Your search keyword '"Mariko, Wakayama"' showing total 9 results

1. Do giant molecular clouds care about the galactic structure?

Author

Yusuke Fujimoto, Elizabeth J. Tasker, Mariko Wakayama, and Asao Habe

Subjects

Physics, Star formation, Molecular cloud, ISM: structure, Interstellar cloud, Astronomy, Velocity dispersion, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics, Radius, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, ISM: clouds, Bimodality, methods: numerical, Barred spiral galaxy, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), galaxies: star formation, hydrodynamics, galaxies: structure, Spiral, Astrophysics::Galaxy Astrophysics

Abstract

We investigate the impact of galactic environment on the properties of simulated giant molecular clouds formed in a M83-type barred spiral galaxy. Our simulation uses a rotating stellar potential to create the grand design features and resolves down to 1.5 pc. From the comparison of clouds found in the bar, spiral and disc regions, we find that the typical GMC is environment independent, with a mass of 5e+5 Msun and radius 11 pc. However, the fraction of clouds in the property distribution tails varies between regions, with larger, more massive clouds with a higher velocity dispersion being found in greatest proportions in the bar, spiral and then disc. The bar clouds also show a bimodality that is not reflected in the spiral and disc clouds except in the surface density, where all three regions show two distinct peaks. We identify these features as being due to the relative proportion of three cloud types, classified via the mass-radius scaling relation, which we label A, B and C. Type A clouds have the typical values listed above and form the largest fraction in each region. Type B clouds are massive giant molecular associations while Type C clouds are unbound, transient clouds that form in dense filaments and tidal tails. The fraction of each clouds type depends on the cloud-cloud interactions, which cause mergers to build up the GMA Type Bs and tidal features in which the Type C clouds are formed. The number of cloud interactions is greatest in the bar, followed by the spiral, causing a higher fraction of both cloud types compared to the disc. While the cloud types also exist in lower resolution simulations, their identification becomes more challenging as they are not well separated populations on the mass-radius relation or distribution plots. Finally, we compare the results for three star formation models to estimate the star formation rate and efficiency in each region., Comment: 21 pages, 14 figures. Accepted for publication in MNRAS

Published

2014

2. Endoscopic detachable snare ligation method for colonic diverticular hemorrhage

Author

Daiki Tajima, Yuji Mizokami, Yusuke Seyama, Toshiaki Narasaka, Hideo Suzuki, Chiaki Enami, Hirofumi Matsui, Mamiko Imanishi, Mariko Wakayama, Ichinosuke Hyodo, Daisuke Akutsu, Natsumi Kodama, Masato Endo, Tsuyoshi Kaneko, and Masahiko Terasaki

Subjects

medicine.medical_specialty, business.industry, Mechanical Engineering, medicine, Energy Engineering and Power Technology, Management Science and Operations Research, business, Ligation, Surgery

Published

2015

3. EpCAM- and EGFR-targeted selective gene therapy for biliary cancers using Z33-fiber-modified adenovirus

Author

Ichinosuke Hyodo, Takehide Murata, Kazunari K. Yokoyama, Naoyuki Hasegawa, Yuichi Obata, Kiminori Nakamura, Mariko Wakayama, Rei Kawashima, Masato Abei, Hiroyuki Mizuguchi, Kuniaki Fukuda, Hirofumi Hamada, and Emiko Seo

Subjects

Antimetabolites, Antineoplastic, Cancer Research, Genetic enhancement, Blotting, Western, Genetic Vectors, Mice, Nude, Adenocarcinoma, Gene delivery, Adenoviridae, Viral vector, Mice, chemistry.chemical_compound, Antigen, Antigens, Neoplasm, Tumor Cells, Cultured, Animals, Humans, RNA, Messenger, Epidermal growth factor receptor, Staphylococcal Protein A, Mice, Inbred BALB C, biology, Reverse Transcriptase Polymerase Chain Reaction, Antibodies, Monoclonal, Epithelial cell adhesion molecule, Genetic Therapy, Epithelial Cell Adhesion Molecule, Flow Cytometry, Combined Modality Therapy, Molecular biology, Immunoglobulin Fc Fragments, ErbB Receptors, Biliary Tract Neoplasms, Oncology, chemistry, Immunoglobulin G, Cancer cell, biology.protein, Female, Fluorouracil, Antibody, Cell Adhesion Molecules

Abstract

A critical issue in adenovirus (Ad)-based cancer gene therapy is to improve the specificity of gene delivery to cancer cells for better efficacy and safety. We explored methods of retargeting Ad vectors for selective gene therapy of human biliary cancers using the Ad incorporating an IgG Fc-binding motif (Z33) from the Staphylococcus protein A (Ad-FZ33) combined with tumor-specific antibodies. Flow cytometry analysis revealed high-expression levels of epithelial cell adhesion molecule (EpCAM) and epidermal growth factor receptor (EGFR) on human biliary cancer cells. Ad-FZ33 expressing LacZ combined with antibodies against EpCAM or EGFR, followed by β-gal assay, demonstrated highly efficient gene transduction in these biliary cancer cells, compared to the treatment with control antibody or without antibody. Ad-FZ33 expressing uracil phosphoribosyl transferase (UPRT), an enzyme which greatly enhances the toxicity of 5-fluorouracil (FU), combined with antibodies against EpCAM or EGFR, remarkably enhanced the sensitivity of biliary cancer cells to 5-FU. By contrast, the treatment did not affect the 5-FU sensitivity of the cells not expressing EpCAM or EGFR including normal hepatocytes. Finally, treatments with the UPRT-expressing Ad-FZ33 with antibodies against EpCAM or EGFR, followed by 5-FU administration, significantly suppressed the growth of biliary cancer xenografts in nude mice. These results indicate that the gene therapy mediated by the Z33 fiber modified Ad with anti-EpCAM or anti-EGFR antibodies offers a potentially effective therapeutic modality against biliary cancers.

Published

2011

4. E1A, E1B double-restricted replicative adenovirus at low dose greatly augments tumor-specific suicide gene therapy for gallbladder cancer

Author

Kazunari K. Yokoyama, Hirofumi Hamada, Ichinosuke Hyodo, Masato Abei, Hideyo Ugai, Mariko Wakayama, Emiko Seo, Rei Kawashima, T Murata, Kuniaki Fukuda, and Shinji Endo

Subjects

Cancer Research, viruses, Tumor specific, Mice, SCID, Virus Replication, Adenoviridae, Mice, Text mining, Cell Line, Tumor, Animals, Humans, Medicine, Gallbladder cancer, Adenovirus E1B Proteins, Molecular Biology, Oncolytic Virotherapy, business.industry, Low dose, Genetic Therapy, Suicide gene, medicine.disease, Carcinoembryonic Antigen, Immunology, Cancer research, Molecular Medicine, Female, Gallbladder Neoplasms, Adenovirus E1A Proteins, business, HeLa Cells

Abstract

Combination therapy with replicative oncolytic viruses is a recent topic in innovative cancer therapy, but few studies have examined the efficacy of oncolytic adenovirus plus replication-deficient adenovirus carrying a suicide gene. We aim to evaluate whether an E1A, E1B double-restricted oncolytic adenovirus, AxdAdB-3, can improve the efficacy for gallbladder cancers (GBCs) of the replication-deficient adenovirus-based herpes simplex virus thymidine kinase (HSVtk)/ganciclovir (GCV) therapy directed by the carcinoembryonic antigen (CEA) promoter. Cytopathic effects of AxdAdB-3 plus AxCEAprTK (an adenovirus expressing HSVtk directed by CEA promoter) or AxCAHSVtk (an adenovirus expressing HSVtk directed by a nonspecific CAG promoter) with GCV administration were examined in several GBC lines and normal cells. Efficacy in vivo was tested in severe combined immunodeficiency disease mice with GBC xenografts. Addition of AxdAdB-3 (1 multiplicity of infection, MOI) significantly enhanced the cytopathic effects of AxCEAprTK (10 MOI)/GCV on GBC cells. The augmented effect was attributable to the replication of the AxCEAprTK and also to the enhanced CEA promoter activity, which was presumably transactivated by E1A. In normal cells, AxdAdB-3 (20 MOI) plus AxCEAprTK (200 MOI)/GCV was not cytopathic, whereas AxdAdB-3 (1 MOI) plus AxCAHSVtk (10 MOI)/GCV was significantly toxic. Low-dose AxdAdB-3 (2 x 10(7) PFU, plaque-forming unit) plus AxCEAprTK (2 x 10(8) PFU)/GCV significantly suppressed the growth of GBC xenografts as compared with either AxdAdB-3 (2 x 10(7) PFU)/GCV or AxCEAprTK (2 x 10(9) PFU)/GCV alone. E1A, E1B double-restricted replicating adenovirus at low dose significantly augmented the efficacy of CEA promoter-directed HSVtk/GCV therapy without obvious toxicity to normal cells, suggesting a potential use of this combination for treating GBC and other CEA-producing malignancies.

Published

2008

5. Effective Gene Therapy of Biliary Tract Cancers by a Conditionally Replicative Adenovirus Expressing Uracil Phosphoribosyltransferase: Significance of Timing of 5-Fluorouracil Administration

Author

Emiko, Seo, Masato, Abei, Mariko, Wakayama, Kuniaki, Fukuda, Hideyo, Ugai, Takehide, Murata, Takeshi, Todoroki, Yasushi, Matsuzaki, Naomi, Tanaka, Hirofumi, Hamada, and Kazunari K, Yokoyama

Subjects

Mice, Inbred BALB C, Cancer Research, Genetic Vectors, Mice, Nude, Genetic Therapy, Adenocarcinoma, Virus Replication, Xenograft Model Antitumor Assays, Adenoviridae, Mice, Oncology, Transduction, Genetic, Animals, Humans, Female, Gallbladder Neoplasms, Fluorouracil, Pentosyltransferases

Abstract

In order to enhance the efficacy of conditionally replicating adenoviruses (CRAd) in the treatment of cancers of the biliary tract, we studied the efficacy in vitro and in vivo of AxE1CAUP, a CRAd vector that carries a gene for uracil phosphoribosyltransferase (UPRT), which converts 5-fluorouracil (5-FU) directly to 5-fluorouridine monophosphate and greatly enhances the cytotoxicity of 5-FU. AxE1CAUP replicated and induced an increased UPRT expression in biliary cancer cells more efficiently than AxCAUP, a nonreplicative adenovirus carrying the UPRT gene. Whereas AxCAUP and AxE1AdB, a CRAd without the UPRT gene, modestly increased the sensitivity of BC cells to 5-FU, AxE1CAUP markedly increased the sensitivity, especially when the timing of 5-FU administration was appropriately chosen. AxE1CAUP replicated much less efficiently in normal WI-38 fibroblasts without any change in the sensitivity to 5-FU. In nude mice with s.c. biliary cancer xenografts, i.t. AxE1CAUP/5-FU therapy inhibited tumor growth significantly more strongly than AxCAUP/5-FU or AxE1AdB/5-FU therapy. Furthermore, in mice with peritoneally disseminated biliary cancer, i.p. AxE1CAUP efficiently proliferated in the tumors, decreased the tumor burden, and prolonged the survival of the mice when 5-FU was started 10 or 15 days after the vector inoculation, whereas earlier initiation of 5-FU resulted in early eradication of the vector and no survival benefit. The present study shows that the CRAd expressing UPRT was a more potent sensitizer of biliary cancer to 5-FU, than was a nonreplicative UPRT-encoding vector or a CRAd without UPRT gene, even at a lower dose of the vector, and that timing of 5-FU administration was a key factor to maximize the efficacy. This gene therapy with appropriately timed administration of 5-FU should be useful in overcoming the resistance of biliary cancers to 5-FU.

Published

2005

6. E1A, E1B double-restricted adenovirus with RGD-fiber modification exhibits enhanced oncolysis for CAR-deficient biliary cancers

Author

Masato Abei, Naomi Tanaka, Emiko Seo, Hirofumi Hamada, Takehide Murata, Mariko Wakayama, Hideo Ugai, Rei Kawashima, Kazunari K. Yokoyama, Ichinosuke Hyodo, and Kuniaki Fukuda

Subjects

Oncolytic adenovirus, Cancer Research, viruses, Genetic enhancement, Coxsackievirus, medicine.disease_cause, Virus Replication, Adenoviridae, Mice, Transduction, Genetic, Cell Line, Tumor, medicine, Animals, Humans, Adenovirus E1B Proteins, Biliary Tract, Enterovirus, Infectivity, Oncolytic Virotherapy, biology, Cancer, biology.organism_classification, medicine.disease, Virology, Xenograft Model Antitumor Assays, Oncolytic virus, Oncolytic Viruses, Oncology, Viral replication, Cancer research, Hepatocytes, Receptors, Virus, Gallbladder Neoplasms, Adenovirus E1A Proteins, Oligopeptides

Abstract

Purpose: Cancers of biliary system represent highly malignant diseases of dismal prognosis. We have previously introduced AxdAdB3, an E1A, E1B double-restricted oncolytic adenovirus, which showed excellent oncolytic efficacy for approximately half of the biliary cancer lines with an enhanced safety to normal cells. The purpose of this study was to evaluate whether RGD-fiber modification (AxdAdB3-F/RGD), which enables integrin-dependent infection, can improve the infectivity and efficacy of AxdAdB3 for biliary cancers.Experimental Design: Expressions of adenoviral receptors, coxsackievirus adenovirus receptor (CAR) and integrins (αvβ3 and αvβ5), were compared with the level of infectivity of LacZ-expressing replication-defective adenoviruses with wild-type fibers or RGD-modified fibers in a panel of biliary cancer cell lines in vitro. Viral replication and cytotoxicity in vitro of AxdAdB3-F/RGD, a novel E1A, E1B double-restricted replication-selective adenovirus with RGD-modified fibers, were compared with those of its parent virus, AxdAdB3, in various biliary cancer cells and in normal cells. In vivo antitumor effects of these oncolytic viruses were compared in a xenograft tumor model.Results: Expression of CAR significantly correlated with the adenovirus infectivity, whereas integrin αvβ5 was abundantly expressed in almost all biliary cancer cells. Whereas AxdAdB3 effectively replicated and lysed only the biliary cancer cells with a preserved expression of CAR, AxdAdB3-F/RGD exhibited efficient replication and potent oncolysis in both CAR-positive and CAR-negative biliary cancer cells. AxdAdB3-F/RGD showed attenuated replication and little cytopathy in human normal cells (i.e., hepatocytes, WI-38 cells) as well as AxdAdB3. Furthermore, in nude mice with s.c. xenografts of CAR-deficient human biliary cancer, i.t. AxdAdB3-F/RGD therapy caused a marked inhibition of tumor growth.Conclusions: The RGD-fiber modification strategy enhanced the infectivity, replication, and oncolytic effects of the E1A, E1B double-restricted oncolytic adenovirus for CAR-deficient biliary cancers. In addition, it preserved the merit of excellent safety of the double-restricted virus for normal cells. These results suggest a potential use of this agent for the treatment of biliary cancers.

Published

2007

7. E1A, E1B double-restricted adenovirus for oncolytic gene therapy of gallbladder cancer

Author

Kuniaki, Fukuda, Masato, Abei, Hideyo, Ugai, Emiko, Seo, Mariko, Wakayama, Takehide, Murata, Takeshi, Todoroki, Naomi, Tanaka, Hirofumi, Hamada, and Kazunari K, Yokoyama

Subjects

Mice, Mice, Inbred BALB C, Animals, Humans, Mice, Nude, Female, Gallbladder Neoplasms, Adenovirus E1A Proteins, Genetic Therapy, Adenovirus E1B Proteins, Virus Replication, Xenograft Model Antitumor Assays, Adenoviridae

Abstract

New treatments, such as gene therapy, are necessary for advanced gallbladder cancer (GBC), but little has been studied. Recent studies have introduced mutant adenoviruses (Ads) with either defective E1B-55kD or mutated E1A, focusing on tumor-specific replication, and the results have been promising. To enhance the safety of this approach, we constructed AxdAdB-3, a double-restricted Ad with a mutant E1A and E1B-55kD deletion. We studied the effects of this Ad in vitro and in vivo on GBC, as well as its safety for normal human cells. We compared the replication and cytopathic effects of AxdAdB-3 in several lines of GBC and primary normal cells with those of wild-type Ad or of AxE1AdB, an E1B-55kD-deleted Ad. The efficacy in vivo was examined in nude mice with s.c. implanted or i.p. disseminated GBC. AxdAdB-3 replicated in and caused oncolysis of GBC cell lines (TGBC-44TKB and Mz-ChA2) as efficiently as wild-type Ad or AxE1AdB in vitro. By contrast, AxdAdB-3 replicated much less effectively in primary normal cells (e.g., epithelial cells, endothelial cells, and hepatocytes) than in GBC cells and had only mild cytopathic effects, unlike wild-type Ad. Furthermore, cytotoxicity of AxdAdB-3 in normal cells was milder than that of AxE1AdB. AxdAdB-3 significantly (P0.01) suppressed the growth of GBC (TGBC-44TKB) xenografts. AxdAdB-3 was also effective in the treatment of mice with peritoneally disseminated GBC (TGBC-44TKB), demonstrating tumor-selective replication and oncolysis that resulted in significantly (P0.05) prolonged survival. The present study shows that the E1 double-restricted Ad effectively and selectively replicates in and causes oncolysis of GBC in vitro and in vivo with reduced negative effects on normal cells, suggesting that this approach could be a promising tool for gene therapy of GBC.

Published

2003

8. Suicide gene therapy of gallbladder cancer using a cancer-selectively replicating adenovirus carrrying uracil phosphoribosyltransferase (UPRT) gene

Author

Takehide Murata, Kuniaki Fukuda, Takeshi Todoroki, Mariko Wakayama, Hideyo Ugai, Emiko Seo, Kazunari K. Yokoyama, Hirofumi Hamada, and Masato Abei

Subjects

Genetics, Uracil phosphoribosyltransferase, Hepatology, business.industry, Gastroenterology, medicine, Cancer research, Cancer, Gallbladder cancer, Suicide gene, medicine.disease, business, Gene

Published

2003

9. Combination with chemotherapy enhances efficacy of E1 double-mutant adnovirus for gene therapy of gallbladder cancer

Author

Masato Abei, Mariko Wakayama, Naomi Tanaka, Emiko Seo, Kiniaki Fukuda, Kazunari K. Yokoyama, and Takeshi Todoriki

Subjects

Oncology, medicine.medical_specialty, Chemotherapy, Hepatology, Combination therapy, business.industry, medicine.medical_treatment, Genetic enhancement, Intraperitoneal injection, Gastroenterology, medicine.disease, In vitro, In vivo, Internal medicine, medicine, Gallbladder cancer, Virotherapy, business

Abstract

Advanced gallbladder cancer (GBC) is one of the most difficult cancers to be cured by cmT~nt therapies and new treatments, such as gene therapy, are necessary, but little has been studied Recent studies have introduced E1B mntam adenoviruses fad) focusing on tmnor-specific replication, and clinical results have been promising. We have constructed AxdAdB-3, a E1 double-mutant Ad with a mutant EIA and E1B-55kD deletion and reported on its efficacy for GBC as well as enhanced safety m normal cells. ALMS: We aimed to study the combined effects of this Ad and chemotherapy with 5-fluoronracil (5-FU) on GBC in vivo, METHODS: We compared the replication and the cytopathic effects of AxdAdB-3 in several lines of GBC and prima~y normal cells with those of wild-t3~?e Ad The efficacy in vivo was examined in nude mice with subcataneously implanted or intraperitoneally disseminated GBC Mice were separated into the following groups; contrd, Ad monotherapy, 5-FU monotherapy, and combination therapy of Ad and 5-FU. Ad was intratumorally injected ~br subeutaneons xenografis and intraperitoneally injected for disseminated GBC with or wtdmut intraperitoneal injection of 5FU. RESULTS: Axcka-dB-3 replicated and caused oncolysis as efficient]y as wild-type Ad in several GBC cell lines, whereas it replicated much less effectively in normal cells and had only' a mild cytopathic eitect unlike wild-type Ad in vitro. Furthermore, cytotoxicity of Ax&a-dB-3 in normal cells was milder than AxE1AdB, a E1B55kD deleted Ad. AxdAdB-3 significantly suppressed the growth of subeutaneous GBC xenogmfis and also showed eft~:ctiveness in the treatment of peritoneaily disseminated GBC with significantly prolonged survival Combination therapy with 5-FU further regressed the subcutaneous GBC xenografts and significantly prolonged the survival of mice with disseminated GBC. CONCLUSIONS: E1 double-mntant Ad effectively and selectively replicated and caused oncolysis in GBC in vitro and in vivo with reduced negative eflects on normal cells, Combination therapy wifh 5-FU further enhanced its efficacy in vivo, suggesting a synergistic therapeutic effects of the virotherapy and chemotherapy for GBC.

Published

2003