Your search keyword '"Shunsuke Imai"' showing total 11 results

1. Structural and dynamic insights into the activation of the μ-opioid receptor by an allosteric modulator

Author

Shun Kaneko, Shunsuke Imai, Tomomi Uchikubo-Kamo, Tamao Hisano, Nobuaki Asao, Mikako Shirouzu, and Ichio Shimada

Subjects

Science

Abstract

Abstract G-protein-coupled receptors (GPCRs) play pivotal roles in various physiological processes. These receptors are activated to different extents by diverse orthosteric ligands and allosteric modulators. However, the mechanisms underlying these variations in signaling activity by allosteric modulators remain largely elusive. Here, we determine the three-dimensional structure of the μ-opioid receptor (MOR), a class A GPCR, in complex with the Gi protein and an allosteric modulator, BMS-986122, using cryogenic electron microscopy. Our results reveal that BMS-986122 binding induces changes in the map densities corresponding to R1673.50 and Y2545.58, key residues in the structural motifs conserved among class A GPCRs. Nuclear magnetic resonance analyses of MOR in the absence of the Gi protein reveal that BMS-986122 binding enhances the formation of the interaction between R1673.50 and Y2545.58, thus stabilizing the fully-activated conformation, where the intracellular half of TM6 is outward-shifted to allow for interaction with the Gi protein. These findings illuminate that allosteric modulators like BMS-986122 can potentiate receptor activation through alterations in the conformational dynamics in the core region of GPCRs. Together, our results demonstrate the regulatory mechanisms of GPCRs, providing insights into the rational development of therapeutics targeting GPCRs.

Published

2024

2. Dynamically regulated two-site interaction of viral RNA to capture host translation initiation factor

Author

Shunsuke Imai, Hiroshi Suzuki, Yoshinori Fujiyoshi, and Ichio Shimada

Subjects

Science

Abstract

Abstract Many RNA viruses employ internal ribosome entry sites (IRESs) in their genomic RNA to commandeer the host’s translational machinery for replication. The IRES from encephalomyocarditis virus (EMCV) interacts with eukaryotic translation initiation factor 4 G (eIF4G), recruiting the ribosomal subunit for translation. Here, we analyze the three-dimensional structure of the complex composed of EMCV IRES, the HEAT1 domain fragment of eIF4G, and eIF4A, by cryo-electron microscopy. Two distinct eIF4G-interacting domains on the IRES are identified, and complex formation changes the angle therebetween. Further, we explore the dynamics of these domains by using solution NMR spectroscopy, revealing conformational equilibria in the microsecond to millisecond timescale. In the lowly-populated conformations, the base-pairing register of one domain is shifted with the structural transition of the three-way junction, as in the complex structure. Our study provides insights into the viral RNA’s sophisticated strategy for optimal docking to hijack the host protein.

Published

2023

3. Evaluation of the efficacy and safety of an integrated telerehabilitation platform for home-based cardiac REHABilitation in patients with heart failure (E-REHAB): protocol for a randomised controlled trial

Author

Ryosuke Murai, Keisuke Kida, Hiroshi Suzuki, Yasushi Sakata, Takayuki Ise, Shin-ichiro Miura, HIROKAZU KONDO, Yuichi Tamura, Misato Chimura, Tatsunori Taniguchi, Kensuke Takabayashi, Shinji Koba, Hiroyuki Miura, Emi Maekawa, Koki Matsuo, Wataru Fujimoto, Shunsuke Imai, Hideki Origuchi, Akiko Goda, Ryotaro Saita, and Atsushi Kikuchi

Subjects

Medicine

Abstract

Introduction Cardiac rehabilitation (CR) is strongly recommended as a medical treatment to improve the prognosis and quality of life of patients with heart failure (HF); however, participation rates in CR are low compared with other evidence-based treatments. One reason for this is the geographical distance between patients’ homes and hospitals. To address this issue, we developed an integrated telerehabilitation platform, RH-01, for home-based CR. We hypothesised that using the RH-01 platform for home-based CR would demonstrate non-inferiority compared with traditional centre-based CR.Methods and analysis The E-REHAB trial aims to evaluate the efficacy and safety of RH-01 for home-based CR compared with traditional centre-based CR for patients with HF. This clinical trial will be conducted under a prospective, randomised, controlled and non-inferiority design with a primary focus on HF patients. Further, to assess the generalisability of the results in HF to other cardiovascular disease (CVD), the study will also include patients with other CVDs. The trial will enrol 108 patients with HF and 20 patients with other CVD. Eligible HF patients will be randomly assigned to either traditional centre-based CR or home-based CR in a 1:1 fashion. Patients with other CVDs will not be randomised, as safety assessment will be the primary focus. The intervention group will receive a 12-week programme conducted two or three times per week consisting of a remotely supervised home-based CR programme using RH-01, while the control group will receive a traditional centre-based CR programme. The primary endpoint of this trial is change in 6 min walk distance.Ethics and dissemination The conduct of the study has been approved by an institutional review board at each participating site, and all patients will provide written informed consent before entry. The report of the study will be disseminated via scientific fora, including peer-reviewed publications and presentations at conferences.Trial registration number jRCT:2052200064.

Published

2023

4. Multimodality imaging to identify lipid-rich coronary plaques and predict periprocedural myocardial injury: Association between near-infrared spectroscopy and coronary computed tomography angiography

Author

Hideaki Ota, Hitoshi Matsuo, Shunsuke Imai, Yuki Nakashima, Yoshiaki Kawase, Munenori Okubo, Hiroshi Takahashi, Hideki Kawai, Yoshihiro Sobue, Masanori Kawasaki, Takeshi Kondo, Takashi Muramatsu, and Hideo Izawa

Subjects

near-infrared spectroscopy, coronary computed tomography angiography, lipid-rich plaque, percutaneous coronary intervention, periprocedural myocardial injury (PMI), Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

BackgroundThis study compares the efficacy of coronary computed tomography angiography (CCTA) and near-infrared spectroscopy intravascular ultrasound (NIRS–IVUS) in patients with significant coronary stenosis for predicting periprocedural myocardial injury during percutaneous coronary intervention (PCI).MethodsWe prospectively enrolled 107 patients who underwent CCTA before PCI and performed NIRS–IVUS during PCI. Based on the maximal lipid core burden index for any 4-mm longitudinal segments (maxLCBI4mm) in the culprit lesion, we divided the patients into two groups: lipid-rich plaque (LRP) group (maxLCBI4mm ≥ 400; n = 48) and no-LRP group (maxLCBI4mm

Published

2023

5. Function-Related Conformational Dynamics of GPCRs Revealed by Solution NMR

Author

Takumi UEDA, Yutaka KOFUKU, Koh TAKEUCHI, Shunsuke IMAI, Yutaro SHIRAISHI, and Ichio SHIMADA

Subjects

Earth-Surface Processes

Published

2022

6. Prolonged Survival in a Patient With Extensive-Stage Small Cell Lung Cancer in Spite of Discontinued Immunotherapy With Atezolizumab

Author

Kazuhisa Konishi, Hiroomi Kuwahara, Daiki Morita, Shunsuke Imai, and Kazuhiro Nagata

Subjects

General Engineering

Published

2023

7. A Case of Anal Canal Adenoneuroendocrine Carcinoma with Pagetoid Spread

Author

Katsuyoshi FURUMOTO, Shoshiro OE, Shunsuke IMAI, and Iwao IKAI

Subjects

General Engineering, General Earth and Planetary Sciences, General Environmental Science

Published

2022

8. Movement Patterns and Activity Range Characteristics of Sika Deer in the Tanzawa Mountains, Central Japan

Author

Zhao-Wen Jiang, Takayuki Haneda, Koji Nagata, Yusaku Yamada, Koya Nagai, Naoki Machida, and Shunsuke Imai

Published

2022

9. Paip2A inhibits translation by competitively binding to the RNA recognition motifs of PABPC1 and promoting its dissociation from the poly(A) tail

Author

Takeru Sagae, Mariko Yokogawa, Ryoichi Sawazaki, Yuichiro Ishii, Nao Hosoda, Shin-ichi Hoshino, Shunsuke Imai, Ichio Shimada, and Masanori Osawa

Subjects

Protein Biosynthesis, RNA-Binding Proteins, RNA, Messenger, Cell Biology, Poly A, Poly(A)-Binding Proteins, Molecular Biology, Biochemistry, RNA Recognition Motif, Protein Binding

Abstract

Eukaryotic mRNAs possess a poly(A) tail at their 3'-end, to which poly(A)-binding protein C1 (PABPC1) binds and recruits other proteins that regulate translation. Enhanced poly(A)-dependent translation, which is also PABPC1 dependent, promotes cellular and viral proliferation. PABP-interacting protein 2A (Paip2A) effectively represses poly(A)-dependent translation by causing the dissociation of PABPC1 from the poly(A) tail; however, the underlying mechanism remains unknown. This study was conducted to investigate the functional mechanisms of Paip2A action by characterizing the PABPC1-poly(A) and PABPC1-Paip2A interactions. Isothermal titration calorimetry and NMR analyses indicated that both interactions predominantly occurred at the RNA recognition motif (RRM)2-RRM3 regions of PABPC1, which have comparable affinities for poly(A) and Paip2A (dissociation constant, K

Published

2022

10. Function-related dynamics of GPCRs

Author

Takumi Ueda, Shunsuke Imai, and Ichio Shimada

Subjects

Nuclear and High Energy Physics, Magnetic Resonance Spectroscopy, Cryoelectron Microscopy, Molecular Conformation, Biophysics, Condensed Matter Physics, Biochemistry, Receptors, G-Protein-Coupled

Abstract

G protein-coupled receptors (GPCRs) include various neurotransmitters and hormones, and over 30% of modern drugs target GPCRs. The number of GPCR crystal structures has rapidly increased, and many structures of GPCRs in complexes with their binding partners are being solved by cryo-electron microscopy. However, crystallographic or cryo-electron microscopy data alone cannot fully explain the important features of GPCR signaling determined experimentally. Recent studies have suggested that GPCRs are structurally dynamic, and exchange between multiple conformations. In this respect, NMR methods provide information about the dynamics of proteins over a wide range of frequencies, in aqueous solutions at nearphysiological temperatures. Although NMR studies of GPCRs are challenging due to their innate instability and relatively large molecular weights, recent methodological advances have enabled us to observe the NMR signals of various GPCRs. These NMR studies revealed that GPCRs exist in function-related equilibria between locally different conformations that are simultaneously populated. Here we will describe solution NMR studies that have clarified the function-related conformational dynamics of two GPCRs, β

Published

2022

11. Activation mechanism of the µ-opioid receptor by an allosteric modulator.

Author

Shun Kaneko, Shunsuke Imai, Nobuaki Asao, Yutaka Kofuku, Takumi Ueda, and Ichio Shimada

Subjects

*METHYL groups, *LIGANDS (Biochemistry), *METHIONINE

Abstract

Allosteric modulators of G-protein-coupled receptors (GPCRs) enhance signaling by binding to GPCRs concurrently with their orthosteric ligands, offering a novel approach to overcome the efficacy limitations of conventional orthosteric ligands. However, the structural mechanism by which allosteric modulators mediate GPCR signaling remains largely unknown. Here, to elucidate the mechanism of µ-opioid receptor (MOR) activation by allosteric modulators, we conducted solution NMR analyses of MOR by monitoring the signals from methionine methyl groups. We found that the intracellular side of MOR exists in an equilibrium between three conformations with different activities. Interestingly, the populations in the equilibrium determine the apparent signaling activity of MOR. Our analyses also revealed that the equilibrium is not fully shifted to the conformation with the highest activity even in the full agonistbound state, where the intracellular half of TM6 is outward-shifted. Surprisingly, an allosteric modulator for MOR, BMS-986122, shifted the equilibrium toward the conformation with the highest activity, leading to the increased activity of MOR in the full agonist-bound state. We also determined that BMS-986122 binds to a cleft in the transmembrane region around T162 on TM3. Together, these results suggest that BMS-986122 binding to TM3 increases the activity of MOR by rearranging the direct interactions of TM3 and TM6, thus stabilizing TM6 in the outward-shifted position which is favorable for G-protein binding. These findings shed light on the rational developments of novel allosteric modulators that activate GPCRs further than orthosteric ligands alone and pave the way for next-generation GPCR-targeting therapeutics. [ABSTRACT FROM AUTHOR]

Published

2022