Your search keyword '"Yasuyuki Kimura"' showing total 9 results

1. First‑in‑human in vivo imaging and quantifcation of monoacylglycerol lipase in the brain: a PET study with 18F‑T‑401

Author

Keisuke, Takahata, Chie, Seki, Yasuyuki, Kimura, Manabu, Kubota, Masanori, Ichise, Yasunori, Sano, Yamamoto, Yasuharu, Kenji, Tagai, Hitoshi, Shimada, Soichiro, Kitamura, Kiwamu, Matsuoka, Hironobu, Endo, Hitoshi, Shinoto, Kazunori, Kawamura, Zhang, Ming-Rong, Yuhei, Takado, Makoto, Higuchi, Keisuke, Takahata, Chie, Seki, Yasuyuki, Kimura, Manabu, Kubota, Masanori, Ichise, Yasunori, Sano, Yamamoto, Yasuharu, Kenji, Tagai, Hitoshi, Shimada, Soichiro, Kitamura, Kiwamu, Matsuoka, Hironobu, Endo, Hitoshi, Shinoto, Kazunori, Kawamura, Zhang, Ming-Rong, Yuhei, Takado, and Makoto, Higuchi

Abstract

Purpose Monoacylglycerol lipase (MAGL) regulates cannabinoid neurotransmission and the pro-infammatory arachidonic acid pathway by degrading endocannabinoids. MAGL inhibitors may accordingly act as cannabinoid-potentiating and antiinfammatory agents. Although MAGL dysfunction has been implicated in neuropsychiatric disorders, it has never been visualized in vivo in human brain. The primary objective of the current study was to visualize MAGL in the human brain using the novel PET ligand 18F-T-401. Methods Seven healthy males underwent 120-min dynamic 18F-T-401-PET scans with arterial blood sampling. Six subjects also underwent a second PET scan with 18F-T-401 within 2 weeks of the frst scan. For quantifcation of MAGL in the human brain, kinetic analyses using one- and two-tissue compartment models (1TCM and 2TCM, respectively), along with multilinear analysis (MA1) and Logan graphical analysis, were performed. Time-stability and test–retest reproducibility of 18F-T-401-PET were also evaluated. Results 18F-T-401 showed rapid uptake and gradual washout from the brain. Logan graphical analysis showed linearity in all subjects, indicating reversible radioligand kinetics. Using a metabolite-corrected arterial input function, MA1 estimated regional total distribution volume (VT) values by best identifability. VT values were highest in the cerebral cortex, moderate in the thalamus and putamen, and lowest in white matter and the brainstem, which was in agreement with regional MAGL expression in the human brain. Time-stability analysis showed that MA1 estimated VT values with a minimal bias even using truncated 60-min scan data. Test–retest reliability was also excellent with the use of MA1. Conclusions Here, we provide the frst demonstration of in vivo visualization of MAGL in the human brain. 18F-T-401 showed excellent test–retest reliability, reversible kinetics, and stable estimation of VT values consistent with known regional MAGL expressions. PET with 18F-T-401-PET is

Published

2022

2. Brain 5-HT2A receptor binding and its neural network related to behavioral inhibition system

Author

Kazuho, Kojima, Shigeki, Hirano, Yasuyuki, Kimura, Chie, Seki, Yoko, Ikoma, Keisuke, Takahata, Takehito, Ito, Keita, Yokokawa, Hiroki, Hashimoto, Kazunori, Kawamura, Zhang, Ming-Rong, Ito, Hiroshi, Makoto, Higuchi, Kuwabara, Satoshi, Tetsuya, Suhara, Makiko, Yamada, Kazuho, Kojima, Shigeki, Hirano, Yasuyuki, Kimura, Chie, Seki, Yoko, Ikoma, Keisuke, Takahata, Takehito, Ito, Keita, Yokokawa, Hiroki, Hashimoto, Kazunori, Kawamura, Zhang, Ming-Rong, Ito, Hiroshi, Makoto, Higuchi, Kuwabara, Satoshi, Tetsuya, Suhara, and Makiko, Yamada

Abstract

Rationale The tendency to avoid punishment, called behavioral inhibition system, is an essential aspect of motivational behavior. Behavioral inhibition system is related to negative affect, such as anxiety, depression and pain, but its neural basis has not yet been clarified. Objectives To clarify the association between individual variations in behavioral inhibition system and brain 5-HT2A receptor availability and specify which brain networks were involved in healthy male subjects, using [18F]altanserin positron emission tomography and resting-state functional magnetic resonance imaging. Results Behavioral inhibition system score negatively correlated with 5-HT2A receptor availability in anterior cingulate cortex. A statistical model indicated that the behavioral inhibition system score was associated with 5-HT2A receptor availability, which was mediated by the functional connectivity between anterior cingulate cortex and left middle frontal gyrus, both of which involved in the cognitive control of negative information processing. Conclusions Individuals with high behavioral inhibition system displays low 5-HT2A receptor availability in anterior cingulate cortex and this cognitive control network links with prefrontal-cingulate integrity. These findings have implications for underlying the serotonergic basis of physiologies in aversion.

Published

2022

3. PET-based classification of corticobasal syndrome.

Author

Nakano, Yoshikazu, Shimada, Hitoshi, Shinotoh, Hitoshi, Hirano, Shigeki, Tagai, Kenji, Sano, Yasunori, Yamamoto, Yasuharu, Endo, Hironobu, Matsuoka, Kiwamu, Takahata, Keisuke, Kubota, Manabu, Takado, Yuhei, Kimura, Yasuyuki, Ichise, Masanori, Ono, Maiko, Sahara, Naruhiko, Kawamura, Kazunori, Ming-Rong, Zhang, Kuwabara, Satoshi, Suhara, Tetsuya, Higuchi, Makoto, Yoshikazu, Nakano, Hitoshi, Shimada, Hitoshi, Shinoto, Shigeki, Hirano, Kenji, Tagai, Yasunori, Sano, Hironobu, Endo, Kiwamu, Matsuoka, Keisuke, Takahata, Manabu, Kubota, Yuhei, Takado, Yasuyuki, Kimura, Masanori, Ichise, Maiko, Ono, Naruhiko, Sahara, Kazunori, Kawamura, Zhang, Ming-Rong, Tetsuya, Suhara, Makoto, Higuchi, Nakano, Yoshikazu, Shimada, Hitoshi, Shinotoh, Hitoshi, Hirano, Shigeki, Tagai, Kenji, Sano, Yasunori, Yamamoto, Yasuharu, Endo, Hironobu, Matsuoka, Kiwamu, Takahata, Keisuke, Kubota, Manabu, Takado, Yuhei, Kimura, Yasuyuki, Ichise, Masanori, Ono, Maiko, Sahara, Naruhiko, Kawamura, Kazunori, Ming-Rong, Zhang, Kuwabara, Satoshi, Suhara, Tetsuya, Higuchi, Makoto, Yoshikazu, Nakano, Hitoshi, Shimada, Hitoshi, Shinoto, Shigeki, Hirano, Kenji, Tagai, Yasunori, Sano, Hironobu, Endo, Kiwamu, Matsuoka, Keisuke, Takahata, Manabu, Kubota, Yuhei, Takado, Yasuyuki, Kimura, Masanori, Ichise, Maiko, Ono, Naruhiko, Sahara, Kazunori, Kawamura, Zhang, Ming-Rong, Tetsuya, Suhara, and Makoto, Higuchi

Abstract

Corticobasal degeneration (CBD) is the most common neuropathological substrate for clinically diagnosed corticobasal syndrome (CBS), while identifying CBD pathology in living individuals has been challenging. This study aimed to examine the capability of positron emission tomography (PET) to detect CBD-type tau depositions and neuropathological classification of CBS.

Published

2022

4. A First-in-human Study of 11C-MTP38, a Novel PET Ligand for Phosphodiesterase 7

Author

Manabu, Kubota, Chie, Seki, Yasuyuki, Kimura, Keisuke, Takahata, Hitoshi, Shimada, Yuhei, Takado, Kiwamu, Matsuoka, Kenji, Tagai, Yasunori, Sano, Yamamoto, Yasuharu, Maki, Okada, Tatsuya, Kikuchi, Masanori, Ichise, Kazunori, Kawamura, Zhang, Ming-Rong, Makoto, Higuchi, Manabu, Kubota, Chie, Seki, Yasuyuki, Kimura, Keisuke, Takahata, Hitoshi, Shimada, Yuhei, Takado, Kiwamu, Matsuoka, Kenji, Tagai, Yasunori, Sano, Yamamoto, Yasuharu, Maki, Okada, Tatsuya, Kikuchi, Masanori, Ichise, Kazunori, Kawamura, Zhang, Ming-Rong, and Makoto, Higuchi

Abstract

Purpose: Phosphodiesterase 7 (PDE7) is an enzyme that selectively hydrolyses cyclic adenosine monophosphate, and its dysfunction is implicated in neuropsychiatric diseases. However, in vivo visualization of PDE7 in human brains has hitherto not been possible. Using the novel PET ligand 11C-MTP38, which we recently developed, we aimed to image and quantify PDE7 in living human brains. Methods: Seven healthy males underwent a 90-min PET scan after injection of 11C-MTP38. We performed arterial blood sampling and metabolite analysis of plasma in six subjects to obtain a metabolite-corrected input function. Regional total distribution volumes (VT’s) were estimated using compartment models, and Logan plot and Ichise multilinear analysis (MA1). We further quantified the specific radioligand binding using the original multilinear reference tissue model (MRTMO) and standardized uptake value ratio (SUVR) method with the cerebellar cortex as reference. Results: PET images with 11C-MTP38 showed relatively high retentions in several brain regions, including in the striatum, globus pallidus, and thalamus, as well as fast washout from the cerebellar cortex, in agreement with the known distribution of PDE7. VT values were robustly estimated by two-tissue compartment model analysis (mean VT = 4.2 for the pallidum), Logan plot, and MA1, all in excellent agreement with each other, suggesting the reversibility of 11C-MTP38 binding. Furthermore, there were good agreements between binding values estimated by indirect method and those estimated by both MRTMO and SUVR, indicating that these methods could be useful for reliable quantification of PDE7. Because MRTMO and SUVR do not require arterial blood sampling, they are the most practical for the clinical use of 11C-MTP38-PET. Conclusion: We have provided the first demonstration of PET visualization of PDE7 in human

Published

2021

5. PET imaging of colony-stimulating factor 1 receptor: A head-to-head comparison of a novel radioligand, 11C-GW2580, and 11C-CPPC, in mouse models of acute and chronic neuroinflammation and a rhesus monkey

Author

Zhou, Xiaoyun, Ji, Bin, Seki, Chie, Nagai, Yuji, Minamimoto, Takafumi, Fujinaga, Masayuki, Ming-Rong, Zhang, Saito, Takashi, C Saido, Takaomi, Suhara, Tetsuya, Kimura, Yasuyuki, Higuchi, Makoto, Xiaoyun, Zhou, Chie, Seki, Yuji, Nagai, Takafumi, Minamimoto, Masayuki, Fujinaga, Zhang, Ming-Rong, Tetsuya, Suhara, Yasuyuki, Kimura, Makoto, Higuchi, Zhou, Xiaoyun, Ji, Bin, Seki, Chie, Nagai, Yuji, Minamimoto, Takafumi, Fujinaga, Masayuki, Ming-Rong, Zhang, Saito, Takashi, C Saido, Takaomi, Suhara, Tetsuya, Kimura, Yasuyuki, Higuchi, Makoto, Xiaoyun, Zhou, Chie, Seki, Yuji, Nagai, Takafumi, Minamimoto, Masayuki, Fujinaga, Zhang, Ming-Rong, Tetsuya, Suhara, Yasuyuki, Kimura, and Makoto, Higuchi

Abstract

Colony-stimulating factor 1 receptor (CSF1R) is a specific biomarker for microglia. In this study, we developed a novel PET radioligand for CSF1R, C-GW2580, and compared it to a reported CSF1R tracer, C-CPPC, in mouse models of acute and chronic neuroinflammation and a rhesus monkey. Dynamic C-GW2580- and C-CPPC-PET images were quantified by reference tissue-based models and standardized uptake value ratio. Both tracers exhibited increased uptake in the lesioned striata of lipopolysaccharide-injected mice and in the forebrains of -knock-in mice, spatially in agreement with an increased 18-kDa translocator protein radioligand retention. Moreover, C-GW2580 captured changes in CSF1R availability more sensitively than C-CPPC, with a larger dynamic range and a smaller inter-individual variability, in these model animals. PET imaging of CSF1R in a rhesus monkey displayed moderate-to-high tracer retention in the brain at baseline. Homologous blocker (i. e. unlabeled tracer) treatment reduced the uptake of C-GW2580 by ∼30% in all examined brain regions except for centrum semi-ovale white matter, but did not affect the retention of C-CPPC. In summary, our results demonstrated that C-GW2580-PET captured inflammatory microgliosis in the mouse brain with higher sensitivity than a reported radioligand, and displayed saturable binding in the monkey brain, potentially providing an imaging-based quantitative biomarker for reactive microgliosis.

Published

2021

6. Dynamic alterations in the central glutamatergic status following food and glucose intake: in vivo multimodal assessments in humans and animal models

Author

Manabu, Kubota, Yasuyuki, Kimura, Masafumi, Shimojo, Yuhei, Takado, M.N. Duarte, Joao, Hiroyuki, Takuwa, Chie, Seki, Hitoshi, Shimada, Hitoshi, Shinoto, Keisuke, Takahata, Soichiro, Kitamura, Sho, Moriguchi, Kenji, Tagai, Takayuki, Obata, Nakahara, Jin, Yutaka, Tomita, Masaki, Tokunaga, Jun, Maeda, Kazunori, Kawamura, Zhang, Ming-Rong, Masanori, Ichise, Tetsuya, Suhara, Makoto, Higuchi, Manabu, Kubota, Yasuyuki, Kimura, Masafumi, Shimojo, Yuhei, Takado, M.N. Duarte, Joao, Hiroyuki, Takuwa, Chie, Seki, Hitoshi, Shimada, Hitoshi, Shinoto, Keisuke, Takahata, Soichiro, Kitamura, Sho, Moriguchi, Kenji, Tagai, Takayuki, Obata, Nakahara, Jin, Yutaka, Tomita, Masaki, Tokunaga, Jun, Maeda, Kazunori, Kawamura, Zhang, Ming-Rong, Masanori, Ichise, Tetsuya, Suhara, and Makoto, Higuchi

Abstract

Fluctuations of neuronal activities in the brain may underlie relatively slow components of neurofunctional alterations, which can be modulated by food intake and related systemic metabolic statuses. Glutamatergic neurotransmission plays a major role in the regulation of excitatory tones in the central nervous system, although just how dietary elements contribute to the tuning of this system remains elusive. Here, we provide the first demonstration by bimodal positron emission tomography (PET) and magnetic resonance spectroscopy (MRS) that metabotropic glutamate receptor subtype 5 (mGluR5) ligand binding and glutamate levels in human brains are dynamically altered in a manner dependent on food intake and consequent changes in plasma glucose levels. The brain-wide modulations of central mGluR5 ligand binding and glutamate levels and profound neuronal activations following systemic glucose administration were further proven by PET, MRS, and intravital two-photon microscopy, respectively, in living rodents. The present findings consistently support the notion that food-associated glucose intake is mechanistically linked to glutamatergic tones in the brain, which are translationally accessible in vivo by bimodal PET and MRS measurements in both clinical and non-clinical settings.

Published

2021

7. Relationship between Regional Gray Matter Volumes and Dopamine D2 Receptor and Transporter in Living Human Brains

Author

Shin, Kurose, Manabu, Kubota, Keisuke, Takahata, Yamamoto, Yasuharu, Hironobu, Fujiwara, Yasuyuki, Kimura, Ito, Hiroshi, Takeuchi, Hiroyoshi, Mimura, Masaru, Tetsuya, Suhara, Makoto, Higuchi, Shin, Kurose, Manabu, Kubota, Keisuke, Takahata, Yamamoto, Yasuharu, Hironobu, Fujiwara, Yasuyuki, Kimura, Ito, Hiroshi, Takeuchi, Hiroyoshi, Mimura, Masaru, Tetsuya, Suhara, and Makoto, Higuchi

Abstract

Although striatal dopamine neurotransmission is believed to be functionally linked to the formation of the corticostriatal network, there has been little evidence for this regulatory process in the human brain and its disruptions in neuropsychiatric disorders. Here, we aimed to investigate associations of striatal dopamine transporter (DAT) and D2 receptor availabilities with gray matter (GM) volumes in healthy humans. Positron emission tomography images of D2 receptor (n = 34) and DAT (n = 17) captured with the specific radioligands [11C]raclopride and [18F]FE-PE2I, respectively, were acquired along with T1-weighted magnetic resonance imaging data in our previous studies, and were re-analyzed in this work. We quantified the binding potentials (BPND) of these radioligands in the limbic, executive, and sensorimotor functional subregions of the striatum. Correlations between the radioligand BPND and regional GM volume were then examined by voxel-based morphometry. In line with the functional and anatomical connectivity, [11C]raclopride BPND in the limbic striatum was positively correlated with volumes of the uncal/parahippocampal gyrus and adjacent temporal areas. Similarly, we found positive correlations between the BPND of this radioligand in the executive striatum and volumes of the prefrontal cortices and their adjacent areas as well as between the BPND in the sensorimotor striatum and volumes of the somatosensory and supplementary motor areas. By contrast, no significant correlation was found between [18F]FE-PE2I BPND and regional GM volumes. Our results suggest unique structural and functional corticostriatal associations involving D2 receptor in healthy humans, which might be partially independent of the nigrostriatal pathway reflected by striatal DAT.

Published

2021

8. Pharmacokinetic and pharmacodynamic assessment of histamine H3 receptor occupancy by enerisant: a human PET study with a novel H3 binding ligand, [11C]TASP457.

Author

Kimura, Yasuyuki, Takahata, Keisuke, Shimazaki, Toshiharu, Kitamura, Soichiro, Seki, Chie, Ikoma, Yoko, Ichise, Masanori, Kawamura, Kazunori, Yamada, Makiko, Ming-Rong, Zhang, Higuchi, Makoto, Nishino, Izumi, Suhara, Tetsuya, Yasuyuki, Kimura, Keisuke, Takahata, Soichiro, Kitamura, Chie, Seki, Yoko, Ikoma, Masanori, Ichise, Kazunori, Kawamura, Makiko, Yamada, Zhang, Ming-Rong, Makoto, Higuchi, Tetsuya, Suhara, Kimura, Yasuyuki, Takahata, Keisuke, Shimazaki, Toshiharu, Kitamura, Soichiro, Seki, Chie, Ikoma, Yoko, Ichise, Masanori, Kawamura, Kazunori, Yamada, Makiko, Ming-Rong, Zhang, Higuchi, Makoto, Nishino, Izumi, Suhara, Tetsuya, Yasuyuki, Kimura, Keisuke, Takahata, Soichiro, Kitamura, Chie, Seki, Yoko, Ikoma, Masanori, Ichise, Kazunori, Kawamura, Makiko, Yamada, Zhang, Ming-Rong, Makoto, Higuchi, and Tetsuya, Suhara

Abstract

Histamine H receptor antagonists and inverse agonists have been extensively developed to treat sleep-wake, neurocognitive, and allied disorders. However, potential adverse effects, including insomnia, hampered the clinical use of these drugs, possibly due to their persistent interaction with the target molecules. The purpose of the present study was to estimate the pharmacokinetics and pharmacodynamics of enerisant, a novel antagonist and inverse agonist for histamine H receptors.

Published

2021

9. Differential associations of dopamine synthesis capacity with the dopamine transporter and D2 receptor availability as assessed by PET in the living human brain

Author

Yamamoto, Yasuharu, Takahata, Keisuke, Kubota, Manabu, Takano, Harumasa, Takeuchi, Hiroyoshi, Kimura, Yasuyuki, Sano, Yasunori, Kurose, Shin, Hiroshi Ito, Mimura, Masaru, Higuchi, Makoto, Keisuke, Takahata, Manabu, Kubota, Harumasa, Takano, Yasuyuki, Kimura, Yasunori, Sano, Shin, Kurose, Makoto, Higuchi, Yamamoto, Yasuharu, Takahata, Keisuke, Kubota, Manabu, Takano, Harumasa, Takeuchi, Hiroyoshi, Kimura, Yasuyuki, Sano, Yasunori, Kurose, Shin, Hiroshi Ito, Mimura, Masaru, Higuchi, Makoto, Keisuke, Takahata, Manabu, Kubota, Harumasa, Takano, Yasuyuki, Kimura, Yasunori, Sano, Shin, Kurose, and Makoto, Higuchi

Abstract

Background: The dopamine (DA) neurotransmission has been implicated in fundamental brain functions, exem- plified by movement controls, reward-seeking, motivation, and cognition. Although dysregulation of DA neuro- transmission in the striatum is known to be involved in diverse neuropsychiatric disorders, it is yet to be clarified whether components of the DA transmission, such as synthesis, receptors, and reuptake are coupled with each other to homeostatically maintain the DA neurotransmission. The purpose of this study was to investigate asso- ciations of the DA synthesis capacity with the availabilities of DA transporters and D2 receptors in the striatum of healthy subjects. Methods: First, we examined correlations between the DA synthesis capacity and DA transporter availability in the caudate and putamen using PET data with L-[ ????- 11 C]DOPA and [ 18 F]FE-PE2I, respectively, acquired from our past dual-tracer studies. Next, we investigated relationships between the DA synthesis capacity and D2 recep- tor availability employing PET data with L-[ ????- 11 C]DOPA and [ 11 C]raclopride, respectively, obtained from other previous dual-tracer assays. Results: We found a significant positive correlation between the DA synthesis capacity and DA transporter avail- ability in the putamen, while no significant correlations between the DA synthesis capacity and D2 receptor availability in the striatum. Conclusion: The intimate association of the DA synthesis rate with the presynaptic reuptake of DA indicates home- ostatic maintenance of the baseline synaptic DA concentration. In contrast, the total abundance of D2 receptors, which consist of presynaptic autoreceptors and postsynaptic modulatory receptors, may not have an immediate relationship to this regulatory mechanism.

Published

2020