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1. Role of transforming growth factor-β1 in regulating adipocyte progenitors

Author

Nguyen Quynh Phuong, Muhammad Bilal, Allah Nawaz, Le Duc Anh, Memoona, Muhammad Rahil Aslam, Sana Khalid, Tomonobu Kado, Yoshiyuki Watanabe, Ayumi Nishimura, Yoshiko Igarashi, Keisuke Okabe, Kenichi Hirabayashi, Seiji Yamamoto, Takashi Nakagawa, Hisashi Mori, Isao Usui, Shiho Fujisaka, Ryuji Hayashi, and Kazuyuki Tobe

Subjects
Tgf-β1, CD206+ M2-like macrophage, Adipocyte progenitors, Hyperplasia, Adipogenesis, Medicine, Science
Abstract

Abstract Adipose tissue (AT) metabolism involves coordinating various cells and cellular processes to regulate energy storage, release, and overall metabolic homeostasis. Therein, macrophage and its cytokine are important in controlling tissue homeostasis. Among cytokines, the role of transforming growth factor-β1 (Tgf-β1), a cytokine abundantly expressed in CD206+ M2-like macrophage and correlated with the expansion of AT and fibrosis, in AT metabolism, remains unknown. We used CD206CreERT2; Tgf-β1f/f mouse model in which the Tgf-β1 gene was conditionally deleted in CD206+ M2-like macrophages followed by tamoxifen administration, to investigate the role of the Tgf-β1 gene in glucose and insulin metabolism. Our data demonstrated that lack of CD206+ M2-like macrophages derived Tgf-β1 gene improved glucose metabolism and insulin sensitivity by enhancing adipogenesis via hyperplasia. The Tgf-β1 gene, specifically from CD206+ M2-like macrophages, deletion stimulated APs’ proliferation and differentiation, leading to the generation of smaller mature adipocytes, therefore enhancing insulin sensitivity and improving glucose metabolism under normal chow conditions. Our study brings a new perspective that Tgf-β1 gene deletion specific from CD206+ M2-like macrophage promotes adipocyte hyperplasia, improving glucose homeostasis and insulin sensitivity in the lean state.

Published
2025
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2. Personalized heart rate management through data-driven dynamic exercise control

Author

Takao Sato, Tomoka Nishino, Natsuki Kawaguchi, Hisashi Mori, Hayato Uchida, Kiichiro Murotani, Yuichi Kimura, Isao Mizukura, Syoji Kobashi, and Orlando Arrieta

Subjects
Medicine, Science
Abstract

Abstract Maximizing healthy life expectancy is essential for enhancing well-being. Optimal exercise intensity is crucial in promoting health and ensuring safe rehabilitation. Since heart rate is related to exercise intensity, the required exercise intensity is achieved by controlling the heart rate. This study aims to control heart rate during exercise by dynamically adjusting the load on a bicycle ergometer using a proportional-integral (PI) control. The choice of PI parameters is very important because the PI parameters significantly affect the performance of heart rate control. Since the dynamic characteristics of heart rate relative to work rate vary widely from subject to subject, the PI parameters for each subject must be determined individually. In this study, PI parameters are optimized directly from exercise data using a data-driven design approach. Thus, the proposed method does not require excessive exercise of the subject to model heart rate dynamics. Using the proposed method, the heart rate can be controlled to follow a designed reference model so that the heart rate is safely increased to the desired value. The quantitative evaluation of the control results of fifteen healthy volunteers confirmed that the proposed method improved the control error of the target heart rate trajectory by approximately 40%, regardless of gender or age. In addition, it was shown that control parameters from the exercise experiment also indicate that females are more likely than males to have an elevated heart rate at the same load.

Published
2024
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4. Differential contribution of canonical and noncanonical NLGN3 pathways to early social development and memory performance

Author

Lin-Yu Li, Ayako Imai, Hironori Izumi, Ran Inoue, Yumie Koshidaka, Keizo Takao, Hisashi Mori, and Tomoyuki Yoshida

Subjects
Neuroligin 3, Neurexins, Protein tyrosine phosphatase δ, Synapse organizer, Social behavior, Memory, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Neuroligin (NLGN) 3 is a postsynaptic cell adhesion protein organizing synapse formation through two different types of transsynaptic interactions, canonical interaction with neurexins (NRXNs) and a recently identified noncanonical interaction with protein tyrosine phosphatase (PTP) δ. Although, NLGN3 gene is known as a risk gene for neurodevelopmental disorders such as autism spectrum disorder (ASD) and intellectual disability (ID), the pathogenic contribution of the canonical NLGN3-NRXN and noncanonical NLGN3-PTPδ pathways to these disorders remains elusive. In this study, we utilized Nlgn3 mutant mice selectively lacking the interaction with either NRXNs or PTPδ and investigated their social and memory performance. Neither Nlgn3 mutants showed any social cognitive deficiency in the social novelty recognition test. However, the Nlgn3 mutant mice lacking the PTPδ pathway exhibited significant decline in the social conditioned place preference (sCPP) at the juvenile stage, suggesting the involvement of the NLGN3-PTPδ pathway in the regulation of social motivation and reward. In terms of learning and memory, disrupting the canonical NRXN pathway attenuated contextual fear conditioning while disrupting the noncanonical NLGN3-PTPδ pathway enhanced it. Furthermore, disruption of the NLGN3-PTPδ pathway negatively affected the remote spatial reference memory in the Barnes maze test. These findings highlight the differential contributions of the canonical NLGN3-NRXN and noncanonical NLGN3-PTPδ synaptogenic pathways to the regulation of higher order brain functions associated with ASD and ID.

Published
2024
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5. Large-scale animal model study uncovers altered brain pH and lactate levels as a transdiagnostic endophenotype of neuropsychiatric disorders involving cognitive impairment

Author

Hideo Hagihara, Hirotaka Shoji, Satoko Hattori, Giovanni Sala, Yoshihiro Takamiya, Mika Tanaka, Masafumi Ihara, Mihiro Shibutani, Izuho Hatada, Kei Hori, Mikio Hoshino, Akito Nakao, Yasuo Mori, Shigeo Okabe, Masayuki Matsushita, Anja Urbach, Yuta Katayama, Akinobu Matsumoto, Keiichi I Nakayama, Shota Katori, Takuya Sato, Takuji Iwasato, Haruko Nakamura, Yoshio Goshima, Matthieu Raveau, Tetsuya Tatsukawa, Kazuhiro Yamakawa, Noriko Takahashi, Haruo Kasai, Johji Inazawa, Ikuo Nobuhisa, Tetsushi Kagawa, Tetsuya Taga, Mohamed Darwish, Hirofumi Nishizono, Keizo Takao, Kiran Sapkota, Kazutoshi Nakazawa, Tsuyoshi Takagi, Haruki Fujisawa, Yoshihisa Sugimura, Kyosuke Yamanishi, Lakshmi Rajagopal, Nanette Deneen Hannah, Herbert Y Meltzer, Tohru Yamamoto, Shuji Wakatsuki, Toshiyuki Araki, Katsuhiko Tabuchi, Tadahiro Numakawa, Hiroshi Kunugi, Freesia L Huang, Atsuko Hayata-Takano, Hitoshi Hashimoto, Kota Tamada, Toru Takumi, Takaoki Kasahara, Tadafumi Kato, Isabella A Graef, Gerald R Crabtree, Nozomi Asaoka, Hikari Hatakama, Shuji Kaneko, Takao Kohno, Mitsuharu Hattori, Yoshio Hoshiba, Ryuhei Miyake, Kisho Obi-Nagata, Akiko Hayashi-Takagi, Léa J Becker, Ipek Yalcin, Yoko Hagino, Hiroko Kotajima-Murakami, Yuki Moriya, Kazutaka Ikeda, Hyopil Kim, Bong-Kiun Kaang, Hikari Otabi, Yuta Yoshida, Atsushi Toyoda, Noboru H Komiyama, Seth GN Grant, Michiru Ida-Eto, Masaaki Narita, Ken-ichi Matsumoto, Emiko Okuda-Ashitaka, Iori Ohmori, Tadayuki Shimada, Kanato Yamagata, Hiroshi Ageta, Kunihiro Tsuchida, Kaoru Inokuchi, Takayuki Sassa, Akio Kihara, Motoaki Fukasawa, Nobuteru Usuda, Tayo Katano, Teruyuki Tanaka, Yoshihiro Yoshihara, Michihiro Igarashi, Takashi Hayashi, Kaori Ishikawa, Satoshi Yamamoto, Naoya Nishimura, Kazuto Nakada, Shinji Hirotsune, Kiyoshi Egawa, Kazuma Higashisaka, Yasuo Tsutsumi, Shoko Nishihara, Noriyuki Sugo, Takeshi Yagi, Naoto Ueno, Tomomi Yamamoto, Yoshihiro Kubo, Rie Ohashi, Nobuyuki Shiina, Kimiko Shimizu, Sayaka Higo-Yamamoto, Katsutaka Oishi, Hisashi Mori, Tamio Furuse, Masaru Tamura, Hisashi Shirakawa, Daiki X Sato, Yukiko U Inoue, Takayoshi Inoue, Yuriko Komine, Tetsuo Yamamori, Kenji Sakimura, and Tsuyoshi Miyakawa

Subjects
brain pH, lactate, metabolism, neuropsychiatric disorders, animal models, working memory, Medicine, Science, Biology (General), QH301-705.5
Abstract

Increased levels of lactate, an end-product of glycolysis, have been proposed as a potential surrogate marker for metabolic changes during neuronal excitation. These changes in lactate levels can result in decreased brain pH, which has been implicated in patients with various neuropsychiatric disorders. We previously demonstrated that such alterations are commonly observed in five mouse models of schizophrenia, bipolar disorder, and autism, suggesting a shared endophenotype among these disorders rather than mere artifacts due to medications or agonal state. However, there is still limited research on this phenomenon in animal models, leaving its generality across other disease animal models uncertain. Moreover, the association between changes in brain lactate levels and specific behavioral abnormalities remains unclear. To address these gaps, the International Brain pH Project Consortium investigated brain pH and lactate levels in 109 strains/conditions of 2294 animals with genetic and other experimental manipulations relevant to neuropsychiatric disorders. Systematic analysis revealed that decreased brain pH and increased lactate levels were common features observed in multiple models of depression, epilepsy, Alzheimer’s disease, and some additional schizophrenia models. While certain autism models also exhibited decreased pH and increased lactate levels, others showed the opposite pattern, potentially reflecting subpopulations within the autism spectrum. Furthermore, utilizing large-scale behavioral test battery, a multivariate cross-validated prediction analysis demonstrated that poor working memory performance was predominantly associated with increased brain lactate levels. Importantly, this association was confirmed in an independent cohort of animal models. Collectively, these findings suggest that altered brain pH and lactate levels, which could be attributed to dysregulated excitation/inhibition balance, may serve as transdiagnostic endophenotypes of debilitating neuropsychiatric disorders characterized by cognitive impairment, irrespective of their beneficial or detrimental nature.

Published
2024
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6. Developmental synapse pathology triggered by maternal exposure to the herbicide glufosinate ammonium

Author

Hironori Izumi, Maina Demura, Ayako Imai, Ryohei Ogawa, Mamoru Fukuchi, Taisaku Okubo, Toshihide Tabata, Hisashi Mori, and Tomoyuki Yoshida

Subjects
developmental neurotoxicity, glufosinate ammonium, maternal pesticide exposure, synapse formation, synaptic organizers, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Environmental and genetic factors influence synapse formation. Numerous animal experiments have revealed that pesticides, including herbicides, can disturb normal intracellular signals, gene expression, and individual animal behaviors. However, the mechanism underlying the adverse outcomes of pesticide exposure remains elusive. Herein, we investigated the effect of maternal exposure to the herbicide glufosinate ammonium (GLA) on offspring neuronal synapse formation in vitro. Cultured cerebral cortical neurons prepared from mouse embryos with maternal GLA exposure demonstrated impaired synapse formation induced by synaptic organizer neuroligin 1 (NLGN1)–coated beads. Conversely, the direct administration of GLA to the neuronal cultures exhibited negligible effect on the NLGN1-induced synapse formation. The comparison of the transcriptomes of cultured neurons from embryos treated with maternal GLA or vehicle and a subsequent bioinformatics analysis of differentially expressed genes (DEGs) identified “nervous system development,” including “synapse,” as the top-ranking process for downregulated DEGs in the GLA group. In addition, we detected lower densities of parvalbumin (Pvalb)-positive neurons at the postnatal developmental stage in the medial prefrontal cortex (mPFC) of offspring born to GLA–exposed dams. These results suggest that maternal GLA exposure induces synapse pathology, with alterations in the expression of genes that regulate synaptic development via an indirect pathway distinct from the effect of direct GLA action on neurons.

Published
2023
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7. Depletion of CD206+ M2-like macrophages induces fibro-adipogenic progenitors activation and muscle regeneration

Author

Allah Nawaz, Muhammad Bilal, Shiho Fujisaka, Tomonobu Kado, Muhammad Rahil Aslam, Saeed Ahmed, Keisuke Okabe, Yoshiko Igarashi, Yoshiyuki Watanabe, Takahide Kuwano, Koichi Tsuneyama, Ayumi Nishimura, Yasuhiro Nishida, Seiji Yamamoto, Masakiyo Sasahara, Johji Imura, Hisashi Mori, Martin M. Matzuk, Fujimi Kudo, Ichiro Manabe, Akiyoshi Uezumi, Takashi Nakagawa, Yumiko Oishi, and Kazuyuki Tobe

Subjects
Science
Abstract

Muscle regeneration requires the contribution and communication of various different cell types. Here, Nawaz et al. show that CD206+ macrophages inhibit the secretion of the promyogenic factor follistatin by fibro-adipogenic progenitor cells, impeding myogenesis and muscle regeneration.

Published
2022
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8. Regional contributions of D-serine to Alzheimer’s disease pathology in male AppNL–G–F/NL–G–F mice

Author

Xiance Ni, Ran Inoue, Yi Wu, Tomoyuki Yoshida, Keisuke Yaku, Takashi Nakagawa, Takashi Saito, Takaomi C. Saido, Keizo Takao, and Hisashi Mori

Subjects
Alzheimer’s disease, D-serine, serine racemase, excitotoxicity, neurodegeneration, amino acid homeostasis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

BackgroundNeurodegenerative processes in Alzheimer’s disease (AD) are associated with excitotoxicity mediated by the N-methyl-D-aspartate receptor (NMDAR). D-Serine is an endogenous co-agonist necessary for NMDAR-mediated excitotoxicity. In the mammalian brain, it is produced by serine racemase (SRR) from L-serine, suggesting that dysregulation of L-serine, D-serine, or SRR may contribute to AD pathogenesis.Objective and methodsWe examined the contributions of D-serine to AD pathology in the AppNL–G–F/NL–G–F gene knock-in (APPKI) mouse model of AD. We first examined brain SRR expression levels and neuropathology in APPKI mice and then assessed the effects of long-term D-serine supplementation in drinking water on neurodegeneration. To further confirm the involvement of endogenous D-serine in AD progression, we generated Srr gene-deleted APPKI (APPKI-SRRKO) mice. Finally, to examine the levels of brain amino acids, we conducted liquid chromatography–tandem mass spectrometry.ResultsExpression of SRR was markedly reduced in the retrosplenial cortex (RSC) of APPKI mice at 12 months of age compared with age-matched wild-type mice. Neuronal density was decreased in the hippocampal CA1 region but not altered significantly in the RSC. D-Serine supplementation exacerbated neuronal loss in the hippocampal CA1 of APPKI mice, while APPKI-SRRKO mice exhibited attenuated astrogliosis and reduced neuronal death in the hippocampal CA1 compared with APPKI mice. Furthermore, APPKI mice demonstrated marked abnormalities in the cortical amino acid levels that were partially reversed in APPKI-SRRKO mice.ConclusionThese findings suggest that D-serine participates in the regional neurodegenerative process in the hippocampal CA1 during the amyloid pathology of AD and that reducing brain D-serine can partially attenuate neuronal loss and reactive astrogliosis. Therefore, regulating SRR could be an effective strategy to mitigate NMDAR-dependent neurodegeneration during AD progression.

Published
2023
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9. Fabrication of free-standing GaN substrates using electrochemically formed porous separation layers

Author

Masafumi Yokoyama, Fumimasa Horikiri, Hisashi Mori, Taichiro Konno, and Hajime Fujikura

Subjects
free-standing GaN substrate, porous structure, electrochemically pore formation, porous GaN template, HVPE, separation, Physics, QC1-999
Abstract

We have developed a pore-assisted separation (PAS) method for the fabrication of free-standing GaN substrates, where bulk GaN crystals were separated from seed GaN templates at electrochemically formed porous layers. The pore size was controlled by the electrochemical process conditions and must be greater than 100 nm to realize separation within whole wafers. A 2 inch free-standing GaN substrate having a low dislocation density of ∼2.7 × 10 ^6 cm ^−2 was realized by growth of an 800 μ m thick GaN layer on the porous GaN template. A 3 inch free-standing GaN substrate was also fabricated by the PAS method, indicating its good scalability.

Published
2024
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10. BST1 regulates nicotinamide riboside metabolism via its glycohydrolase and base-exchange activities

Author

Keisuke Yaku, Sailesh Palikhe, Hironori Izumi, Tomoyuki Yoshida, Keisuke Hikosaka, Faisal Hayat, Mariam Karim, Tooba Iqbal, Yasuhito Nitta, Atsushi Sato, Marie E. Migaud, Katsuhiko Ishihara, Hisashi Mori, and Takashi Nakagawa

Subjects
Science
Abstract

Nicotinamide riboside (NR) is a NAD + precursor exhibiting beneficial effects against aging. Here the authors demonstrate that orally administered NR increases NAD + levels in a diphasic manner and that bone marrow stromal cell antigen 1 plays a crucial role for NAD + synthesis from NR.

Published
2021
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11. Blockade of D-serine signaling and adult hippocampal neurogenesis attenuates remote contextual fear memory following multiple memory retrievals in male mice

Author

Ran Inoue, Xiance Ni, and Hisashi Mori

Subjects
D-serine, hippocampal neurogenesis, reconsolidation, multiple retrievals, remote memory, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The retrieval of fear memories induces two opposing processes, reconsolidation, and extinction. The memory reconsolidation is an active process that involves gene expression and updates an existing memory. It is hypothesized that blockade of reconsolidation by manipulating the neurobiological factors, which are mechanistically involved in the process, could weaken or disrupt the original fear memory. The N-methyl-D-aspartate (NMDA) receptor and hippocampal neurogenesis play crucial roles in hippocampus-dependent memory processes, including reconsolidation. Using contextual fear conditioning paradigm with multiple retrievals, we attempted to weaken the original contextual fear memory by repeatedly disrupting retrieval-induced reconsolidation via downregulation of NMDA receptor signaling and inhibition of neurogenesis. In the first experiment, prior to fear conditioning, NMDA receptor signaling was downregulated by the genetic reduction of its co-agonist, D-serine, and the neurogenesis was dampened by focal X-ray irradiation on the hippocampus. We found that simultaneous D-serine reduction and neurogenesis dampening resulted in a progressive decrease in freezing following each retrieval, leading to an attenuation of remote contextual fear memory on day 28. In the second experiment using the same behavioral protocols, after conditioning, pharmacological approaches were conducted to simultaneously block D-serine signaling and neurogenesis, resulting in a similar suppressive effect on the remote fear memory. The present findings provide insights for understanding the role of D-serine-mediated NMDA receptor signaling and neurogenesis in memory retrieval and the maintenance of remote fear memory, and improving the efficacy of exposure-based therapy for the treatment of post-traumatic stress disorder (PTSD).

Published
2023
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12. Control of actin polymerization via reactive oxygen species generation using light or radiation

Author

Tetsuya Ishimoto and Hisashi Mori

Subjects
actin, reactive oxygen species, laser, ultraviolet, polymerization, chromophore-assisted light inactivation, Biology (General), QH301-705.5
Abstract

Actin is one of the most prevalent proteins in cells, and its amino acid sequence is remarkably conserved from protozoa to humans. The polymerization-depolymerization cycle of actin immediately below the plasma membrane regulates cell function, motility, and morphology. It is known that actin and other actin-binding proteins are targets for reactive oxygen species (ROS), indicating that ROS affects cells through actin reorganization. Several researchers have attempted to control actin polymerization from outside the cell to mimic or inhibit actin reorganization. To modify the polymerization state of actin, ultraviolet, visible, and near-infrared light, ionizing radiation, and chromophore-assisted light inactivation have all been reported to induce ROS. Additionally, a combination of the fluorescent protein KillerRed and the luminescent protein luciferase can generate ROS on actin fibers and promote actin polymerization. These techniques are very useful tools for analyzing the relationship between ROS and cell function, movement, and morphology, and are also expected to be used in therapeutics. In this mini review, we offer an overview of the advancements in this field, with a particular focus on how to control intracellular actin polymerization using such optical approaches, and discuss future challenges.

Published
2022
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13. Canonical versus non-canonical transsynaptic signaling of neuroligin 3 tunes development of sociality in mice

Author

Tomoyuki Yoshida, Atsushi Yamagata, Ayako Imai, Juhyon Kim, Hironori Izumi, Shogo Nakashima, Tomoko Shiroshima, Asami Maeda, Shiho Iwasawa-Okamoto, Kenji Azechi, Fumina Osaka, Takashi Saitoh, Katsumi Maenaka, Takashi Shimada, Yuko Fukata, Masaki Fukata, Jumpei Matsumoto, Hisao Nishijo, Keizo Takao, Shinji Tanaka, Shigeo Okabe, Katsuhiko Tabuchi, Takeshi Uemura, Masayoshi Mishina, Hisashi Mori, and Shuya Fukai

Subjects
Science
Abstract

Mutations of Neuroligin 3 (NLGN3) have been associated with autism spectrum disorder (ASD). Here, the authors identify a previously undescribed interaction between NLGN3 and a splice variant of protein tyrosine phosphatase δ (PTP δ) and its role in development of social behaviour in mice.

Published
2021
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14. Functional characterization of rare NRXN1 variants identified in autism spectrum disorders and schizophrenia

Author

Kanako Ishizuka, Tomoyuki Yoshida, Takeshi Kawabata, Ayako Imai, Hisashi Mori, Hiroki Kimura, Toshiya Inada, Yuko Okahisa, Jun Egawa, Masahide Usami, Itaru Kushima, Mako Morikawa, Takashi Okada, Masashi Ikeda, Aleksic Branko, Daisuke Mori, Toshiyuki Someya, Nakao Iwata, and Norio Ozaki

Subjects
NRXN1, Neurodevelopmental disorder, Autism spectrum disorders, Schizophrenia, Targeted resequencing, Ultra-rare variants, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Abstract Background Rare genetic variants contribute to the etiology of both autism spectrum disorder (ASD) and schizophrenia (SCZ). Most genetic studies limit their focus to likely gene-disrupting mutations because they are relatively easier to interpret their effects on the gene product. Interpretation of missense variants is also informative to some pathophysiological mechanisms of these neurodevelopmental disorders; however, their contribution has not been elucidated because of relatively small effects. Therefore, we characterized missense variants detected in NRXN1, a well-known neurodevelopmental disease-causing gene, from individuals with ASD and SCZ. Methods To discover rare variants with large effect size and to evaluate their role in the shared etiopathophysiology of ASD and SCZ, we sequenced NRXN1 coding exons with a sample comprising 562 Japanese ASD and SCZ patients, followed by a genetic association analysis in 4273 unrelated individuals. Impact of each missense variant detected here on cell surface expression, interaction with NLGN1, and synaptogenic activity was analyzed using an in vitro functional assay and in silico three-dimensional (3D) structural modeling. Results Through mutation screening, we regarded three ultra-rare missense variants (T737M, D772G, and R856W), all of which affected the LNS4 domain of NRXN1α isoform, as disease-associated variants. Diagnosis of individuals with T737M, D772G, and R856W was 1ASD and 1SCZ, 1ASD, and 1SCZ, respectively. We observed the following phenotypic and functional burden caused by each variant. (i) D772G and R856W carriers had more serious social disabilities than T737M carriers. (ii) In vitro assay showed reduced cell surface expression of NRXN1α by D772G and R856W mutations. In vitro functional analysis showed decreased NRXN1α-NLGN1 interaction of T737M and D772G mutants. (iii) In silico 3D structural modeling indicated that T737M and D772G mutations could destabilize the rod-shaped structure of LNS2-LNS5 domains, and D772G and R856W could disturb N-glycan conformations for the transport signal. Conclusions The combined data suggest that missense variants in NRXN1 could be associated with phenotypes of neurodevelopmental disorders beyond the diagnosis of ASD and/or SCZ.

Published
2020
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15. Visualization of activity-regulated BDNF expression in the living mouse brain using non-invasive near-infrared bioluminescence imaging

Author

Mamoru Fukuchi, Ryohei Saito, Shojiro Maki, Nami Hagiwara, Yumena Nakajima, Satoru Mitazaki, Hironori Izumi, and Hisashi Mori

Subjects
Bioluminescence, Brain-derived neurotrophic factor, In vivo imaging, Near-infrared, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Altered levels of brain-derived neurotrophic factor (BDNF) have been reported in neurologically diseased human brains. Therefore, it is important to understand how the expression of BDNF is controlled under pathophysiological as well as physiological conditions. Here, we report a method to visualize changes in BDNF expression in the living mouse brain using bioluminescence imaging (BLI). We previously generated a novel transgenic mouse strain, Bdnf-Luciferase (Luc), to monitor changes in Bdnf expression; however, it was difficult to detect brain-derived signals in the strain using BLI with d-luciferin, probably because of incomplete substrate distribution and light penetration. We demonstrate that TokeOni, which uniformly distributes throughout the whole mouse body after systematic injection and produces a near-infrared bioluminescence light, was suitable for detecting signals from the brain of the Bdnf-Luc mouse. We clearly detected brain-derived bioluminescence signals that crossed the skin and skull after intraperitoneal injection of TokeOni. However, repeated BLI using TokeOni should be limited, because repeated injection of TokeOni on the same day reduced the bioluminescence signal, presumably by product inhibition. We successfully visualized kainic acid-induced Bdnf expression in the hippocampus and sensory stimulation-induced Bdnf expression in the visual cortex. Taken together, non-invasive near-infrared BLI using Bdnf-Luc mice with TokeOni allowed us to evaluate alterations in BDNF levels in the living mouse brain. This will enable better understanding of the involvement of BDNF expression in the pathogenesis and pathophysiology of neurological diseases.

Published
2020
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16. Structural insights into selective interaction between type IIa receptor protein tyrosine phosphatases and Liprin-α

Author

Maiko Wakita, Atsushi Yamagata, Tomoko Shiroshima, Hironori Izumi, Asami Maeda, Mizuki Sendo, Ayako Imai, Keiko Kubota, Sakurako Goto-Ito, Yusuke Sato, Hisashi Mori, Tomoyuki Yoshida, and Shuya Fukai

Subjects
Science
Abstract

Synaptic organizers are cell-adhesion molecules capable of inducing synaptic differentiation through transsynaptic interactions. Here the authors present the crystal structure of the intracellular interaction between the synaptic organizer PTPδ and Liprin-α to reveal the structural mechanism of intracellular molecular interactions for IIa-RPTP-mediated synapse formation.

Published
2020
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17. The Relationship between 24 h Ultramarathon Performance and the 'Big Three' Strategies of Training, Nutrition, and Pacing

Author

Fuminori Takayama and Hisashi Mori

Subjects
extreme endurance, continuous glucose monitoring, sports nutrition, heart rate, Sports, GV557-1198.995
Abstract

Background: The present case study examined the relationship between 24 h ultramarathon performance and the “big three” strategies of training, nutrition, and pacing. Methods: A 32-year-old male ultramarathon runner (body mass: 68.5 kg, height: 179 cm) participated in a 24 h ultramarathon race. Training status was quantified based on from a GPS sports watch. The nutritional status was evaluated during the week leading up to the race, and blood glucose level and heart rate were measured during the race. Results: His aim of the distance was 200 km, but the actual performance was 171.760 km. The blood glucose level was stable because of adequate CHO intake before (7.2 ± 0.8 g/kg/day) and during the race (48 g/h). The running speed decreased in the middle and later stages of the race despite adequate CHO intake and a lack of high intensity running in the early stage of the race. The longest training session before the race (80 km) had to be significantly shorter compared to the aim. Conclusions: For optimal 24 h ultramarathon performance, the “big three” strategies of training, nutrition, and pacing are all important. However, the performance level estimated based on previous studies may be achievable even with insufficient training, as long as the nutritional and pacing strategies are appropriate.

Published
2022
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18. Generation and characterization of a Meflin-CreERT2 transgenic line for lineage tracing in white adipose tissue.

Author

Takahide Kuwano, Hironori Izumi, Muhammad Rahil Aslam, Yoshiko Igarashi, Muhammad Bilal, Ayumi Nishimura, Yoshiyuki Watanabe, Allah Nawaz, Tomonobu Kado, Koichi Ikuta, Seiji Yamamoto, Masakiyo Sasahara, Shiho Fujisaka, Kunimasa Yagi, Hisashi Mori, and Kazuyuki Tobe

Subjects
Medicine, Science
Abstract

Meflin (Islr) expression has gained attention as a marker for mesenchymal stem cells, but its function remains largely unexplored. Here, we report the generation of Meflin-CreERT2 mice with CreERT2 inserted under the Meflin gene promoter to label Meflin-expressing cells genetically, thereby enabling their lineages to be traced. We found that in adult mice, Meflin-expressing lineage cells were present in adipose tissue stroma and had differentiated into mature adipocytes. These cells constituted Crown-like structures in the adipose tissue of mice after high-fat diet loading. Cold stimulation led to the differentiation of Meflin-expressing lineage cells into beige adipocytes. Thus, the Meflin-CreERT2 mouse line is a useful new tool for visualizing and tracking the lineage of Meflin-expressing cells.

Published
2021
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19. Endocrine and Metabolic Responses to Endurance Exercise Under Hot and Hypoxic Conditions

Author

Haruka Yatsutani, Hisashi Mori, Hiroto Ito, Nanako Hayashi, Olivier Girard, and Kazushige Goto

Subjects
hypoxia, hot, erythropoietin, endurance exercise, muscle oxygenation, Physiology, QP1-981
Abstract

PurposeWe explored the effect of heat stress during an acute endurance exercise session in hypoxia on endocrine and metabolic responses.MethodsA total of 12 healthy males cycled at a constant workload (60% of the power output associated with their maximal oxygen uptake under each respective condition) for 60 min in three different environments: exercise under hot and hypoxia (H+H; fraction of inspiratory oxygen or FiO2: 14.5%, 32°C), exercise under hypoxia (HYP; FiO2: 14.5%, 23°C), and exercise under normoxia (NOR; FiO2: 20.9%, 23°C). After completing the exercise, participants remained in the chamber for 3 h to evaluate metabolic and endocrine responses under each environment. Changes in muscle oxygenation (only during exercise), blood variables, arterial oxygen saturation, and muscle temperature were determined up to 3 h after exercise.ResultsSerum erythropoietin (EPO) level was increased to similar levels in both H+H and HYP at 3 h after exercise compared with before exercise (P < 0.05), whereas no significant increase was found under NOR. No significant difference between H+H and HYP was observed in the serum EPO level, blood lactate level, or muscle oxygenation at any time (P > 0.05). Exercise-induced serum growth hormone (GH) elevation was significantly greater in H+H compared with HYP (P < 0.05) and HYP showed significantly lower value than NOR (P < 0.05). Arterial oxygen saturation during exercise was significantly lower in H+H and HYP compared with NOR (P < 0.05). Furthermore, H+H showed higher value compared with HYP (P < 0.05).ConclusionThe serum EPO level increased significantly with endurance exercise in hypoxia. However, the addition of heat stress during endurance exercise in hypoxia did not augment the EPO response up to 3 h after completion of exercise. Exercise-induced GH elevation was significantly augmented when the hot exposure was combined during endurance exercise in hypoxia. Muscle oxygenation levels during endurance exercise did not differ significantly among the conditions. These findings suggest that combined hot and hypoxic stresses during endurance exercise caused some modifications of metabolic and endocrine regulations compared with the same exercise in hypoxia.

Published
2020
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20. Different PDGF Receptor Dimers Drive Distinct Migration Modes of the Mouse Skin Fibroblast

Author

Kohta Yamada, Takeru Hamashima, Yoko Ishii, Seiji Yamamoto, Noriko Okuno, Naofumi Yoshida, Moe Yamada, Ting Ting Huang, Norifumi Shioda, Kei Tomihara, Toshihiko Fujimori, Hisashi Mori, Kohji Fukunaga, Makoto Noguchi, and Masakiyo Sasahara

Subjects
Platelet derived growth factor, Receptor, Chemotaxis, Fibroblast, Directionality, Signaling, Cytoskeleton, Physiology, QP1-981, Biochemistry, QD415-436
Abstract

Background/Aims: The migration of mesenchymal cells is a fundamental cellular process that has been implicated in many pathophysiological conditions and is induced by chemoattractants such as platelet-derived growth factors (PDGFs). However, the regulatory mechanisms shaping this migration remain to be elucidated. Methods: Here, we prepared mouse skin fibroblasts inactivated for different PDGF receptor genes and systematically measured their chemotactic responses within a gradient of different chemoattractants. Results: We found that PDGFRαβ and PDGFRββ dimers were strong inducers of random and directionally-persistent migration, respectively, that was sustained for up to 24 h. MAPK and PI3K were necessary to mediate random and directional migration, respectively. Directional migration was accompanied by abundant ventral stress fiber formation and consistent cell shape with less frequent formation of branch-like processes. Conclusion: This is the first systematic study that characterized the chemotaxis mediated by three-different types of PDGFR dimers in mesenchymal cell migration. Our data demonstrate that PDGFR dimer formation is the critical step to determine the specific mode of fibroblast chemotaxis, while the accompanying cytoskeletal remodeling might contribute to migration persistence.

Published
2018
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21. Structural basis of trans-synaptic interactions between PTPδ and SALMs for inducing synapse formation

Author

Sakurako Goto-Ito, Atsushi Yamagata, Yusuke Sato, Takeshi Uemura, Tomoko Shiroshima, Asami Maeda, Ayako Imai, Hisashi Mori, Tomoyuki Yoshida, and Shuya Fukai

Subjects
Science
Abstract

Synaptic organizers are cell adhesion molecules that facilitate synapse formation through trans-synaptic interactions. Here the authors give molecular insights into synaptic differentiation by determining the structures of the synaptic adhesion-like molecules SALM2 and SALM5 bound to the presynaptic organizer PTPδ.

Published
2018
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22. CD206+ M2-like macrophages regulate systemic glucose metabolism by inhibiting proliferation of adipocyte progenitors

Author

Allah Nawaz, Aminuddin Aminuddin, Tomonobu Kado, Akiko Takikawa, Seiji Yamamoto, Koichi Tsuneyama, Yoshiko Igarashi, Masashi Ikutani, Yasuhiro Nishida, Yoshinori Nagai, Kiyoshi Takatsu, Johji Imura, Masakiyo Sasahara, Yukiko Okazaki, Kohjiro Ueki, Tadashi Okamura, Kumpei Tokuyama, Akira Ando, Michihiro Matsumoto, Hisashi Mori, Takashi Nakagawa, Norihiko Kobayashi, Kumiko Saeki, Isao Usui, Shiho Fujisaka, and Kazuyuki Tobe

Subjects
Science
Abstract

Adipose tissue contains macrophages that can influence both local and systemic metabolism via the secretion of cytokines. Here, Nawaz et al. report that M2-like macrophages, present in adipose tissue, create a microenvironment that inhibits proliferation of adipocyte progenitors due to the secretion of TGF-β1

Published
2017
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23. Visualizing changes in brain-derived neurotrophic factor (BDNF) expression using bioluminescence imaging in living mice

Author

Mamoru Fukuchi, Hironori Izumi, Hisashi Mori, Masahiro Kiyama, Satoshi Otsuka, Shojiro Maki, Yosuke Maehata, Akiko Tabuchi, and Masaaki Tsuda

Subjects
Medicine, Science
Abstract

Abstract Brain-derived neurotrophic factor (BDNF) plays a fundamental role in expressing various neural functions including memory consolidation. Alterations of BDNF levels in the brain are associated with neurodegenerative and neuropsychiatric disorders. Therefore, it is important to understand how levels of BDNF are controlled. Recently we generated a novel transgenic mouse strain, termed the Bdnf-Luciferase transgenic (Bdnf-Luc Tg) mouse, to monitor changes in Bdnf expression. In the present study, we detected the bioluminescence signal from living Bdnf-Luc Tg mice after intraperitoneal administration of d-luciferin. Despite high levels of Bdnf expression in the brain, it was difficult to detect a signal from the brain region, probably because of its poorly penetrable (short-wavelength) bioluminescence. However, we could detect the changes in the bioluminescence signal in the brain region using a luciferin analogue generating a near-infrared wavelength of bioluminescence. We also found a strong correlation between increases in body weight and bioluminescence signal in the abdominal region of Tg mice fed a high-fat diet. These results show that changes in Bdnf expression can be visualized using living mice, and that the Tg mouse could be a powerful tool for clarification of the role of Bdnf expression in pathophysiological and physiological conditions.

Published
2017
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24. TBX5 R264K acts as a modifier to develop dilated cardiomyopathy in mice independently of T-box pathway.

Author

Nariaki Miyao, Yukiko Hata, Hironori Izumi, Ryo Nagaoka, Yuko Oku, Ichiro Takasaki, Taisuke Ishikawa, Shinya Takarada, Mako Okabe, Hideyuki Nakaoka, Keijiro Ibuki, Sayaka Ozawa, Tomoyuki Yoshida, Hideyuki Hasegawa, Naomasa Makita, Naoki Nishida, Hisashi Mori, Fukiko Ichida, and Keiichi Hirono

Subjects
Medicine, Science
Abstract

BackgroundTBX5 is a transcription factor that has an important role in development of heart. TBX5 variants in the region encoding the T-box domain have been shown to cause cardiac defects, such as atrial septal defect or ventricular septal defect, while TBX5 variants have also been identified in a few cardiomyopathy patients and considered causative. We identified a TBX5 variant (c.791G>A, p.Arg264Lys), that is over-represented in cardiomyopathy patients. This variant is located outside of the T-box domain, and its pathogenicity has not been confirmed by functional analyses.ObjectiveTo investigate whether the TBX5 R264K is deleterious and could contribute to the pathogenesis of cardiomyopathy.Methods and resultsWe developed mice expressing Tbx5 R264K. Mice homozygous for this variant displayed compensated dilated cardiomyopathy; mild decreased fractional shortening, dilatation of the left ventricle, left ventricular wall thinning and increased heart weight without major heart structural disorders. There was no difference in activation of the ANF promotor, a transcriptional target of Tbx5, compared to wild-type. However, analysis of RNA isolated from left ventricular samples showed significant increases in the expression of Acta1 in left ventricle with concomitant increases in the protein level of ACTA1.ConclusionsMice homozygous for Tbx5 R264K showed compensated dilated cardiomyopathy. Thus, TBX5 R264K may have a significant pathogenic role in some cardiomyopathy patients independently of T-box domain pathway.

Published
2020
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25. Glucocorticoid receptor-mediated amygdalar metaplasticity underlies adaptive modulation of fear memory by stress

Author

Ran Inoue, Kareem Abdou, Ayumi Hayashi-Tanaka, Shin-ichi Muramatsu, Kaori Mino, Kaoru Inokuchi, and Hisashi Mori

Subjects
glucocorticoid receptor, metaplasticity, lateral amygdala, auditory fear conditioning, stress, Medicine, Science, Biology (General), QH301-705.5
Abstract

Glucocorticoid receptor (GR) is crucial for signaling mediated by stress-induced high levels of glucocorticoids. The lateral nucleus of the amygdala (LA) is a key structure underlying auditory-cued fear conditioning. Here, we demonstrate that genetic disruption of GR in the LA (LAGRKO) resulted in an auditory-cued fear memory deficit for strengthened conditioning. Furthermore, the suppressive effect of a single restraint stress (RS) prior to conditioning on auditory-cued fear memory in floxed GR (control) mice was abolished in LAGRKO mice. Optogenetic induction of long-term depression (LTD) at auditory inputs to the LA reduced auditory-cued fear memory in RS-exposed LAGRKO mice, and in contrast, optogenetic induction of long-term potentiation (LTP) increased auditory-cued fear memory in RS-exposed floxed GR mice. These findings suggest that prior stress suppresses fear conditioning-induced LTP at auditory inputs to the LA in a GR-dependent manner, thereby protecting animals from encoding excessive cued fear memory under stress conditions.

Published
2018
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26. Dissociated Role of D-Serine in Extinction During Consolidation vs. Reconsolidation of Context Conditioned Fear

Author

Ran Inoue, Gourango Talukdar, Keizo Takao, Tsuyoshi Miyakawa, and Hisashi Mori

Subjects
D-serine, serine racemase, contextual fear, extinction, AMPA receptor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Extinction-based exposure therapy is widely used for the treatment of anxiety disorders, such as post-traumatic stress disorder (PTSD). D-serine, an endogenous co-agonist at the glycine-binding site of the N-methyl-D-aspartate-type glutamate receptor (NMDAR), has been shown to be involved in extinction of fear memory. Recent findings suggest that the length of time between the initial learning and an extinction session is a determinant of neural mechanism involved in fear extinction. However, how D-serine is involved in extinction of fear memory at different timings remains unclear. In the present study, we investigated the role of D-serine in immediate, delayed and post-retrieval extinction (P-RE) of contextual fear memory using wild-type (WT) and serine racemase (SRR) knockout (KO) mice that exhibit 90% reduction in D-serine content in the hippocampus. We found that SRR disruption impairs P-RE, facilitates immediate extinction (IE), but has no effect on delayed extinction (DE) of contextual fear memories. The impaired P-RE of contextual fear memory in SRRKO mice was associated with increased expression of the GluA1 subunit of the α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-type glutamate receptor (AMPAR) in the hippocampal synaptic membrane fraction after P-RE, and this increase of AMPAR and impaired P-RE were rescued by the administration of D-serine to SRRKO mice. Our findings suggest that D-serine is differentially involved in the regulation of contextual fear extinction depending on the timing of behavioral intervention, and that combining D-serine or other drugs, enhancing the NMDAR function, with P-RE may achieve optimal outcomes for the treatment of PTSD.

Published
2018
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27. Serine racemase deletion attenuates neurodegeneration and microvascular damage in diabetic retinopathy.

Author

Hironori Ozaki, Ran Inoue, Takako Matsushima, Masakiyo Sasahara, Atsushi Hayashi, and Hisashi Mori

Subjects
Medicine, Science
Abstract

Diabetic retinopathy (DR) is a leading cause of blindness. DR is recognized as a microvascular disease and inner retinal neurodegeneration. In the course of retinal neurodegeneration, N-methyl-D-aspartate receptor (NMDAR)-mediated excitotoxicity is involved. Full activation of NMDAR requires binding of agonist glutamate and coagonist glycine or D-serine. D-Serine is produced from L-serine by serine racemase (SRR) and contributes to retinal neurodegeneration in rodent models of DR. However, the involvement of SRR in both neurodegeneration and microvascular damage in DR remains unclear. Here, we established diabetic model of SRR knockout (SRR-KO) and control wild-type (WT) mice by streptozotocin injection. Six months after the onset of diabetes, the number of survived retinal ganglion cells was higher in SRR-KO mice than that of WT mice. The reduction of thickness of inner retinal layer (IRL) was attenuated in SRR-KO mice than that of WT mice. Moreover, the number of damaged acellular capillaries was lower in SRR-KO mice than that of WT mice. Our results suggest the suppression of SRR activity may have protective effects in DR.

Published
2018
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28. Human Bocavirus in Patients with Encephalitis, Sri Lanka, 2009–2010

Author

Daisuke Mori, Udaya Ranawaka, Kentaro Yamada, Shaman Rajindrajith, Kazushi Miya, Harsha Kumara Kithsiri Perera, Takashi Matsumoto, Malka Dassanayake, Marcelo Takahiro Mitui, Hisashi Mori, Akira Nishizono, Maria Söderlund-Venermo, and Kamruddin Ahmed

Subjects
Atypical mycobacteria, epidemiology, MAIC, Mycobacteria atypical, Mycobacterium avium-intracellulare, Mycobacterium avium-intracellulare complex, Medicine, Infectious and parasitic diseases, RC109-216
Abstract

We identified human bocavirus (HBoV) DNA by PCR in cerebrospinal fluid from adults and children with encephalitis in Sri Lanka. HBoV types 1, 2, and 3 were identified among these cases. Phylogenetic analysis of HBoV1 strain sequences found no subclustering with strains previously identified among encephalitis cases in Bangladesh.

Published
2013
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29. Zinc Transporter SLC39A7/ZIP7 Promotes Intestinal Epithelial Self-Renewal by Resolving ER Stress.

Author

Wakana Ohashi, Shunsuke Kimura, Toshihiko Iwanaga, Yukihiro Furusawa, Tarou Irié, Hironori Izumi, Takashi Watanabe, Atsushi Hijikata, Takafumi Hara, Osamu Ohara, Haruhiko Koseki, Toshiro Sato, Sylvie Robine, Hisashi Mori, Yuichi Hattori, Hiroshi Watarai, Kenji Mishima, Hiroshi Ohno, Koji Hase, and Toshiyuki Fukada

Subjects
Genetics, QH426-470
Abstract

Zinc transporters play a critical role in spatiotemporal regulation of zinc homeostasis. Although disruption of zinc homeostasis has been implicated in disorders such as intestinal inflammation and aberrant epithelial morphology, it is largely unknown which zinc transporters are responsible for the intestinal epithelial homeostasis. Here, we show that Zrt-Irt-like protein (ZIP) transporter ZIP7, which is highly expressed in the intestinal crypt, is essential for intestinal epithelial proliferation. Mice lacking Zip7 in intestinal epithelium triggered endoplasmic reticulum (ER) stress in proliferative progenitor cells, leading to significant cell death of progenitor cells. Zip7 deficiency led to the loss of Olfm4+ intestinal stem cells and the degeneration of post-mitotic Paneth cells, indicating a fundamental requirement for Zip7 in homeostatic intestinal regeneration. Taken together, these findings provide evidence for the importance of ZIP7 in maintenance of intestinal epithelial homeostasis through the regulation of ER function in proliferative progenitor cells and maintenance of intestinal stem cells. Therapeutic targeting of ZIP7 could lead to effective treatment of gastrointestinal disorders.

Published
2016
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30. Genetic relationships and expected responses for genetic improvement of carcass traits of Berkshire pigs

Author

Masamitsu Tomiyama, Takeshi Kanetani, Yuuko Tatsukawa, Hisashi Mori, and Takuro Oikawa

Subjects
correlated response, pig breeds, meat productivity trait, ultrasound equipment, Agriculture (General), S1-972
Abstract

The Berkshire pig (Sus domestica L.) breed has thin muscle fibers and excellent water-holding capacity. The Berkshire meat makes it widely accepted in the Japanese premium pork market. This study evaluates the accuracy of improving carcass quality with the use of live animal records of Berkshire pigs. Traits analyzed in live animals were: body weight at 60 days of age (W60), age at finish (AGF), daily weight gain from birth to finish (DG), back fat thickness at finish (BFTF), and loin eye area at finish (LEAF), and in carcasses were: carcass weight, loin eye area (LEA), and subcutaneous fat thickness (SCF) at some points, using the records of 4,773 purebred Berkshire pigs. Variance components for the traits were estimated according to the animal model by the Restricted Maximum Likelihood (REML) procedure using the VCE6 program (Neumaier and Groeneveld, 1998). Correlated responses were also calculated. Genetic correlations of back fat thickness (BFT) in live animals with SCF in slaughtered animals were strong, whereas that of LEA between live and slaughtered animals was low. The expected gains by actual selection including W60 and BFTF as selection criterion were superior to other selections. Therefore, selection of live animals at an early stage of growth would be conducive to the production of high quality meat.

Published
2011
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31. Increased sensitivity to inflammatory pain induced by subcutaneous formalin injection in serine racemase knock-out mice.

Author

Ayako Tabata-Imai, Ran Inoue, and Hisashi Mori

Subjects
Medicine, Science
Abstract

D-Serine, an endogenous coagonist of the N-methyl-D-aspartate receptor (NMDAR), is widely distributed in the central nervous system and is synthesized from L-serine by serine racemase (SR). NMDAR plays an important role in pain processing including central sensitization that eventually causes hyperalgesia. To elucidate the roles of D-serine and SR in pain transmission, we evaluated the behavioral changes and spinal nociceptive processing induced by formalin using SR knock-out (KO) mice. We found that SR is mainly distributed in lamina II of the dorsal horn of the spinal cord in wild-type (WT) mice. Although the formalin injected subcutaneously induced the biphasic pain response of licking in SR-KO and WT mice, the time spent on licking was significantly longer in the SR-KO mice during the second phase of the formalin test. The number of neurons immunopositive for c-Fos and phosphorylated extracellular signal-regulated kinase (p-ERK), which are molecular pain markers, in laminae I-II of the ipsilateral dorsal horn was significantly larger in the SR-KO mice. Immunohistochemical staining revealed that the distribution of SR changed from being broad to being concentrated in cell bodies after the formalin injection. On the other hand, the expression level of the cytosolic SR in the ipsilateral dorsal horn significantly decreased. Oral administration of 10 mM D-serine in drinking water for one week cancelled the difference in pain behaviors between WT and SR-KO mice in phase 2 of the formalin test. These findings demonstrate that the SR-KO mice showed increased sensitivity to inflammatory pain and the WT mice showed translocation of SR and decreased SR expression levels after the formalin injection, which suggest a novel antinociceptive mechanism via SR indicating an important role of D-serine in pain transmission.

Published
2014
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32. Role of serine racemase in behavioral sensitization in mice after repeated administration of methamphetamine.

Author

Mao Horio, Mami Kohno, Yuko Fujita, Tamaki Ishima, Ran Inoue, Hisashi Mori, and Kenji Hashimoto

Subjects
Medicine, Science
Abstract

BackgroundThe N-methyl-D-aspartate (NMDA) receptors play a role in behavioral abnormalities observed after administration of the psychostimulant, methamphetamine (METH). Serine racemase (SRR) is an enzyme which synthesizes D-serine, an endogenous co-agonist of NMDA receptors. Using Srr knock-out (KO) mice, we investigated the role of SRR on METH-induced behavioral abnormalities in mice.Methodology/principal findingsEvaluations of behavior in acute hyperlocomotion, behavioral sensitization, and conditioned place preference (CPP) were performed. The role of SRR on the release of dopamine (DA) in the nucleus accumbens after administration of METH was examined using in vivo microdialysis technique. Additionally, phosphorylation levels of ERK1/2 proteins in the striatum, frontal cortex and hippocampus were examined using Western blot analysis. Acute hyperlocomotion after a single administration of METH (3 mg/kg) was comparable between wild-type (WT) and Srr-KO mice. However, repeated administration of METH (3 mg/kg/day, once daily for 5 days) resulted in behavioral sensitization in WT, but not Srr-KO mice. Pretreatment with D-serine (900 mg/kg, 30 min prior to each METH treatment) did not affect the development of behavioral sensitization after repeated METH administration. In the CPP paradigm, METH-induced rewarding effects were demonstrable in both WT and Srr-KO mice. In vivo microdialysis study showed that METH (1 mg/kg)-induced DA release in the nucleus accumbens of Srr-KO mice previously treated with METH was significantly lower than that of the WT mice previously treated with METH. Interestingly, a single administration of METH (3 mg/kg) significantly increased the phosphorylation status of ERK1/2 in the striatum of WT, but not Srr-KO mice.Conclusions/significanceThese findings suggest first, that SRR plays a role in the development of behavioral sensitization in mice after repeated administration of METH, and second that phosphorylation of ERK1/2 by METH may contribute to the development of this sensitization as seen in WT but not Srr-KO mice.

Published
2012
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33. A novel form of memory for auditory fear conditioning at a low-intensity unconditioned stimulus.

Author

Ayumi Kishioka, Fumiaki Fukushima, Tamae Ito, Hirotaka Kataoka, Hisashi Mori, Toshio Ikeda, Shigeyoshi Itohara, Kenji Sakimura, and Masayoshi Mishina

Subjects
Medicine, Science
Abstract

Fear is one of the most potent emotional experiences and is an adaptive component of response to potentially threatening stimuli. On the other hand, too much or inappropriate fear accounts for many common psychiatric problems. Cumulative evidence suggests that the amygdala plays a central role in the acquisition, storage and expression of fear memory. Here, we developed an inducible striatal neuron ablation system in transgenic mice. The ablation of striatal neurons in the adult brain hardly affected the auditory fear learning under the standard condition in agreement with previous studies. When conditioned with a low-intensity unconditioned stimulus, however, the formation of long-term fear memory but not short-tem memory was impaired in striatal neuron-ablated mice. Consistently, the ablation of striatal neurons 24 h after conditioning with the low-intensity unconditioned stimulus, when the long-term fear memory was formed, diminished the retention of the long-term memory. Our results reveal a novel form of the auditory fear memory depending on striatal neurons at the low-intensity unconditioned stimulus.

Published
2009
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34. Ablation of NMDA receptors enhances the excitability of hippocampal CA3 neurons.

Author

Fumiaki Fukushima, Kazuhito Nakao, Toru Shinoe, Masahiro Fukaya, Shin-Ichi Muramatsu, Kenji Sakimura, Hirotaka Kataoka, Hisashi Mori, Masahiko Watanabe, Toshiya Manabe, and Masayoshi Mishina

Subjects
Medicine, Science
Abstract

Synchronized discharges in the hippocampal CA3 recurrent network are supposed to underlie network oscillations, memory formation and seizure generation. In the hippocampal CA3 network, NMDA receptors are abundant at the recurrent synapses but scarce at the mossy fiber synapses. We generated mutant mice in which NMDA receptors were abolished in hippocampal CA3 pyramidal neurons by postnatal day 14. The histological and cytological organizations of the hippocampal CA3 region were indistinguishable between control and mutant mice. We found that mutant mice lacking NMDA receptors selectively in CA3 pyramidal neurons became more susceptible to kainate-induced seizures. Consistently, mutant mice showed characteristic large EEG spikes associated with multiple unit activities (MUA), suggesting enhanced synchronous firing of CA3 neurons. The electrophysiological balance between fast excitatory and inhibitory synaptic transmission was comparable between control and mutant pyramidal neurons in the hippocampal CA3 region, while the NMDA receptor-slow AHP coupling was diminished in the mutant neurons. In the adult brain, inducible ablation of NMDA receptors in the hippocampal CA3 region by the viral expression vector for Cre recombinase also induced similar large EEG spikes. Furthermore, pharmacological blockade of CA3 NMDA receptors enhanced the susceptibility to kainate-induced seizures. These results raise an intriguing possibility that hippocampal CA3 NMDA receptors may suppress the excitability of the recurrent network as a whole in vivo by restricting synchronous firing of CA3 neurons.

Published
2009
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35. Enhancement of both long-term depression induction and optokinetic response adaptation in mice lacking delphilin.

Author

Tomonori Takeuchi, Gen Ohtsuki, Takashi Yoshida, Masahiro Fukaya, Tasuku Wainai, Manami Yamashita, Yoshito Yamazaki, Hisashi Mori, Kenji Sakimura, Susumu Kawamoto, Masahiko Watanabe, Tomoo Hirano, and Masayoshi Mishina

Subjects
Medicine, Science
Abstract

In the cerebellum, Delphilin is expressed selectively in Purkinje cells (PCs) and is localized exclusively at parallel fiber (PF) synapses, where it interacts with glutamate receptor (GluR) delta2 that is essential for long-term depression (LTD), motor learning and cerebellar wiring. Delphilin ablation exerted little effect on the synaptic localization of GluRdelta2. There were no detectable abnormalities in cerebellar histology, PC cytology and PC synapse formation in contrast to GluRdelta2 mutant mice. However, LTD induction was facilitated at PF-PC synapses in Delphilin mutant mice. Intracellular Ca(2+) required for the induction of LTD appeared to be reduced in the mutant mice, while Ca(2+) influx through voltage-gated Ca(2+) channels and metabotropic GluR1-mediated slow synaptic response were similar between wild-type and mutant mice. We further showed that the gain-increase adaptation of the optokinetic response (OKR) was enhanced in the mutant mice. These findings are compatible with the idea that LTD induction at PF-PC synapses is a crucial rate-limiting step in OKR gain-increase adaptation, a simple form of motor learning. As exemplified in this study, enhancing synaptic plasticity at a specific synaptic site of a neural network is a useful approach to understanding the roles of multiple plasticity mechanisms at various cerebellar synapses in motor control and learning.

Published
2008
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39. An Extended STAMP/STPA for Vehicle System Development to Comply with ISO 21448 and ISO 26262.

Author

Ryosuke Oba, Keishi Okamoto, Ryo Muramatsu, Hisashi Mori, and Manabu Misawa

Abstract

In vehicle system development, complying with ISO 21448 and ISO 26262 grows in demand. However, the challenge lies in realizing an efficient safety analysis method that can comply with both standards by effectively sharing their respective parts. To address this challenge, we focus on STAMP/STPA. STAMP/STPA is applicable to safety analysis in the concept phase of the product development process, and examples of the application of STAMP/STPA are provided in the appendix of ISO 21448. In this paper, we propose an extended STAMP/STPA that can efficiently comply with both international standards. [ABSTRACT FROM AUTHOR]

Published
2024

42. Interfacial Microstructure and Mechanical Properties of Explosively Welded Mg/Al Alloy Plates

Author

Mami Mihara-Narita, Konosuke Asai, Hisashi Sato, Yoshimi Watanabe, Hisashi Mori, Naobumi Saito, and Yasumasa Chino

Subjects
Mechanics of Materials, Mechanical Engineering, technology, industry, and agriculture, General Materials Science, equipment and supplies
Abstract

The interfacial microstructure and hardness of cladding plates produced by explosive welding between magnesium alloys having different aluminum concentrations and A6005C aluminum alloy were investigated. Further, measurements of residual stress at the interface of cladding plates were performed. In all cladding plates, the bonding interface had a wavy shape. Adiabatic shear bands were formed at the interface on the magnesium alloy side and deformation twins appeared at the interface due to the impact of explosive welding. Microstructure observation using scanning transmission electron microscope revealed that a thin interlayer was formed at the interface in all cladding plates. The thickness of the interlayer increased with an increase in aluminum concentration in the magnesium alloy, while the thickness was 1 μm or less. In the cross-section of the cladding plate, aluminum alloy showed a relatively higher Vickers hardness value compared with the magnesium alloy, and the hardness value increased when approaching the interface. However, nanoindentation tests revealed no increase in hardness was observed at the interface. Measurements of the residual stress using synchrotron radiation x-rays at the interface of cladding plates revealed a tendency for the occurrence of tensile residual stress on the magnesium alloy side and compressive residual stress on the aluminum alloy side. This might be due to a difference in the coefficient of thermal expansion between the magnesium and aluminum alloys.

Published
2022
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44. BST1 regulates nicotinamide riboside metabolism via its glycohydrolase and base-exchange activities

Author

Mariam Karim, Keisuke Yaku, Yasuhito Nitta, Tooba Iqbal, Marie E. Migaud, Hisashi Mori, Hironori Izumi, Atsushi Sato, Katsuhiko Ishihara, Keisuke Hikosaka, Faisal Hayat, Sailesh Palikhe, Takashi Nakagawa, and Tomoyuki Yoshida

Subjects
Niacinamide, Aging, Glycoside Hydrolases, Science, General Physics and Astronomy, Administration, Oral, Pyridinium Compounds, GPI-Linked Proteins, Niacin, General Biochemistry, Genetics and Molecular Biology, Article, chemistry.chemical_compound, Mice, Antigens, CD, Intestine, Small, Metabolomics, Animals, Humans, Pentosyltransferases, Intestinal Mucosa, ADP-ribosyl Cyclase, Nucleotide salvage, Nutrition, chemistry.chemical_classification, Mice, Knockout, Multidisciplinary, Nicotinamide, Endocrine system and metabolic diseases, General Chemistry, Riboside, Gastrointestinal Microbiome, Metabolic pathway, Enzyme, Nicotinic agonist, chemistry, Biochemistry, A549 Cells, Nicotinamide riboside, Dietary Supplements, NAD+ kinase
Abstract

Nicotinamide riboside (NR) is one of the orally bioavailable NAD+ precursors and has been demonstrated to exhibit beneficial effects against aging and aging-associated diseases. However, the metabolic pathway of NR in vivo is not yet fully understood. Here, we demonstrate that orally administered NR increases NAD+ level via two different pathways. In the early phase, NR was directly absorbed and contributed to NAD+ generation through the NR salvage pathway, while in the late phase, NR was hydrolyzed to nicotinamide (NAM) by bone marrow stromal cell antigen 1 (BST1), and was further metabolized by the gut microbiota to nicotinic acid, contributing to generate NAD+ through the Preiss–Handler pathway. Furthermore, we report BST1 has a base-exchange activity against both NR and nicotinic acid riboside (NAR) to generate NAR and NR, respectively, connecting amidated and deamidated pathways. Thus, we conclude that BST1 plays a dual role as glycohydrolase and base-exchange enzyme during oral NR supplementation., Nicotinamide riboside (NR) is a NAD + precursor exhibiting beneficial effects against aging. Here the authors demonstrate that orally administered NR increases NAD + levels in a diphasic manner and that bone marrow stromal cell antigen 1 plays a crucial role for NAD + synthesis from NR.

Published
2021

47. A New Method for Albuminuria Measurement Using a Specific Reaction between Albumin and the Luciferin of the Firefly Squid Watasenia scintillans

Author

Tetsuya Ishimoto, Takuya Okada, Shiho Fujisaka, Kunimasa Yagi, Kazuyuki Tobe, Naoki Toyooka, and Hisashi Mori

Subjects
Inorganic Chemistry, Watasenia scintillans, luciferin, albumin, bioluminescence, urine, diabetic nephropathy, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications
Abstract

This study demonstrates that the luciferin of the firefly squid Watasenia scintillans, which generally reacts with Watasenia luciferase, reacted with human albumin to emit light in proportion to the albumin concentration. The luminescence showed a peak wavelength at 540 nm and was eliminated by heat or protease treatment. We used urine samples collected from patients with diabetes to quantify urinary albumin concentration, which is essential for the early diagnosis of diabetic nephropathy. Consequently, we were able to measure urinary albumin concentrations by precipitating urinary proteins with acetone before the reaction with luciferin. A correlation was found with the result of the immunoturbidimetric method; however, the Watasenia luciferin method tended to produce lower albumin concentrations. This may be because the Watasenia luciferin reacts with only intact albumin. Therefore, the quantification method using Watasenia luciferin is a new principle of urinary albumin measurement that differs from already established methods such as immunoturbidimetry and high-performance liquid chromatography.

Published
2022
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48. Bioluminescence imaging using d-luciferin and its analogs for visualizing Bdnf expression in living mice; different patterns of bioluminescence signals using distinct luciferase substrates

Author

Mamoru Fukuchi, Satoru Mitazaki, Ryohei Saito-Moriya, Nobuo Kitada, Shojiro A Maki, Hironori Izumi, and Hisashi Mori

Subjects
Mice, Brain-Derived Neurotrophic Factor, Luciferins, Animals, General Medicine, Luciferases, Molecular Biology, Biochemistry
Abstract

Brain-derived neurotrophic factor (BDNF) plays a crucial role in numerous brain functions, including memory consolidation. Previously, we generated a Bdnf-Luciferase transgenic (Bdnf-Luc) mouse strain to visualize changes in Bdnf expression using in vivo bioluminescence imaging. We successfully visualized activity-dependent Bdnf induction in living mouse brains using a d-luciferin analog, TokeOni, which distributes to the brain and produces near-infrared bioluminescence. In this study, we compared the patterns of bioluminescence signals within the whole body of the Bdnf-Luc mice produced by d-luciferin, TokeOni and seMpai, another d-luciferin analog that produces a near-infrared light. As recently reported, hepatic background signals were observed in wild-type mice when using TokeOni. Bioluminescence signals were strongly observed from the region containing the liver when using d-luciferin and TokeOni. Additionally, we detected signals from the brain when using TokeOni. Compared with d-luciferin and TokeOni, signals were widely detected in the whole body of Bdnf-Luc mice by seMpai. The signals produced by seMpai were strong in the regions containing skeletal muscles in particular. Taken together, the patterns of bioluminescence signals in Bdnf-Luc mice vary when using different luciferase substrates. Therefore, the expression of Bdnf in tissues and organs of interest could be visualized by selecting an appropriate substrate.

Published
2022

49. Regional contributions of D-serine to Alzheimer’s disease pathology in male AppNL−G−F/NL−G−F mice.

Author

Xiance Ni, Ran Inoue, Yi Wu, Tomoyuki Yoshida, Keisuke Yaku, Takashi Nakagawa, Takashi Saito, Saido, Takaomi C., Keizo Takao, and Hisashi Mori

Subjects
STATISTICS, DISEASE progression, ALZHEIMER'S disease, ANALYSIS of variance, STAINS & staining (Microscopy), ANIMAL experimentation, T-test (Statistics), CELLULAR signal transduction, SERINE, DESCRIPTIVE statistics, RESEARCH funding, DATA analysis software, DATA analysis, MICE
Abstract

Background: Neurodegenerative processes in Alzheimer’s disease (AD) are associated with excitotoxicity mediated by the N-methyl-D-aspartate receptor (NMDAR). D-Serine is an endogenous co-agonist necessary for NMDAR-mediated excitotoxicity. In the mammalian brain, it is produced by serine racemase (SRR) from L-serine, suggesting that dysregulation of L-serine, D-serine, or SRR may contribute to AD pathogenesis. Objective and methods: We examined the contributions of D-serine to AD pathology in the AppNL−G−F/NL−G−F gene knock-in (APPKI) mouse model of AD. We first examined brain SRR expression levels and neuropathology in APPKI mice and then assessed the effects of long-term D-serine supplementation in drinking water on neurodegeneration. To further confirm the involvement of endogenous D-serine in AD progression, we generated Srr gene-deleted APPKI (APPKI-SRRKO) mice. Finally, to examine the levels of brain amino acids, we conducted liquid chromatography–tandem mass spectrometry. Results: Expression of SRR was markedly reduced in the retrosplenial cortex (RSC) of APPKI mice at 12 months of age compared with age-matched wildtype mice. Neuronal density was decreased in the hippocampal CA1 region but not altered significantly in the RSC. D-Serine supplementation exacerbated neuronal loss in the hippocampal CA1 of APPKI mice, while APPKI-SRRKO mice exhibited attenuated astrogliosis and reduced neuronal death in the hippocampal CA1 compared with APPKI mice. Furthermore, APPKI mice demonstrated marked abnormalities in the cortical amino acid levels that were partially reversed in APPKI-SRRKO mice. Conclusion: These findings suggest that D-serine participates in the regional neurodegenerative process in the hippocampal CA1 during the amyloid pathology of AD and that reducing brain D-serine can partially attenuate neuronal loss and reactive astrogliosis. Therefore, regulating SRR could be an effective strategy to mitigate NMDAR-dependent neurodegeneration during AD progression. [ABSTRACT FROM AUTHOR]

Published
2023
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50. Molecular dynamics simulations of a multicellular model with cell-cell interactions and Hippo signaling pathway.

Author

Toshihito Umegaki, Hisashi Moriizumi, Fumiko Ogushi, Mutsuhiro Takekawa, and Takashi Suzuki

Subjects
Biology (General), QH301-705.5
Abstract

The transcriptional coactivator Yes-associated protein (YAP)/transcriptional co-activator with PDZ binding motif (TAZ) induces cell proliferation through nuclear localization at low cell density. Conversely, at extremely high cell density, the Hippo pathway, which regulates YAP/TAZ, is activated. This activation leads to the translocation of YAP/TAZ into the cytoplasm, resulting in cell cycle arrest. Various cancer cells have several times more YAP/TAZ than normal cells. However, it is not entirely clear whether this several-fold increase in YAP/TAZ alone is sufficient to overcome proliferation inhibition (contact inhibition) under high-density conditions, thereby allowing continuous proliferation. In this study, we construct a three-dimensional (3D) mathematical model of cell proliferation incorporating the Hippo-YAP/TAZ pathway. Herein, a significant innovation in our approach is the introduction of a novel modeling component that inputs cell density, which reflects cell dynamics, into the Hippo pathway and enables the simulation of cell proliferation as the output response. We assume such 3D model with cell-cell interactions by solving reaction and molecular dynamics (MD) equations by applying adhesion and repulsive forces that act between cells and frictional forces acting on each cell. We assume Lennard-Jones (12-6) potential with a softcore character so that each cell secures its exclusive domain. We set cell cycles composed of mitotic and cell growth phases in which cells divide and grow under the influence of cell kinetics. We perform mathematical simulations at various YAP/TAZ levels to investigate the extent of YAP/TAZ increase required for sustained proliferation at high density. The results show that a twofold increase in YAP/TAZ levels of cancer cells was sufficient to evade cell cycle arrest compared to normal cells, enabling cells to continue proliferating even under high-density conditions. Finally, this mathematical model, which incorporates cell-cell interactions and the Hippo-YAP/TAZ pathway, may be applicable for evaluating cancer malignancy based on YAP/TAZ levels, developing drugs to suppress the abnormal proliferation of cancer cells, and determining appropriate drug dosages. The source codes are freely available.

Published
2024
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