Your search keyword '"Yasuhiro Minami"' showing total 310 results

301. Induction of metallothionein synthesis in Menkes' and normal lymphoblastoid cells is controlled by the level of intracellular copper

Author

Kyoko Yamaoka, Yasuhiro Minami, Toshio Sone, and Hajime Tsunoo

Subjects

inorganic chemicals, Copper metabolism, Metal ions in aqueous solution, chemistry.chemical_element, Zinc, Biochemistry, Cell Line, Reference Values, Metallothionein, Humans, Menkes Kinky Hair Syndrome, Molecular Biology, Cadmium, B-Lymphocytes, Brain Diseases, Metabolic, Lymphoblast, Biological Transport, Cell Biology, Copper, Molecular biology, Kinetics, chemistry, Female, Intracellular

Abstract

A study was carried out on the uptake of copper, zinc, or cadmium ions and their induction of metallothionein synthesis in Menkes' and normal lymphoblastoid cells. The main difference between Menkes' and normal cells in the uptake of these metal ions was an increased uptake of copper ions in Menkes' cells at a low concentration of CuCl2 (2.1 microM). The CuCl2 concentration necessary to induce metallothionein synthesis in Menkes' cells was 50 microM, whereas that in normal cells was about 200 microM. The levels of zinc or cadmium ions needed to induce metallothionein in Menkes' cells were similar to those in normal cells. At least four isomers of metallothionein were induced by copper, zinc, and cadmium ions in both types of cells. Metallothionein synthesis in Menkes' and normal cells was induced when the amounts of intracellular copper reached a threshold level of approximately 0.2 nmol/10(6) cells, and the rate of metallothionein synthesis in these cells was increased as a function of the amounts of intracellular copper (0.2-1.7 nmol/10(6) cells). These results indicate that the induction of metallothionein synthesis in lymphoblastoid cells is controlled by the level of intracellular copper, suggesting that the major defect in Menkes' cells is not due to the abnormal regulation of metallothionein synthesis but to an alteration of the copper metabolism in cells by which the levels of intracellular copper become larger than those in normal cells and just lower than the threshold level for induction of metallothionein synthesis.

Published

1987

302. Application of variational Bayesian estimation and clustering to acoustic model adaptation

Author

Shinji Watanabe, Naonori Ueda, Yasuhiro Minami, and Atsushi Nakamura

Subjects

Bayes estimator, Computer science, business.industry, Estimation theory, Gaussian, Bayesian probability, Acoustic model, Pattern recognition, symbols.namesake, symbols, Maximum a posteriori estimation, Artificial intelligence, business, Cluster analysis, Recursive Bayesian estimation

Abstract

We apply Variational Bayesian estimation and clustering for speech recognition (VBEC) to an acoustic model adaptation. VBEC can estimate parameter posteriors even when a model includes hidden variables, by using variational Bayesian approach. In addition, VBEC can select an appropriate model structure in clustering triphone states, according to the amount of available adaptation data. Unlike a conventional Bayesian method such as maximum a posteriori (MAP), VBEC is useful even in the case of small amounts of data, because the amount of data per one Gaussian increases due to the model structure selection, and over-training is suppressed. We conduct an off-line supervised adaptation experiment on isolated word recognition, and show the advantage of the proposed method over the conventional method, especially when dealing with small amounts of adaptation data.

303. read2Marker: a data processing tool for microsatellite marker development from a large data set

Author

Hiroyuki Fukuoka, Tsukasa Nunome, Yasuhiro Minamiyama, Izumi Kono, Nobukazu Namiki, and Akio Kojima

Subjects

Biology (General), QH301-705.5

Published

2005

304. Rho family small GTPase Rif regulates Wnt5a-Ror1-Dvl2 signaling and promotes lung adenocarcinoma progression.

Author

Michiru Nishita, Koki Kamizaki, Kyoka Hoshi, Kana Aruga, Ikumi Nishikaku, Hiroshi Shibuya, Kunio Matsumoto, and Yasuhiro Minami

Subjects

*LUNGS, *CELL polarity, *GUANOSINE triphosphatase, *ADENOCARCINOMA, *FILOPODIA, *WNT signal transduction

Abstract

Rho in filopodia (Rif), a member of the Rho family of small GTPases, induces filopodia formation primarily on the dorsal surface of cells; however, its function remains largely unclear. Here, we show that Rif interacts with Ror1, a receptor for Wnt5a that can also induce dorsal filopodia. Our immunohistochemical analysis revealed a high frequency of coexpression of Ror1 and Rif in lung adenocarcinoma. Lung adenocarcinoma cells cultured on Matrigel established front-rear polarity with massive filopodia on their front surfaces, where Ror1 and Rif were accumulated. Suppression of Ror1 or Rif expression inhibited cell proliferation, survival, and invasion, accompanied by the loss of filopodia and cell polarity in vitro, and prevented tumor growth in vivo. Furthermore, we found that Rif was required to activate Wnt5a-Ror1 signaling at the cell surface leading to phosphorylation of the Wnt signaling pathway hub protein Dvl2, which was further promoted by culturing the cells on Matrigel. Our findings reveal a novel function of Rif in mediating Wnt5a-Ror1-Dvl2 signaling, which is associated with the formation of polarized filopodia on 3D matrices in lung adenocarcinoma cells. [ABSTRACT FROM AUTHOR]

Published

2023

305. Regulatory mechanisms and cellular functions of non-centrosomal microtubules.

Author

Michiru Nishita, Tomoko Satake, Yasuhiro Minami, and Atsushi Suzuki

Subjects

*MICROTUBULES, *CELL migration, *MICROTUBULE organizing centers (Cytology), *CYTOSKELETON, *MICROTUBULE-associated proteins, *ORGANELLES

Abstract

Proper organization of microtubule (MT) arrays is essential for numerous cellular functions, including intracellular transport and cell migration. Although the centrosome generally serves as the primary MT-organizing centre in proliferating animal cells, MTs are also organized at the Golgi apparatus in a wide range of cell types to regulate Golgi ribbon formation that is required for polarized cell migration. Furthermore, differentiated epithelial cells and neurons possess organized non-centrosomal MTs predominantly at the apical cortical regions and the axonal and dendritic neurites, respectively, to establish and maintain their highly polarized morphology. Unlike radial arrays of centrosomal MTs, non-centrosomal MTs are organized into non-radial asymmetric network, which facilitates polarized transport and cell polarization. In this review, we will focus on recent advances in our understanding of the regulatory mechanisms and cellular functions of non-centrosomal MTs. [ABSTRACT FROM AUTHOR]

Published

2017

306. c-Src-mediated phosphorylation and activation of kinesin KIF1C promotes elongation of invadopodia in cancer cells.

Author

Takeshi Saji, Michiru Nishita, Kazuho Ikeda, Mitsuharu Endo, Yasushi Okada, and Yasuhiro Minami

Subjects

*CANCER cells, *KINESIN, *PROTEIN-tyrosine phosphatase, *MOLECULAR motor proteins, *CELL migration, *MEMBRANE proteins, *MICROTUBULES, *CANCER cell migration

Abstract

Invadopodia on cancer cells play crucial roles in tumor invasion and metastasis by degrading and remodeling the surrounding extracellular matrices and driving cell migration in complex 3D environments. Previous studies have indicated that microtubules (MTs) play a crucial role in elongation of invadopodia, but not their formation, probably by regulating delivery of membrane and secretory proteins within invadopodia. However, the identity of the responsible MT-based molecular motors and their regulation has been elusive. Here, we show that KIF1C, a member of kinesin-3 family, is localized to the tips of invadopodia and is required for their elongation and the invasion of cancer cells. We also found that c-Src phosphorylates tyrosine residues within the stalk domain of KIF1C, thereby enhancing its association with tyrosine phosphatase PTPD1, that in turn activates MT-binding ability of KIF1C, probably by relieving the autoinhibitory interaction between its motor and stalk domains. These findings shed new insights into how c-Src signaling is coupled to the MT-dependent dynamic nature of invadopodia and also advance our understanding of the mechanism of KIF1C activation through release of its autoinhibition. [ABSTRACT FROM AUTHOR]

Published

2022

307. Methionine restriction breaks obligatory coupling of cell proliferation and death by an oncogene Src in Drosophila.

Author

Hiroshi Nishida, Morihiro Okada, Lynna Yang, Tomomi Takano, Sho Tabata, Tomoyoshi Soga, Ho, Diana M., Jongkyeong Chung, Yasuhiro Minami, and Sa Kan Yoo

Subjects

*CELL death, *CELL proliferation, *ONCOGENES, *METHIONINE, *DROSOPHILA, *MITOGEN-activated protein kinases

Abstract

Oncogenes often promote cell death as well as proliferation. How oncogenes drive these diametrically opposed phenomena remains to be solved. A key question is whether cell death occurs as a response to aberrant proliferation signals or through a proliferation-independent mechanism. Here, we reveal that Src, the first identified oncogene, simultaneously drives cell proliferation and death in an obligatorily coupled manner through parallel MAPK pathways. The two MAPK pathways diverge from a lynchpin protein Slpr. A MAPK p38 drives proliferation whereas another MAPK JNK drives apoptosis independently of proliferation signals. Src-p38-induced proliferation is regulated by methionine-mediated Tor signaling. Reduction of dietary methionine uncouples the obligatory coupling of cell proliferation and death, suppressing tumorigenesis and tumor-induced lethality. Our findings provide an insight into how cells evolved to have a fail-safe mechanism that thwarts tumorigenesis by the oncogene Src. We also exemplify a diet-based approach to circumvent oncogenesis by exploiting the fail-safe mechanism. [ABSTRACT FROM AUTHOR]

Published

2021

308. Gs/Gq signaling switch in β cells defines incretin effectiveness in diabetes.

Author

Oduori, Okechi S., Naoya Murao, Kenju Shimomura, Harumi Takahashi, Quan Zhang, Haiqiang Dou, Shihomi Sakai, Kohtaro Minami, Chanclon, Belen, Guida, Claudia, Kothegala, Lakshmi, Tolö, Johan, Yuko Maejima, Norihide Yokoi, Yasuhiro Minami, Takashi Miki, Rorsman, Patrik, Susumu Seino, Murao, Naoya, and Shimomura, Kenju

Subjects

*BLOOD sugar, *G protein coupled receptors, *PANCREATIC secretions, *DIABETES

Abstract

By restoring glucose-regulated insulin secretion, glucagon-like peptide-1-based (GLP-1-based) therapies are becoming increasingly important in diabetes care. Normally, the incretins GLP-1 and glucose-dependent insulinotropic polypeptide (GIP) jointly maintain normal blood glucose levels by stimulation of insulin secretion in pancreatic β cells. However, the reason why only GLP-1-based drugs are effective in improving insulin secretion after presentation of diabetes has not been resolved. ATP-sensitive K+ (KATP) channels play a crucial role in coupling the systemic metabolic status to β cell electrical activity for insulin secretion. Here, we have shown that persistent membrane depolarization of β cells due to genetic (β cell-specific Kcnj11-/- mice) or pharmacological (long-term exposure to sulfonylureas) inhibition of the KATP channel led to a switch from Gs to Gq in a major amplifying pathway of insulin secretion. The switch determined the relative insulinotropic effectiveness of GLP-1 and GIP, as GLP-1 can activate both Gq and Gs, while GIP only activates Gs. The findings were corroborated in other models of persistent depolarization: a spontaneous diabetic KK-Ay mouse and nondiabetic human and mouse β cells of pancreatic islets chronically treated with high glucose. Thus, a Gs/Gq signaling switch in β cells exposed to chronic hyperglycemia underlies the differential insulinotropic potential of incretins in diabetes. [ABSTRACT FROM AUTHOR]

Published

2020

309. The Ror1 receptor tyrosine kinase plays a critical role in regulating satellite cell proliferation during regeneration of injured muscle.

Author

Koki Kamizaki, Ryosuke Doi, Makoto Hayashi, Takeshi Saji, Motoi Kanagawa, Tatsushi Toda, So-ichiro Fukada, Hsin-Yi Henry Ho, Greenberg, Michael Eldon, Mitsuharu Endo, and Yasuhiro Minami

Subjects

*PROTEIN-tyrosine kinases, *CELL proliferation, *REGENERATION (Biology), *MORPHOGENESIS, *MUSCLE diseases

Abstract

The Ror family receptor tyrosine kinases, Ror1 and Ror2, play important roles in regulating developmental morphogenesis and tissue- and organogenesis, but their roles in tissue regeneration in adult animals remain largely unknown. In this study, we examined the expression and function of Ror1 and Ror2 during skeletal muscle regeneration. Using an in vivo skeletal muscle injury model, we show that expression of Ror1 and Ror2 in skeletal muscles is induced transiently by the inflammatory cytokines, TNF-α and IL-1β, after injury and that inhibition of TNF-α and IL-1β by neutralizing antibodies suppresses expression of Ror1 and Ror2 in injured muscles. Importantly, expression of Ror1, but not Ror2, was induced primarily in Pax7-positive satellite cells (SCs) after muscle injury, and administration of neutralizing antibodies decreased the proportion of Pax7-positive proliferative SCs after muscle injury. We also found that stimulation of a mouse myogenic cell line, C2C12 cells, with TNF-α or IL-1β induced expression of Ror1 via NF-κB activation and that suppressed expression of Ror1 inhibited their proliferative responses in SCs. Intriguingly, SC-specific depletion of Ror1 decreased the number of Pax7-positive SCs after muscle injury. Collectively, these findings indicate for the first time that Ror1 has a critical role in regulating SC proliferation during skeletal muscle regeneration. We conclude that Ror1 might be a suitable target in the development of diagnostic and therapeutic approaches to manage muscular disorders. [ABSTRACT FROM AUTHOR]

Published

2017

310. Taking the English Exam for the "Can a Robot Get into the University of Tokyo?" Project.

Author

Ryuichiro Higashinaka, Hiroaki Sugiyama, Hideki Isozaki, Genichiro Kikui, Kohji Dohsaka, Hirotoshi Taira, and Yasuhiro Minami

Subjects

*ROBOT design & construction, *ARTIFICIAL intelligence

Abstract

The article discusses the Todai Robot Project of the National Institute of Informatics (NII) which involves administering the University of Tokyo English entrance examination to an artificial intelligence system. Topics explored include the level of difficulty of this English entrance examination, the participation of Nippon Telegraph and Telephone Corporation (NTT) and several educational institutions in this project, and examples of grammar and vocabulary problems included in the examination.

Published

2015