguchi H, Kuramochi M, and Sasaki YC

Abstract

The transient receptor potential vanilloid type 1 (TRPV1) is a multimodal receptor which responds to various stimuli, including capsaicin, protons, and heat. Recent advances in cryo-electron microscopy have revealed the structures of TRPV1. However, due to the large size of TRPV1 and its structural complexity, the detailed process of channel gating has not been well documented. In this study, we applied the diffracted X-ray tracking (DXT) technique to analyze the intracellular domain dynamics of the TRPV1 protein. DXT enables the capture of intramolecular motion through the analysis of trajectories of Laue spots generated from attached gold nanocrystals. Diffraction data were recorded at two different frame rates: 100 μs/frame and 12.5 ms/frame. The data from the 100 μs/frame recording were further divided into two groups based on the moving speed, using the lifetime filtering technique, and they were analyzed separately. Capsaicin increased the slope angle of the MSD curve of the C-terminus in 100 μs/frame recording, which accompanied a shifting of the rotational bias toward the counterclockwise direction, as viewed from the cytoplasmic side. This capsaicin-induced fluctuation was not observed in the 12.5 ms/frame recording, indicating that it is a high-frequency fluctuation. An intrinsiccounterclockwise twisting motion was observed in various speed components at the N-terminus, regardless of the capsaicin administration. Additionally, the competitive inhibitor AMG9810 induced a clockwise twisting motion, which is the opposite direction to capsaicin. These findings contribute to our understanding of the activation mechanisms of the TRPV1 channel.

Published
2023
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29. The effect of ice-binding proteins on the cryopreservation of Caenorhabditis elegans .

Author

Kuramochi M, Arai T, Mio K, Tsuda S, and Sasaki YC

Abstract

Ice-binding proteins (IBPs) are capable of binding ice crystals and inhibiting their growth. IBPs have also been reported to stabilize cell membranes under non-freezing conditions. The effects of IBPs help to reduce cold- and freezing-induced damage to cells and tissues in cryopreservation. Here, we examined whether certain IBPs, namely, fish NfeIBP6 and NfeIBP8 and fungal AnpIBP1a N55D (AnpIBP), improve the recovery rate of the nematode Caenorhabditis elegans after a deep cryopreservation at -80°C. The expression of fungus-derived AnpIBP in C. elegans significantly improved its recovery rate. This result provides useful information to establish a cryopreservation technique for long-term storage using IBP molecules., Competing Interests: The authors declare that there are no conflicts of interest present., (Copyright: © 2023 by the authors.)

Published
2023
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30. A single administration of barley β-glucan and arabinoxylan extracts reduces blood glucose levels at the second meal via intestinal fermentation.

Author

Mio K, Togo-Ohno M, Tadenuma N, Ogawa R, Yamanaka C, and Aoe S

Subjects
Mice, Animals, Blood Glucose, Dietary Fiber pharmacology, Fermentation, Glucagon-Like Peptide 1, Hordeum, beta-Glucans pharmacology
Abstract

Diet with barley may suppress the glycemic response after consuming the next meal ("second meal effect"). This study aimed to investigate the second meal effect and its mechanism. Mice were given a single dose of β-glucan or arabinoxylan, the primary sources of soluble fiber in barley. A single dose of β-glucan or arabinoxylan extract, followed 6 h later by a 20% glucose solution (second meal), suppressed blood glucose elevation. Arabinoxylan and β-glucan increased the levels of short-chain fatty acids (SCFAs) in the ileum and cecum, respectively. Total GLP-1 secretion in the blood increased with β-glucan and showed an increasing trend with arabinoxylan. These results suggest barley β-glucan and arabinoxylan are fermented in the intestinal tract to generate SCFAs, which may induce GLP-1 secretion and control blood glucose levels during the second meal., (© The Author(s) 2022. Published by Oxford University Press on behalf of Japan Society for Bioscience, Biotechnology, and Agrochemistry.)

Published
2022
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31. Visualizing Intramolecular Dynamics of Membrane Proteins.

Author

Ohkubo T, Shiina T, Kawaguchi K, Sasaki D, Inamasu R, Yang Y, Li Z, Taninaka K, Sakaguchi M, Fujimura S, Sekiguchi H, Kuramochi M, Arai T, Tsuda S, Sasaki YC, and Mio K

Subjects
Cryoelectron Microscopy, Kinetics, Microscopy, Atomic Force methods, Membrane Proteins, Nanotechnology
Abstract

Membrane proteins play important roles in biological functions, with accompanying allosteric structure changes. Understanding intramolecular dynamics helps elucidate catalytic mechanisms and develop new drugs. In contrast to the various technologies for structural analysis, methods for analyzing intramolecular dynamics are limited. Single-molecule measurements using optical microscopy have been widely used for kinetic analysis. Recently, improvements in detectors and image analysis technology have made it possible to use single-molecule determination methods using X-rays and electron beams, such as diffracted X-ray tracking (DXT), X-ray free electron laser (XFEL) imaging, and cryo-electron microscopy (cryo-EM). High-speed atomic force microscopy (HS-AFM) is a scanning probe microscope that can capture the structural dynamics of biomolecules in real time at the single-molecule level. Time-resolved techniques also facilitate an understanding of real-time intramolecular processes during chemical reactions. In this review, recent advances in membrane protein dynamics visualization techniques were presented.

Published
2022
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32. A mutation to a fish ice-binding protein synthesized in transgenic Caenorhabditis elegans modulates its cold tolerance.

Author

Kuramochi M, Zhu S, Takanashi C, Yang Y, Arai T, Shinkai Y, Doi M, Mio K, Tsuda S, and Sasaki YC

Subjects
Animals, Alanine genetics, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Carrier Proteins metabolism, Fish Proteins genetics, Freezing, Mutant Proteins metabolism, Mutation, Antifreeze Proteins chemistry, Antifreeze Proteins genetics, Antifreeze Proteins metabolism, Ice
Abstract

A cryoprotectant known as ice-binding protein (IBP) is thought to facilitate the cold survival of plants, insects, and fungi. Here, we prepared a genetically modified Caenorhabditis elegans strain to synthesize fish-derived IBPs in its body wall muscles and examined whether the antifreeze activity modification of this IBP by point mutation affects the cold tolerance of this worm. We chose a 65-residue IBP identified from notched-fin eelpout, for which the replacement of the 20th alanine residue (A20) modifies its antifreeze activity. These mutant proteins are denoted A20L, A20G, A20T, A20V, and A20I along with the wild-type (WT) protein. We evaluated the survival rate (%) of the transgenic C. elegans that synthesized each IBP mutant following 24 h of preservation at -5, +2, and +5 °C. Significantly, a dramatic improvement in the survival rate was detected for the worms synthesizing the activity-enhanced mutants (A20T and A20I), especially at +2 °C. In contrast, the rate was not improved by the expression of the defective mutants (A20L, A20G, WT and A20V). The survival rate (%) probably correlates with the antifreeze activity of the IBP. These data suggest that IBP protects the cell membrane by employing its ice-binding mechanism, which ultimately improves the cold tolerance of an IBP-containing animal., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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33. Consumption of barley flour increases gut fermentation and improves glucose intolerance via the short-chain fatty acid receptor GPR43 in obese male mice.

Author

Mio K, Iida-Tanaka N, Yamanaka C, Kimura I, and Aoe S

Subjects
Mice, Male, Animals, Mice, Obese, Blood Glucose, Flour, Fermentation, Mice, Inbred C57BL, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Fatty Acids, Volatile, Glucagon-Like Peptide 1, Mice, Knockout, Obesity, Glucose Intolerance, Hordeum metabolism, beta-Glucans pharmacology
Abstract

Barley consumption is expected to increase insulin sensitivity by increasing the level of short-chain fatty acids (SCFAs) and promoting the secretion of GLP-1. However, the involvement of GPR43, a receptor for SCFAs, has not been investigated. Therefore, we evaluated whether the inhibitory effect of β-glucan-rich barley intake on blood glucose rise is mediated by GPR43 signalling via an increase of SCFAs. C57BL/6J mice and GPR43-knockout mice were fed high-fat diets with either cellulose (HC) or β-glucan-rich barley flour (HB) for 12 weeks. The level of SCFAs in cecum contents was measured and the concentration of GLP-1 in the portal vein was determined. The supernatant of the cecum contents of C57BL/6J mice was added to GLUTag cells, and then the changes to GLP-1 and intracellular Ca 2+ concentrations determined. The same parameters were measured using cells in which GPR43 was knocked down by siRNA. C57BL/6J mice fed HB diets showed a suppressed glucose rise compared to those on the HC diet. Cecum SCFAs and GLP-1 concentration in the portal vein were also increased by the HB diet. When an aqueous solution from the cecum content of mice fed a HB diet was added to GLUTag cells, GLP-1 secretion and intracellular Ca 2+ concentration were increased. These phenomena were not observed in cells with knockdown of GPR43. In GPR43 knockout mice an increase of GLP-1 in the portal vein and suppression of blood glucose elevation was attenuated, despite increased SCFAs brought on by the HB diet. In conclusion, GPR43 activation in the intestinal tract via increased SCFAs is required for the glucose intolerance-improving effect of barley consumption.

Published
2022
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34. Hypercalcemia worsened after vitamin D supplementation in a sarcoidosis patient: A case report.

Author

Mio K, Haruhara K, Shimizu A, Oshiro K, Kawai R, Ikeda M, and Yokoo T

Subjects
Calcium, Cholecalciferol adverse effects, Dietary Supplements adverse effects, Humans, Male, Middle Aged, Mixed Function Oxygenases, Vitamin D therapeutic use, Acute Kidney Injury chemically induced, Acute Kidney Injury complications, Hypercalcemia chemically induced, Hypercalcemia drug therapy, Sarcoidosis complications, Sarcoidosis drug therapy
Abstract

Rationale: There are many causes of hypercalcemia, with hyperparathyroidism and malignancy accounting for 90% of cases. Sarcoidosis and the intake of vitamin D supplements may also cause hypercalcemia, although the occurrence rate is low if only one is involved. We herein report a sarcoidosis patient who developed hypercalcemia after taking cholecalciferol (vitamin D supplement) for a year., Patient Concern: A 62-year-old Japanese man presented with hypercalcemia and acute kidney injury along with symptoms of fatigue and appetite loss while being followed up for sarcoidosis., Diagnoses: We determined that a combination of cholecalciferol supplementation and sarcoidosis had led to hypercalcemia for several reasons. First, hypercalcemia had not been noted when this patient had first been admitted due to sarcoidosis-related respiratory failure several years earlier, which we presumed that was the highest sarcoidosis disease activity. Second, low serum 25-OH Vit.D3 and high 1,25-(OH)2 Vit.D3 levels were noted despite cholecalciferol supplementation for a year, suggesting that 1-α-hydroxylase overexpression caused by sarcoidosis accelerated the conversion from 25-OH Vit.D3 to 1,25-(OH)2 Vit.D3., Interventions: Although initially resistant to preservative management, the hypercalcemia promptly improved after starting corticosteroid treatment., Outcomes: Hypercalcemia and acute kidney injury were normalized after corticosteroid treatment., Lessons: We should be aware of patients' medications, especially in patients with granulomatosis disease. The concomitant measurement of 25-OH Vit.D3 and 1,25-(OH)2 Vit.D3 levels is useful for determining the cause of hypercalcemia., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2022 the Author(s). Published by Wolters Kluwer Health, Inc.)

Published
2022
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35. Arabinoxylan as well as β-glucan in barley promotes GLP-1 secretion by increasing short-chain fatty acids production.

Author

Mio K, Ogawa R, Tadenuma N, and Aoe S

Abstract

Barley is rich in soluble dietary fiber including β-glucan and arabinoxylan. Barley β-glucan is fermented by gut bacteria and, thereby contributes to an effect on intestinal bacterial composition and short-chain fatty acids (SCFAs). It also increases GLP-1 secretion via SCFAs receptor. However, few studies have focused on barley arabinoxylan. Therefore, we have investigated the effects of arabinoxylan from barley on intestinal fermentability and GLP-1 secretion. C57BL/6J mice were fed a high-fat diet containing arabinoxylan-dominant barley flour without β-glucan (bgl) and high β-glucan-containing barley flour (BF) for 12 weeks. We conducted oral glucose tolerance test (OGTT) to measure insulin and GLP-1 concentrations. The concentration of SCFAs in the cecum contents was also determined. Furthermore, we measured mRNA expression assay GLP-1 secretion using real-time PCR. The OGTT result showed that GLP-1 concentrations at 60 min were increased in mice fed bgl and BF. Acetic acid and total SCFAs concentrations in the cecum contents were increased in both the barley groups, and butyric acid was increased in the bgl group. Furthermore, the bgl and BF groups had increased Gpr43, a receptor for SCFAs, and NeuroD which is involved in L cell differentiation. These results show arabinoxylan as well as β-glucan is involved in the SCFAs-mediated increase in GLP-1 secretion upon barley consumption., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Seiichiro Aoe reports financial support was provided by Hakubaku Co., Ltd. Kento Mio reports a relationship with Hakubaku Co., Ltd that includes: employment., (© 2022 The Authors.)

Published
2022
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36. Dynamic observations of various oligomers in amyloid β isoforms using laboratory diffracted X-ray blinking.

Author

Chang J, Arai T, Kuramochi M, Inamasu R, Lee Z, Ohkubo T, Mio K, and Sasaki YC

Abstract

Acceleration of societal ageing has increased the global incidence of geriatric diseases such as Alzheimer's disease (AD), and the demands for proper diagnosis and monitoring of those diseases are also increasing daily. We utilized diffracted X-ray blinking (DXB) for amyloid β (A β ) isoforms, which are thought to be closely related to AD, to discriminate among the dynamics of individual particles in early and long-term oligomerisation and aggregation inhibiting environments. Among the various A β isoforms, the dynamics of A β (1-42), which is known to be the most toxic form, were the slowest (the dynamics were lower by 78% com-pared with short-term incubation), and the dynamics were restored (the dynamics increased by 105% compared with normal aggregation) in an environment that suppressed oligomerisation of A β (1-42). It has been confirmed that the use of DXB allows measurements of dynamics related to the functional states of the target molecules., (© 2022 The Author(s).)

Published
2022
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37. Diffracted X-ray Tracking Method for Measuring Intramolecular Dynamics of Membrane Proteins.

Author

Fujimura S, Mio K, Ohkubo T, Arai T, Kuramochi M, Sekiguchi H, and Sasaki YC

Subjects
Motion, Nanotechnology, X-Ray Diffraction, X-Rays, Gold chemistry, Membrane Proteins
Abstract

Membrane proteins change their conformations in response to chemical and physical stimuli and transmit extracellular signals inside cells. Several approaches have been developed for solving the structures of proteins. However, few techniques can monitor real-time protein dynamics. The diffracted X-ray tracking method (DXT) is an X-ray-based single-molecule technique that monitors the internal motion of biomolecules in an aqueous solution. DXT analyzes trajectories of Laue spots generated from the attached gold nanocrystals with a two-dimensional axis by tilting ( θ ) and twisting ( χ ). Furthermore, high-intensity X-rays from synchrotron radiation facilities enable measurements with microsecond-timescale and picometer-spatial-scale intramolecular information. The technique has been applied to various membrane proteins due to its superior spatiotemporal resolution. In this review, we introduce basic principles of DXT, reviewing its recent and extended applications to membrane proteins and living cells, respectively.

Published
2022
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38. Dynamic motions of ice-binding proteins in living Caenorhabditis elegans using diffracted X-ray blinking and tracking.

Author

Kuramochi M, Dong Y, Yang Y, Arai T, Okada R, Shinkai Y, Doi M, Aoyama K, Sekiguchi H, Mio K, Tsuda S, and Sasaki YC

Abstract

The dynamic properties of protein molecules are involved in the relationship between their structure and function. Time-resolved X-ray observation enables capturing the structures of biomolecules with picometre-scale precision. However, this technique has yet to be implemented in living animals. Here, we examined diffracted X-ray blinking (DXB) and diffracted X-ray tracking (DXT) to observe the dynamics of a protein located on intestinal cells in adult Caenorhabditis elegans . This in vivo tissue-specific DXB was examined at temperatures from 20 °C to -10 °C for a recombinant ice-binding protein from Antarctomyces psychrotrophicus (AnpIBP) connected with the cells through a transmembrane CD4 protein equipped with a glycine-serine linker. AnpIBP inhibits ice growth at subzero temperatures by binding to ice crystals. We found that the rotational motion of AnpIBP decreases at -10 °C. In contrast, the motion of the AnpIBP mutant, which has a defective ice-binding ability, did not decrease at -10 °C. The twisting and tilting motional speeds of AnpIBPs measured above 5 °C by DXT were always higher than those of the defective AnpIBP mutant. These results suggest that wild-type AnpIBP is highly mobile in solution, and it is halted at subzero temperatures through ice binding. DXB and DXT allow for exploring protein behaviour in live animals with subnano resolution precision., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published
2022
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39. Riboflavin transporter SLC52A1, a target of p53, suppresses cellular senescence by activating mitochondrial complex II.

Author

Nagano T, Awai Y, Kuwaba S, Osumi T, Mio K, Iwasaki T, and Kamada S

Subjects
Cell Line, Tumor, Electron Transport Complex II metabolism, Humans, Membrane Potential, Mitochondrial physiology, Membrane Transport Proteins metabolism, Mitochondria metabolism, Mitochondrial Membranes metabolism, Riboflavin metabolism, Signal Transduction physiology, Tumor Suppressor Protein p53 metabolism, Cellular Senescence physiology, Receptors, G-Protein-Coupled metabolism, Receptors, G-Protein-Coupled physiology
Abstract

Cellular senescence is a state of permanent proliferative arrest induced by a variety of stresses, such as DNA damage. The transcriptional activity of p53 has been known to be essential for senescence induction. It remains unknown, however, whether among the downstream genes of p53, there is a gene that has antisenescence function. Our recent studies have indicated that the expression of SLC52A1 (also known as GPR172B/RFVT1), a riboflavin transporter, is up-regulated specifically in senescent cells depending on p53, but the relationship between senescence and SLC52A1 or riboflavin has not been described. Here, we examined the role of SLC52A1 in senescence. We found that knockdown of SLC52A1 promoted senescence phenotypes induced by DNA damage in tumor and normal cells. The senescence suppressive action of SLC52A1 was dependent on its riboflavin transport activity. Furthermore, elevation of intracellular riboflavin led to activation of mitochondrial membrane potential (MMP) mediated by the mitochondrial electron transport chain complex II. Finally, the SLC52A1-dependent activation of MMP inhibited the AMPK-p53 pathway, a central mediator of mitochondria dysfunction-related senescence. These results suggest that SLC52A1 contributes to suppress senescence through the uptake of riboflavin and acts downstream of p53 as a negative feedback mechanism to limit aberrant senescence induction.

Published
2021
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40. Microarray Analysis of Paramylon, Isolated from Euglena Gracilis EOD-1, and Its Effects on Lipid Metabolism in the Ileum and Liver in Diet-Induced Obese Mice.

Author

Aoe S, Yamanaka C, and Mio K

Subjects
Abdominal Fat metabolism, Animals, Blood Glucose metabolism, Body Weight, Diet, Eating, Euglena gracilis chemistry, Gene Expression Regulation, Gene Ontology, Glucans chemistry, Glucans isolation & purification, Glucans pharmacology, Immunoglobulin A, Secretory blood, Lipids blood, Male, Metabolic Networks and Pathways genetics, Mice, Mice, Inbred C57BL, Oligonucleotide Array Sequence Analysis, Organ Size, RNA, Messenger genetics, RNA, Messenger metabolism, Signal Transduction genetics, Dietary Supplements, Glucans administration & dosage, Ileum metabolism, Lipid Metabolism, Liver metabolism, Obesity metabolism
Abstract

We previously showed that supplementation of a high fat diet with paramylon (PM) reduces the postprandial glucose rise, serum total and LDL cholesterol levels, and abdominal fat accumulation in mice. The purpose of this study was to explore the underlying mechanism of PM using microarray analysis. Male mice (C57BL/BL strain) were fed an experimental diet (50% fat energy) containing 5% PM isolated from Euglena gracilis EOD-1 for 12 weeks. After confirming that PM had an improving effect on lipid metabolism, we assessed ileal and hepatic mRNA expression using DNA microarray and subsequent analysis by gene ontology (GO) classification and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis. The results suggested that dietary supplementation with PM resulted in decreased abdominal fat accumulation and serum LDL cholesterol concentrations via suppression of the digestion and absorption pathway in the ileum and activation of the hepatic PPAR signaling pathway. Postprandial glucose rise was reduced in mice fed PM, whereas changes in the glucose metabolism pathway were not detected in GO classification and KEGG pathway analysis. PM intake might enhance serum secretory immunoglobulin A concentrations via promotion of the immunoglobulin production pathway in the ileum.

Published
2021
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41. Laboratory diffracted x-ray blinking to monitor picometer motions of protein molecules and application to crystalline materials.

Author

Arai T, Inamasu R, Yamaguchi H, Sasaki D, Sato-Tomita A, Sekiguchi H, Mio K, Tsuda S, Kuramochi M, and Sasaki YC

Abstract

In recent years, real-time observations of molecules have been required to understand their behavior and function. To date, we have reported two different time-resolved observation methods: diffracted x-ray tracking and diffracted x-ray blinking (DXB). The former monitors the motion of diffracted spots derived from nanocrystals labeled onto target molecules, and the latter measures the fluctuation of the diffraction intensity that is highly correlated with the target molecular motion. However, these reports use a synchrotron x-ray source because of its high average flux, resulting in a high time resolution. Here, we used a laboratory x-ray source and DXB to measure the internal molecular dynamics of three different systems. The samples studied were bovine serum albumin (BSA) pinned onto a substrate, antifreeze protein (AFP) crystallized as a single crystal, and poly{2-(perfluorooctyl)ethyl acrylate} (PC 8 FA) polymer between polyimide sheets. It was found that not only BSA but also AFP and PC 8 FA molecules move in the systems. In addition, the molecular motion of AFP molecules was observed to increase with decreasing temperature. The rotational diffusion coefficients (D R ) of BSA, AFP, and PC 8 FA were estimated to be 0.73 pm 2 /s, 0.65 pm 2 /s, and 3.29 pm 2 /s, respectively. Surprisingly, the D R of the PC 8 FA polymer was found to be the highest among the three samples. This is the first report that measures the molecular motion of a single protein crystal and polymer by using DXB with a laboratory x-ray source. This technique can be applied to any kind of crystal and crystalline polymer and provides atomic-order molecular information., (© 2021 Author(s).)

Published
2021
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42. Diffracted X-ray blinking measurements of interleukin 15 receptors in the inner/outer membrane of living NK cells.

Author

Chang J, Baek Y, Lee I, Sekiguchi H, Ichiyanagi K, Mio K, Nozawa S, Fukaya R, Adachi SI, Kuramochi M, and Sasaki YC

Subjects
Cell Survival, Diffusion, Humans, Hydroxybenzoates, Interleukin-15 metabolism, Interleukin-2 metabolism, Molecular Dynamics Simulation, Nitrofurans, Protein Domains, Substrate Specificity, Killer Cells, Natural cytology, Killer Cells, Natural metabolism, Receptors, Interleukin-15 analysis, Receptors, Interleukin-15 metabolism, X-Ray Diffraction methods
Abstract

Interleukin 15 receptor (IL-15R) is a transmembrane signalling protein consisting of 3 subsets: α, β (IL-15Rβ), and γ (γ c ). IL-2 and IL-15 share the signalling domains IL-15Rβ and γ c , although they bind to intrinsic α-subsets and non-signalling domains. Additionally, IL-2 and IL-15 play different roles; therefore, there have been many observations of the dynamic behaviours of IL-15R, which are linked to physiological functions. For more practical discrimination between IL-2 and IL-15, a study was designed and carried out in which α-subsets were removed and a cytoplasmic inhibitor was applied to create a simplified environment in which secondary signalling molecules were reduced. We also applied a new measurement method, diffracted X-ray blinking (DXB), to achieve higher accuracy (<0.01 Å). The dynamics of IL-2 binding (confined motion, max range = 0.71 Å) and IL-15 binding (normal motion) in live natural killer cells were different. We also confirmed. that DXB was a suitable method to quantitatively evaluate the transmembrane protein dynamics of inner/outer live cell membranes by labeling the extracellular domain since the measurements were dependent on the cytosolic environment., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2021
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43. The involvement of Nile tilapia (Oreochromis niloticus) Neu4 sialidase in neural differentiation during early ontogenesis.

Author

Honda A, Hayasaka O, Mio K, Fujimura K, Kotani T, Komatsu M, and Shiozaki K

Subjects
Animals, Embryo, Nonmammalian embryology, Fish Proteins metabolism, Neuraminidase metabolism, Neurogenesis, Tilapia embryology
Abstract

Neurogenesis is an important process for the formation of the central nervous system during ontogenesis. Mammalian sialidases are involved in neurogenesis through desialylation of sialo-glycoconjugates. However, the significance of fish sialidases, unlike that of mammals, in neurogenesis has not been investigated. The present study focuses on Nile tilapia (Oreochromis niloticus) because of its unique profiles of sialidases related to enzymatic properties, subcellular localization, and tissue-specific gene expression. First, the fish were cultured under aphotic condition, which is known to cause the delayed development of the retina and brain in various fish. Next, we investigate the effect of aphotic condition on the levels of tilapia sialidases. Our results revealed that the tilapia showed a decrease in the number of ganglion cell in the retina. The expression level of neu4 mRNA is up-regulated in the eyes from tilapia reared in Dark accompanied by the increase of retinal differentiation markers. These results indicated that tilapia Neu4 is involved in retinal development in Nile tilapia. Furthermore, we tried to clarify the function of tilapia Neu4 in the neuronal cells using two neuroblast cell lines (SH-SY5Y and Neuro2a cell lines). Tilapia Neu4 decreased sialic acid level of both nuclear glycoproteins as well as glycolipids. Moreover, tilapia Neu4 accelerated neurite formation in both two neural cell lines and, increased the acetylcholinesterase activity, but it did not affect cell proliferation. Collectively, these results suggest that Neu4 accelerates neurite differentiation during ontogenesis in tilapia., (Copyright © 2021 Elsevier B.V. and Société Française de Biochimie et Biologie Moléculaire (SFBBM). All rights reserved.)

Published
2021
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44. Living-Cell Diffracted X-ray Tracking Analysis Confirmed Internal Salt Bridge Is Critical for Ligand-Induced Twisting Motion of Serotonin Receptors.

Author

Mio K, Fujimura S, Ishihara M, Kuramochi M, Sekiguchi H, Kubo T, and Sasaki YC

Subjects
Carrier Proteins metabolism, Crystallography, X-Ray methods, Gold, HEK293 Cells, Humans, Ions metabolism, Ligands, Nanotechnology methods, Receptors, Serotonin metabolism, Receptors, Serotonin physiology, X-Ray Diffraction methods, X-Rays, Receptor, Serotonin, 5-HT2A metabolism, Receptor, Serotonin, 5-HT2A physiology, Single Molecule Imaging methods
Abstract

Serotonin receptors play important roles in neuronal excitation, emotion, platelet aggregation, and vasoconstriction. The serotonin receptor subtype 2A (5-HT 2A R) is a Gq-coupled GPCR, which activate phospholipase C. Although the structures and functions of 5-HT 2A Rs have been well studied, little has been known about their real-time dynamics. In this study, we analyzed the intramolecular motion of the 5-HT 2A R in living cells using the diffracted X-ray tracking (DXT) technique. The DXT is a very precise single-molecular analytical technique, which tracks diffraction spots from the gold nanocrystals labeled on the protein surface. Trajectory analysis provides insight into protein dynamics. The 5-HT 2A Rs were transiently expressed in HEK 293 cells, and the gold nanocrystals were attached to the N-terminal introduced FLAG-tag via anti-FLAG antibodies. The motions were recorded with a frame rate of 100 μs per frame. A lifetime filtering technique demonstrated that the unliganded receptors contain high mobility population with clockwise twisting. This rotation was, however, abolished by either a full agonist α-methylserotonin or an inverse agonist ketanserin. Mutation analysis revealed that the "ionic lock" between the DRY motif in the third transmembrane segment and a negatively charged residue of the sixth transmembrane segment is essential for the torsional motion at the N-terminus of the receptor.

Published
2021
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45. Ingestion of High β-Glucan Barley Flour Enhances the Intestinal Immune System of Diet-Induced Obese Mice by Prebiotic Effects.

Author

Mio K, Otake N, Nakashima S, Matsuoka T, and Aoe S

Subjects
Animals, Bacterial Load, Body Weight, Carboxylic Acids analysis, Cecum chemistry, Cecum microbiology, Cytokines genetics, Cytokines metabolism, Diet, Eating, Fatty Acids, Volatile analysis, Feces chemistry, Gastrointestinal Microbiome, Gene Expression Profiling, Ileum metabolism, Immunoglobulin A, Secretory analysis, Immunoglobulin A, Secretory blood, Male, Mice, Mice, Inbred C57BL, Organ Size, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, Polymeric Immunoglobulin genetics, Receptors, Polymeric Immunoglobulin metabolism, Cecum immunology, Flour, Hordeum, Ileum immunology, Obesity immunology, Prebiotics, beta-Glucans analysis
Abstract

The prebiotic effect of high β-glucan barley (HGB) flour on the innate immune system of high-fat model mice was investigated. C57BL/6J male mice were fed a high-fat diet supplemented with HGB flour for 90 days. Secretory immunoglobulin A (sIgA) in the cecum and serum were analyzed by enzyme-linked immunosorbent assays (ELISA). Real-time PCR was used to determine mRNA expression levels of pro- and anti-inflammatory cytokines such as interleukin (IL)-10 and IL-6 in the ileum as well as the composition of the microbiota in the cecum. Concentrations of short-chain fatty acids (SCFAs) and organic acids were analyzed by GC/MS. Concentrations of sIgA in the cecum and serum were increased in the HGB group compared to the control. Gene expression levels of IL-10 and polymeric immunoglobulin receptor ( pIgR ) significantly increased in the HGB group. HGB intake increased the bacterial count of microbiota, such as Bifidobacterium and Lactobacillus . Concentrations of propionate and lactate in the cecum were increased in the HGB group, and a positive correlation was found between these organic acids and the IL-10 expression level. Our findings showed that HGB flour enhanced immune function such as IgA secretion and IL-10 expression, even when the immune system was deteriorated by a high-fat diet. Moreover, we found that HGB flour modulated the gut microbiota, which increased the concentration of SCFAs, thereby stimulating the immune system.

Published
2021
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46. Tilting and rotational motions of silver halide crystal with diffracted X-ray blinking.

Author

Kuramochi M, Omata H, Ishihara M, Hanslin SØ, Mizumaki M, Kawamura N, Osawa H, Suzuki M, Mio K, Sekiguchi H, and Sasaki YC

Abstract

The dynamic properties of crystalline materials are important for understanding their local environment or individual single-grain motions. A new time-resolved observation method is required for use in many fields of investigation. Here, we developed in situ diffracted X-ray blinking to monitor high-resolution diffraction patterns from single-crystal grains with a 50 ms time resolution. The diffraction spots of single grains of silver halides and silver moved in the θ and χ directions during the photolysis chemical reaction. The movements of the spots represent tilting and rotational motions. The time trajectory of the diffraction intensity reflecting those motions was analysed by using single-pixel autocorrelation function (sp-ACF). Single-pixel ACF analysis revealed significant differences in the distributions of the ACF decay constants between silver halides, suggesting that the motions of single grains are different between them. The rotational diffusion coefficients for silver halides were estimated to be accurate at the level of approximately 0.1 to 0.3 pm 2 /s. Furthermore, newly formed silver grains on silver halides correlated with their ACF decay constants. Our high-resolution atomic scale measurement-sp-ACF analysis of diffraction patterns of individual grains-is useful for evaluating physical properties that are broadly applicable in physics, chemistry, and materials science.

Published
2021
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47. Low Molecular Weight Barley β-Glucan Affects Glucose and Lipid Metabolism by Prebiotic Effects.

Author

Aoe S, Mio K, Yamanaka C, and Kuge T

Subjects
Animals, Bacteroides isolation & purification, Bacteroides metabolism, Bifidobacterium isolation & purification, Bifidobacterium metabolism, Cecum metabolism, Cecum microbiology, Fatty Acids, Volatile metabolism, Fermentation physiology, Glucose metabolism, Ileum metabolism, Ileum microbiology, Intestinal Mucosa metabolism, Intestinal Mucosa microbiology, Lipid Metabolism physiology, Liver metabolism, Male, Mice, Models, Animal, Gastrointestinal Microbiome physiology, Hordeum chemistry, Prebiotics administration & dosage, beta-Glucans administration & dosage
Abstract

We investigated the effect of low molecular weight barley β-glucan (LMW-BG) on cecal fermentation, glucose, and lipid metabolism through comparisons to high molecular weight β-glucan (HMW-BG). C57BL/6J male mice were fed a moderate-fat diet for 61 days. LMW-BG or HMW-BG was added to the diet corresponding to 4% β-glucan. We measured the apparent absorption of fat, serum biomarkers, the expression levels of genes involved in glucose and lipid metabolism in the liver and ileum, and bacterial counts of the major microbiota groups using real time PCR. The concentration of short-chain fatty acids (SCFAs) in the cecum was analyzed by GC/MS. Significant reductions in serum leptin, total- and LDL-cholesterol concentrations, and mRNA expression levels of sterol regulatory element-binding protein-1c (SREBP-1c) were observed in both BG groups. HMW-BG specific effects were observed in inhibiting fat absorption and reducing abdominal deposit fat, whereas LMW-BG specific effects were observed in increasing bacterial counts of Bifidobacterium and Bacteroides and cecal total SCFAs, acetate, and propionate. mRNA expression of neurogenin 3 was increased in the LMW-BG group. We report that LMW-BG affects glucose and lipid metabolism via a prebiotic effect, whereas the high viscosity of HMW-BG in the digestive tract is responsible for its specific effects.

Published
2020
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48. Agonist and Antagonist-Diverted Twisting Motions of a Single TRPV1 Channel.

Author

Fujimura S, Mio K, Kuramochi M, Sekiguchi H, Ikezaki K, Mio M, Hengphasatporn K, Shigeta Y, Kubo T, and Sasaki YC

Subjects
Motion, Protons, Capsaicin pharmacology, Hot Temperature
Abstract

Transient receptor potential vanilloid type 1 (TRPV1) channels are activated by heat, vanilloids, and extracellular protons. Cryo-EM has revealed various conformations of TRPV1, and these structures suggest an intramolecular twisting motion in response to ligand binding. However, limited experimental data support this observation. Here, we analyzed the intramolecular motion of TRPV1 using diffracted X-ray tracking (DXT). DXT analyzes trajectories of Laue spots generated from attached gold nanocrystals and provides picometer spatial and microsecond time scale information about the intramolecular motion. We observed that both an agonist and a competitive antagonist evoked a rotating bias in TRPV1, though these biases were in opposing directions. Furthermore, the rotational bias generated by capsaicin was reversed between the wild-type and the capsaicin-insensitive Y511A mutant. Our findings bolster the understanding of the mechanisms used for activation and modulation of TRP channels, and this knowledge can be exploited for pharmacological usage such as inhibitor design.

Published
2020
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49. Effects of β-glucan Rich Barley Flour on Glucose and Lipid Metabolism in the Ileum, Liver, and Adipose Tissues of High-Fat Diet Induced-Obesity Model Male Mice Analyzed by DNA Microarray.

Author

Mio K, Yamanaka C, Matsuoka T, Kobayashi T, and Aoe S

Subjects
Animals, Diet, High-Fat, Disease Models, Animal, Flour, Hordeum, Male, Mice, Mice, Inbred C57BL, Oligonucleotide Array Sequence Analysis methods, Adipose Tissue metabolism, Glucose metabolism, Ileum metabolism, Lipid Metabolism drug effects, Liver metabolism, Obesity metabolism, beta-Glucans pharmacology
Abstract

We evaluated whether intake of β-glucan-rich barley flour affects expression levels of genes related to glucose and lipid metabolism in the ileum, liver, and adipose tissues of mice fed a high-fat diet. C57BL/6J male mice were fed a high-fat diet supplemented with high β-glucan barley, for 92 days. We measured the expression levels of genes involved in glucose and lipid metabolism in the ileum, liver, and adipose tissues using DNA microarray and q-PCR. The concentration of short-chain fatty acids (SCFAs) in the cecum was analyzed by GC/MS. The metabolic syndrome indices were improved by barley flour intake. Microarray analysis showed that the expression of genes related to steroid synthesis was consistently decreased in the liver and adipose tissues. The expression of genes involved in glucose metabolism did not change in these organs. In liver, a negative correlation was showed between some SCFAs and the expression levels of mRNA related to lipid synthesis and degradation. Barley flour affects lipid metabolism at the gene expression levels in both liver and adipose tissues. We suggest that SCFAs are associated with changes in the expression levels of genes related to lipid metabolism in the liver and adipose tissues, which affect lipid accumulation.

Published
2020
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50. X-ray-based living-cell motion analysis of individual serotonin receptors.

Author

Mio K, Ishihara M, Fujimura S, Sasaki D, Nozawa S, Ichiyanagi K, Fukaya R, Adachi SI, Kuramochi M, Sekiguchi H, Kubo T, and Sasaki YC

Subjects
Equipment Design, HEK293 Cells, Humans, Kinetics, Motion, Single Molecule Imaging instrumentation, Single Molecule Imaging methods, X-Ray Diffraction instrumentation, X-Ray Diffraction methods, Receptor, Serotonin, 5-HT2A analysis
Abstract

G protein-coupled receptors (GPCRs) are seven-transmembrane proteins, which transmit extracellular signals inside cells via activating G proteins. GPCRs are involved in a wide variety of physiological functions, such as signal sensing, immune system processes, and neurotransmission. Although the structures and functions of GPCRs have been well studied, little has been known about their real-time dynamics on live cells. In this study, we used Diffracted X-ray Tracking (DXT) and Diffracted X-ray Blinking (DXB) techniques for analysis. These methods are very precise single-molecular analytical techniques that elucidate protein dynamics by analyzing the diffraction spots from the gold nanocrystals labeled on the protein surface. DXT tracks diffraction spot movements, whereas DXB analyzes continuation of signals by calculating the autocorrelation function of each pixel from the recorded data. Serotonin receptor subtype 2A (5-HT 2A receptors) were transiently expressed on HEK 293 cells, and the gold nanocrystals were attached to the N-terminally introduced FLAG-tag via anti-FLAG antibodies. Fast- and mid-range motions were recorded by DXT with 100μs and 1.25 ms/frame rate, respectively. Slow-range motion was obtained using the DXB method with 100 ms/frame rate. An agonist interestingly suppressed the fluctuations of 5-HT 2A receptors at the microsecond-ranged fast measurement. On the contrary, the motion was enhanced by the agonist in the hundred-millisecond-ranged slow time scale. These dual-natured data may suggest that we succeeded in extracting different modes of receptor's motion on live cells; microsecond ranged fluctuation on the cell membrane, and millisecond-ranged dynamic movement comprising interactions with intracellular signaling molecules., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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