Your search keyword '"Hirabayashi, Masumi"' showing total 12 results

1. Restoration of copper metabolism and rescue of hepatic abnormalities in LEC rats, an animal model of Wilson disease, by expression of human ATP7B gene

Author

Meng, Yan, Miyoshi, Ichiro, Hirabayashi, Masumi, Su, Mu, Mototani, Yasumasa, Okamura, Tadashi, Terada, Kunihiko, Ueda, Masatsugu, Enomoto, Katsuhiko, Sugiyama, Toshihiro, and Kasai, Noriyuki

Published

2004

2. Oligodendrocyte-derived LGI3 and its receptor ADAM23 organize juxtaparanodal Kv1 channel clustering for short-term synaptic plasticity.

Author

Miyazaki, Yuri, Otsuka, Takeshi, Yamagata, Yoko, Endo, Toshihiro, Sanbo, Makoto, Sano, Hiromi, Kobayashi, Kenta, Inahashi, Hiroki, Kornau, Hans-Christian, Schmitz, Dietmar, Prüss, Harald, Meijer, Dies, Hirabayashi, Masumi, Fukata, Yuko, and Fukata, Masaki

Abstract

Neurodevelopmental disorders, such as intellectual disability (ID), epilepsy, and autism, involve altered synaptic transmission and plasticity. Functional characterization of their associated genes is vital for understanding physio-pathological brain functions. LGI3 is a recently recognized ID-associated gene encoding a secretory protein related to an epilepsy-gene product, LGI1. Here, we find that LGI3 is uniquely secreted from oligodendrocytes in the brain and enriched at juxtaparanodes of myelinated axons, forming nanoscale subclusters. Proteomic analysis using epitope-tagged Lgi3 knockin mice shows that LGI3 uses ADAM23 as a receptor and selectively co-assembles with Kv1 channels. A lack of Lgi3 in mice disrupts juxtaparanodal clustering of ADAM23 and Kv1 channels and suppresses Kv1-channel-mediated short-term synaptic plasticity. Collectively, this study identifies an extracellular organizer of juxtaparanodal Kv1 channel clustering for finely tuned synaptic transmission. Given the defective secretion of the LGI3 missense variant, we propose a molecular pathway, the juxtaparanodal LGI3-ADAM23-Kv1 channel, for understanding neurodevelopmental disorders. [Display omitted] • Oligodendrocyte-derived LGI3 forms nanoclusters at juxtaparanodes of myelinated axons • LGI3 is required for juxtaparanodal clustering of ADAM23 and Kv1 channels • LGI3 regulates Kv1-channel-dependent short-term plasticity in the cerebral cortex • Juxtaparanodal LGI3-ADAM23-Kv1 channel is a possible molecular pathway affected in ID Miyazaki et al. show that intellectual-disability-related ligand LGI3 is secreted from oligodendrocytes and specifically clustered at the juxtaparanode of myelinated axons together with its axonal receptor, ADAM23. The juxtaparanode-specific action of LGI3 allows us to serendipitously isolate a subcellular-specific role of ubiquitously expressed Kv1 channels in short-term synaptic plasticity. [ABSTRACT FROM AUTHOR]

Published

2024

3. 14-3-3 proteins stabilize LGI1-ADAM22 levels to regulate seizure thresholds in mice.

Author

Yokoi, Norihiko, Fukata, Yuko, Okatsu, Kei, Yamagata, Atsushi, Liu, Yan, Sanbo, Makoto, Miyazaki, Yuri, Goto, Teppei, Abe, Manabu, Kassai, Hidetoshi, Sakimura, Kenji, Meijer, Dies, Hirabayashi, Masumi, Fukai, Shuya, and Fukata, Masaki

Abstract

What percentage of the protein function is required to prevent disease symptoms is a fundamental question in genetic disorders. Decreased transsynaptic LGI1-ADAM22 protein complexes, because of their mutations or autoantibodies, cause epilepsy and amnesia. However, it remains unclear how LGI1-ADAM22 levels are regulated and how much LGI1-ADAM22 function is required. Here, by genetic and structural analysis, we demonstrate that quantitative dual phosphorylation of ADAM22 by protein kinase A (PKA) mediates high-affinity binding of ADAM22 to dimerized 14-3-3. This interaction protects LGI1-ADAM22 from endocytosis-dependent degradation. Accordingly, forskolin-induced PKA activation increases ADAM22 levels. Leveraging a series of ADAM22 and LGI1 hypomorphic mice, we find that ∼50% of LGI1 and ∼10% of ADAM22 levels are sufficient to prevent lethal epilepsy. Furthermore, ADAM22 function is required in excitatory and inhibitory neurons. These results suggest strategies to increase LGI1-ADAM22 complexes over the required levels by targeting PKA or 14-3-3 for epilepsy treatment. [Display omitted] • Dual phosphorylation of ADAM22 mediates high-affinity binding to dimerized 14-3-3 • Quantitative 14-3-3 interaction protects ADAM22 from endocytosis-mediated degradation • PKA activation enhances ADAM22-14-3-3 binding to increase ADAM22 protein levels • Ten percent of ADAM22 residual levels is sufficient to suppress epilepsy in mouse models Yokoi et al. tackle the question of how much protein function needs to be restored in loss-of-function genetic diseases. Developing hypomorphic mouse models, they estimate minimal levels of a key determinant of epilepsy phenotypes. They propose that biogenesis pathways of the determinant protein could be promising anti-epilepsy drug targets. [ABSTRACT FROM AUTHOR]

Published

2021

4. Tracing the emergence of primordial germ cells from bilaminar disc rabbit embryos and pluripotent stem cells.

Author

Kobayashi, Toshihiro, Castillo-Venzor, Aracely, Penfold, Chris A., Morgan, Michael, Mizuno, Naoaki, Tang, Walfred W.C., Osada, Yasuyuki, Hirao, Masao, Yoshida, Fumika, Sato, Hideyuki, Nakauchi, Hiromitsu, Hirabayashi, Masumi, and Surani, M. Azim

Abstract

Rabbit embryos develop as bilaminar discs at gastrulation as in humans and most other mammals, whereas rodents develop as egg cylinders. Primordial germ cells (PGCs) appear to originate during gastrulation according to many systematic studies on mammalian embryos. Here, we show that rabbit PGC (rbPGC) specification occurs at the posterior epiblast at the onset of gastrulation. Using newly derived rabbit pluripotent stem cells, we show robust and rapid induction of rbPGC-like cells in vitro with WNT and BMP morphogens, which reveals SOX17 as the critical regulator of rbPGC fate as in several non-rodent mammals. We posit that development as a bilaminar disc is a crucial determinant of the PGC regulators, regardless of the highly diverse development of extraembryonic tissues, including the amnion. We propose that investigations on rabbits with short gestation, large litters, and where gastrulation precedes implantation can contribute significantly to advances in early mammalian development. [Display omitted] • Rabbit PGCs are specified at the posterior epiblast of the bilaminar disc embryo • Rabbit pluripotent state is characteristic of many mammalian disc-shaped epiblast • PGC-like cells induced from pluripotent cells are like in vivo nascent rabbit PGCs • SOX17 is a critical PGC specifier in rabbits as in humans and non-rodent mammals Gastrulation in humans and non-rodent mammals occurs in bilaminar-disc embryos, unlike egg cylinders in rodents. Using stem cells and single-cell cellular and molecular approaches, Kobayashi et al. show the germline origin in bilaminar-disc rabbit embryos. The evident similarity with human embryos underlines the significance of the rabbit model. [ABSTRACT FROM AUTHOR]

Published

2021

5. Downsizing cumulus cell layers to improve cryotolerance of germinal vesicle-stage bovine oocytes.

Author

Tashima, Kazuya, Kubo, Yuki, Hirabayashi, Masumi, and Hochi, Shinichi

Subjects

*CUMULUS cells (Embryology), *GERMINAL vesicles, *OVUM, *BLASTOCYST, *PERILIPIN

Abstract

This study was undertaken to investigate whether complete removal or downsizing of the cumulus cell layers in germinal vesicle (GV)-stage bovine cumulus-oocyte complexes (COCs) can improve blastocyst development rate following Cryotop vitrification. Downsized COCs (196 μm in mean diameter) and denuded oocytes (141 μm in mean diameter) were prepared by vortex-mixing of full-sized COCs (330 μm in mean diameter) retrieved from abattoir-derived ovaries. Nuclear maturation rates, assessed by the first polar body extrusion, after vitrification and the subsequent 22-h IVM were comparable (61.9–62.9%). Approximately one-third (30.5–31.2%) of the matured oocytes derived from the downsized COCs could develop into high quality blastocysts after 6-h IVF and 8-d IVC, while 13.4 and 23.7% of the matured oocytes derived from denuded oocytes and full-size COCs reached to the blastocysts, respectively. Cytoplasmic lipid droplets of matured oocytes in vitrification group were more clustered with decreased number and increased size of the droplets, when compared to those in fresh control group. However, individual oocyte culture in well-of-the well system suggested that change of lipid droplet distribution in the matured oocytes had no adverse effect on their subsequent developmental competence up to the blastocyst stage. In conclusion, Cryotop vitrification of downsized GV-stage bovine COCs allowed blastocyst yields as high as >30%. [ABSTRACT FROM AUTHOR]

Published

2017

6. Analysis of the flanking regions of the human α-lactalbumin gene responsible for position-effect independent expression

Author

Fujiwara, Yoshihiro, Takahashi, Ri-ichi, Hirabayashi, Masumi, Ueda, Masatsugu, Muramatsu, Tatsuo, Yamanaka, Harumichi, and Sekikawa, Kenji

Subjects

*TRANSGENIC mice, *MAMMARY glands

Abstract

Transgenic rats with the 130 kb bacterial artificial chromosome construct bLA, including the α-lactalbumin gene, had position-independent and copy number-dependent expression, which confirmed previous experiments using the 210 kb yeast artificial construct, yLALBA. To identify elements that confer a position effect, we compared the yLALBA and bLA sequences. yLALBA was chimeric. A common 32 kb region was identified and the total nucleotide sequence was determined. We previously analyzed transgenic rats using polymerase chain reaction to compare the integrity and expression of the transgenes. The −6 to +9 kb region is considered to be necessary for position-independent expression. Transgenic rats lacking the −3.4 to −0.85 kb region had a severe position effect. This 2.5 kb region contains two DNaseI hypersensitive sites at −1.0 and −2.8 kb. The 2.5 kb region is proposed to be a locus control region of the human α-lactalbumin gene. [Copyright &y& Elsevier]

Published

2003

7. All-in-One Silk Fibroin Sponge as the Vitrification Cryodevice of Rat Pancreatic Islets and the VEGF-Embedded Scaffold for Subrenal Transplantation.

Author

Yamanaka, Takahiro, Nakayama-Iwatsuki, Kenyu, Fujimoto, Sora, Hirono, Naoki, Negishi, Jun, Tamada, Yasushi, Hirabayashi, Masumi, and Hochi, Shinichi

Subjects

*HYPERGLYCEMIA, *TRANSPLANTATION of organs, tissues, etc., *KIDNEY transplantation, *ISLANDS of Langerhans, *SILK fibroin, *VASCULAR endothelial growth factors, *TYPE 1 diabetes, *VITRIFICATION

Abstract

Islet transplantation is a promising option for the clinical treatment of insulin-dependent diabetes, but a reliable islet cryopreservation/transplantation protocol should be established to overcome the donor shortage. The current study reports that a silk fibroin (SF) sponge disk can be used as a cryodevice for vitrification of large quantity pancreatic islets and the scaffold for subsequent subrenal transplantation in a rat model. The marginal islet mass (550 islet equivalents [IEQs]) on an SF sponge disk was vitrified-warmed and transplanted beneath the kidney capsule of a streptozotocin-induced diabetic rat with or without vascular endothelial growth factor (VEGF). Subrenal transplantation (no scaffold) of 550 IEQ fresh islets and post-warm islets vitrified on a nylon mesh device resulted in achieving euglycemia of recipient rats at 60% and 0%, respectively. Transplantation of 550 IEQ islets vitrified-warmed on an SF sponge disk failed to achieve euglycemia of recipient rats (0%), but the VEGF inclusion in the SF sponge disk contributed to acquiring the euglycemic recipients (33%). All cured recipient rats regained hyperglycemia after nephrectomy, and the histopathologic analysis exhibited a well-developing blood vessel network into the islet engrafts. Thus, an SF sponge disc was successively available as the cryodevice for islet vitrification, the transporter of the angiogenic VEGF, and the scaffold for subrenal transplantation in the rat model. [ABSTRACT FROM AUTHOR]

Published

2021

8. Identification of the Cluster Control Region for the Protocadherin-β Genes Located beyond the Protocadherin-γ Cluster.

Author

Yokota, Shinnichi, Hirayama, Teruyoshi, Hirano, Keizo, Kaneko, Ryosuke, Toyoda, Shunsuke, Kawamura, Yoshimi, Hirabayashi, Masumi, Hirabayashi, Takahiro, and Yagi, Takeshi

Subjects

*CADHERINS, *CHROMOSOMES, *NEURONS, *CELL membranes, *CHROMATIN, *CELL receptors

Abstract

The clustered protocadherins (Pcdhs), Pcdh-α, -β, and -γ, are transmembrane proteins constituting a subgroup of the cadherin superfamily. Each Pcdh cluster is arranged in tandem on the same chromosome. Each of the three Pcdh clusters shows stochastic and combinatorial expression in individual neurons, thus generating a hugely diverse set of possible cell surface molecules. Therefore, the clustered Pcdhs are candidates for determining neuronal molecular diversity. Here, we showed that the targeted deletion of DNase I hypersensitive (HS) site HS5-1, previously identified as a Pcdh-α regulatory element in vitro, affects especially the expression of specific Pcdh-α isoforms in vivo. We also identified a Pcdh-β cluster control region (CCR) containing six HS sites (HS16, 17, 17', 18, 19, and 20) downstream of the Pcdh-γ cluster. This CCR comprehensively activates the expression of the Pcdh-β gene cluster in cis, and its deletion dramatically decreases their expression levels. Deleting the CCR nonuniformly down-regulates some Pcdh-γ isoforms and does not affect Pcdh-α expression. Thus, the CCR effect extends beyond the 320-kb region containing the Pcdh-γ cluster to activate the upstream Pcdh-β genes. Thus, we concluded that the CCR is a highly specific regulatory unit for Pcdh-β expression on the clustered Pcdh genomic locus. These findings suggest that each Pcdh cluster is controlled by distinct regulatory elements that activate their expression and that the stochastic gene regulation of the clustered Pcdhs is controlled by the complex chromatin architecture of the clustered Pcdh locus. [ABSTRACT FROM AUTHOR]

Published

2011

9. Total Expression and Dual Gene-regulatory Mechanisms Maintained in Deletions and Duplications of the Pcdha Cluster.

Author

Noguchi, Yukiko, Hirabayashi, Takahiro, Katori, Shota, Kawamura, Yoshimi, Sanbo, Makoto, Hirabayashi, Masumi, Kiyonari, Hiroshi, Nakao, Kazuki, Uchimura, Arikuni, and Yagi, Takeshi

Subjects

*CADHERINS, *MEMBRANE proteins, *AXONAL transport, *EXONS (Genetics), *GENE expression, *PURKINJE cells, *NEURONS

Abstract

The clustered protocadherin-α (Pcdha) genes, which are expressed in the vertebrate brain, encode diverse membrane proteins whose functions are involved in axonal projection and in learning and memory. The Pcdha cluster consists of 14 tandemly arranged genes (Pcdhal-Pcdha12, Pcdhacl, and Pcdhac2, from 5' to 3'). Each first exon (the variable exons) is transcribed from its own promoter, and spliced to the constant exons, which are common to all the Pcdha genes. Cerebellar Purkinje cells show dual expression patterns for Pcdha. In individual Purkinje cells, different sets of the 5' genes in the cluster, Pcdhal-12, are randomly expressed, whereas both 3' genes, Pcdhacl and Pcdhac2, are expressed constitutively. To elucidate the relationship between the genomic structure of the Pcdha cluster and their expression in Purkinje cells, we deleted or duplicated multiple variable exons and analyzed the expression of Pcdha genes in the mouse brain. In all mutant mice, transcript levels of the constant exons and the dual expression patterns were maintained. In the deletion mutants, the missing genes were flexibly compensated by the remaining variable exons. On the other hand, in duplication mutants, the levels of the duplicated genes were trimmed. These results indicate that the Pcdha genes are comprehensively regulated as a cluster unit, and that the regulators that randomly and constitutively drive Pcdha gene expression are intact in the deleted or duplicated mutant alleles. These dual regulatory mechanisms may play important roles in the diversity and fundamental functions of neurons. [ABSTRACT FROM AUTHOR]

Published

2009

10. Involvement of Ca2+-dependent proteasome in the degradation of both cyclin B1 and Mos during spontaneous activation of matured rat oocytes

Author

Ito, Junya, Shimada, Masayuki, Hochi, Shinichi, and Hirabayashi, Masumi

Subjects

*PROTEIN kinases, *FALLOPIAN tubes, *TUBAL pregnancy, *PHOSPHOTRANSFERASES

Abstract

Abstract: In matured rat oocytes, spontaneous activation from the metaphase-II (MII) stage occurred after collection from the oviducts. It is well known that the mitogen-activated protein kinase (MAPK) pathway and p34cdc2 kinase play an important role in the arrest at MII in other species. However, there is no information about the difference in these factors among strains of rats. In the present study, in spontaneously activated oocytes from the Wistar rat, the Mos protein level and the activity of MAPK kinase (MEK)/MAPK were decreased at 120min (13.8, 25.7, and 19.3, respectively, P <0.05), whereas Sprague–Dawley (SD) oocytes, which were not spontaneously activated, had a high level of Mos protein and MEK/MAPK activity (75.9, 76.2, and 87.9, respectively, P <0.05). Phosphorylation of MAPK in the SD oocytes was significantly suppressed by MEK inhibitor, U0126 at 60min; this treatment decreased p34cdc2 kinase activity via cyclin B1 degradation in a time-dependent manner. The treatment with proteasome inhibitor, MG132 or Ca2+-chelator, BAPTA-AM, overcame the spontaneous degradation of both Mos and cyclin B1 in a dose-dependent manner in Wistar oocytes. More than 90% of Wistar oocytes treated with BAPTA-AM were arrested at MII until 120min. In conclusion, SD oocytes carrying Mos/MEK/MAPK, maintained a high activity of p34cdc2 kinase by stabilizing cyclin B1, thus involved in their meiotic arrest. In contrast, Wistar oocytes had a relatively low cytostatic factor activity; rapid decrease of Mos/MEK/MAPK failed to stabilize both cyclin B1 and Mos, and these oocytes were likely to spontaneously activate. [Copyright &y& Elsevier]

Published

2007

11. Characteristics of rat round spermatids differentiated from spermatogonial cells during co-culture with Sertoli cells, assessed by flow cytometry, microinsemination and RT-PCR

Author

Iwanami, Yoshihito, Kobayashi, Toshihiro, Kato, Megumi, Hirabayashi, Masumi, and Hochi, Shinichi

Subjects

*SPERMATOGENESIS, *SERTOLI cells, *FLOW cytometry, *MORPHOLOGY

Abstract

Abstract: The present study was undertaken to investigate whether rat spermatogonial stem cells can differentiate into developmentally competent round spermatids during co-culture with Sertoli cells. Type-A spermatogonia and Sertoli cells were prepared from 7-d-old Wistar-strain male rats, and seeded at 4×106 cells/4mL/35-mm dish (Day 0). They were co-cultured at 37°C for 3 d and at 34°C for the subsequent 7d in 5% CO2/air. Round spermatid-like cells (approximately 15μm in diameter) were first observed on Day 5. A flow cytometric analysis showed that a single peak of haploid cells was detected in the cell populations harvested on Day 10. The participation of the spermatid-like cells to full-term development was examined by microinjection into activated oocytes. The oviductal transfer of 143 microinseminated oocytes resulted in only 8 implantation sites (6%), but no viable offspring. The expression of the round spermatid-specific marker gene, PRM-2, was confirmed in the Day 10 cell population by RT-PCR; however, no mRNA of two other haploid makers, TP1 or TP2, was detected. These results suggested that rat type-A spermatogonial cells underwent meiosis during the primary co-culture with the Sertoli cells, based on morphology, flow cytometry and PRM-2 expression, but the normality of the spermatid-like cells was not supported by microinsemination and TP1/2 expression. [Copyright &y& Elsevier]

Published

2006

12. Scn1a mutant rats established by gene-driven ENU mutagenesis

Author

Mashimo, Tomoji, Tokuda, Satoko, Tsurumi, Toshiko, Takizawa, Akiko, Yanagihara, Katsuhiko, Hirabayashi, Masumi, Kuramoto, Takashi, and Serikawa, Tadao

Published

2007