Your search keyword '"Toshiyasu Iwasaki"' showing total 11 results

1. An Efficient Intestinal Organoid System of Direct Sorting to Evaluate Stem Cell Competition in Vitro

Author

Toshiyasu Iwasaki, Kensuke Otsuka, Yuki Fujimichi, and Masanori Tomita

Subjects

Cell, Fluorescent Antibody Technique, Gene Expression, lcsh:Medicine, medicine.disease_cause, Article, Immunophenotyping, Green fluorescent protein, Tissue Culture Techniques, Mice, Tissue engineering, Genes, Reporter, medicine, Organoid, Animals, lcsh:Science, Mice, Knockout, Matrigel, Multidisciplinary, Tissue Engineering, Chemistry, Stem Cells, Intestinal stem cells, lcsh:R, LGR5, Cell biology, Intestines, Organoids, medicine.anatomical_structure, lcsh:Q, Stem cell, Carcinogenesis, Biomarkers

Abstract

Stem cell competition could shed light on the tissue-based quality control mechanism that prevents carcinogenesis. To quantitatively evaluate stem cell competition in vitro, we developed a two-color intestinal organoid forming system. First, we improved a protocol of culturing organoids from intestinal leucine-rich-repeat containing G-protein-coupled receptor 5 (Lgr5)- enhanced green fluorescent protein (EGFP)high stem cells directly sorted on Matrigel without embedding. The organoid-forming potential (OFP) was 25% of Lgr5-EGFPhigh cells sorted at one cell per well. Using this culture protocol with lineage tracing, we established a two-color organoid culture system by mixing stem cells expressing different fluorescent colors. To analyze stem cell competition, two-color organoids were formed by mixing X-ray-irradiated and non-irradiated intestinal stem cells. In the two-color organoids, irradiated stem cells exhibited a growth disadvantage, although the OFP of irradiated cells alone did not decrease significantly from that of non-irradiated cells. These results suggest that stem cell competition can be evaluated quantitively in vitro using our new system.

Published

2019

2. Funding for radiation research: past, present and future

Author

Simon Bouffler, Gayle E. Woloschak, Kazuo Sakai, Antone L. Brooks, Tetsuya Ono, Tatsuhiko Imaoka, Andrzej Wojcik, Tatjana Paunesku, Nobuyuki Hamada, Kunwoo Cho, Tom K. Hei, M. Birschwilks, Yutaka Yamada, Sisko Salomaa, Toshiyasu Iwasaki, and Dmitry Klokov

Subjects

Canada, Economic growth, media_common.quotation_subject, History, 21st Century, Article, Literacy, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Radiation Protection, 0302 clinical medicine, Japan, Multidisciplinary approach, South Korea, Radiation, Ionizing, Research Support as Topic, Political science, Republic of Korea, Animals, Humans, media_common.cataloged_instance, Radiology, Nuclear Medicine and imaging, European Union, European union, Radiation Injuries, Biological sciences, media_common, Radiation research funding, US, Radiotherapy, Radiological and Ultrasound Technology, European Union countries, Research, Radiobiology, History, 19th Century, History, 20th Century, Radiation Exposure, United States, 3. Good health, Radiation exposure, 030220 oncology & carcinogenesis, Radioactive Hazard Release

Abstract

For more than a century, ionizing radiation has been indispensable mainly in medicine and industry. Radiation research is a multidisciplinary field that investigates radiation effects. Radiation research was very active in the mid- to late 20th century, but has then faced challenges, during which time funding has fluctuated widely. Here we review historical changes in funding situations in the field of radiation research, particularly in Canada, European Union countries, Japan, South Korea, and the US. We also provide a brief overview of the current situations in education and training in this field. A better understanding of the biological consequences of radiation exposure is becoming more important with increasing public concerns on radiation risks and other radiation literacy. Continued funding for radiation research is needed, and education and training in this field are also important.

Published

2019

3. Cellular responses and gene expression profiles of colonic Lgr5+ stem cells after low-dose/low-dose-rate radiation exposure

Author

Keiji Suzuki, Kensuke Otsuka, Masanori Tomita, Toshiyasu Iwasaki, and Yuki Fujimichi

Subjects

0301 basic medicine, Programmed cell death, Carcinogenesis, Colon, Health, Toxicology and Mutagenesis, Cellular differentiation, Cell, Receptors, G-Protein-Coupled, Lgr5, 03 medical and health sciences, Supplement - Highlight Articles of the First International Symposium, Supplement Paper, Extracellular, medicine, Animals, Humans, dose-rate effect, Radiology, Nuclear Medicine and imaging, RNA-Seq, Radiation, Chemistry, Cell growth, Gene Expression Profiling, Stem Cells, LGR5, Dose-Response Relationship, Radiation, Radiation Exposure, Cell sorting, Cell biology, 030104 developmental biology, medicine.anatomical_structure, tissue stem cells, Stem cell

Abstract

We previously found that high-dose-rate radiation induced a replenishment of the colonic Lgr5+ stem cell pool, whereas low-dose-rate radiation did not. To identify key molecules that determine the dose-rate effects on this stem cell pool, we harvested colonic Lgr5+ stem cells by cell sorting at 2 weeks after exposure to 1 Gy of high-dose-rate (30 Gy/h) or low-dose-rate (0.003 Gy/h) radiation and analyzed their gene expression profiles using RNA-Seq. We found that pathways related to DNA damage response, cell growth, cell differentiation and cell death were upregulated in Lgr5+ stem cells irradiated with high dose rates, whereas pathways related to apical junctions and extracellular signaling were upregulated in low-dose-rate–irradiated colonic Lgr5+ stem cells. Interestingly, biological events involving apical junctions are known to play an important role in the exclusion of transformed cells that are surrounded by normal epithelial cells through ‘cell competition’. We speculated that cell competition, through apical junctions and extracellular ligands, might contribute to the dose-rate effect on Lgr5+ cell replenishment. To understand this mechanism, we focused on 69 genes that were significantly upregulated in low-dose-rate–irradiated cells, which we named DREDGE (Dose-Rate Effect Determining GEnes). Based on these findings, we propose a possible mechanism underlying the dose-rate effect observed in the colonic stem cell pool.

Published

2017

4. Effects of dose rates on radiation-induced replenishment of intestinal stem cells determined by Lgr5 lineage tracing

Author

Toshiyasu Iwasaki and Kensuke Otsuka

Subjects

low-dose rate, Pathology, medicine.medical_specialty, Colon, Health, Toxicology and Mutagenesis, Cellular differentiation, dose-rate effects, Radiation Dosage, Cell Line, Receptors, G-Protein-Coupled, Andrology, Mice, Lgr5, medicine, Animals, Radiology, Nuclear Medicine and imaging, Irradiation, Biology, Cell Proliferation, Radiation, Cell growth, business.industry, Stem Cells, LGR5, Cell Differentiation, Dose-Response Relationship, Radiation, Cell culture, tissue stem cell, Stem cell, business, Dose rate, Tamoxifen, medicine.drug

Abstract

An understanding of the dynamics of intestinal Lgr5(+) stem cells is important for elucidating the mechanism of colonic cancer development. We previously established a method for evaluating Lgr5(+) stem cells by tamoxifen-dependent Lgr5-lineage tracing and showed that high-dose-rate radiation stimulated replenishment of colonic stem cells. In this study, we evaluated the effects of low-dose-rate radiation on stem cell maintenance. Tamoxifen (4OHT)-injected Lgr5-EGFP-IRES-Cre(ERT2) × ROSA-LSL-LacZ mice were used, LacZ-labeled colonic crypts were enumerated, and the loss of LacZ(+) crypts under low-dose-rate radiation was estimated. After 4OHT treatment, the number of LacZ-labeled Lgr5(+) stem cells was higher in the colon of infant mice than in adult mice. The percentage of LacZ-labeled crypts in infant mice rapidly decreased after 4OHT treatment. However, the percentage of labeled crypts plateaued at ∼2% at 4 weeks post-treatment and remained unchanged for up to 7 months. Thus, it will be advantageous to evaluate the long-term effects of low-dose-rate radiation. Next, we determined the percentages of LacZ-labeled crypts irradiated with 1 Gy administered at different dose rates. As reported in our previous study, mice exposed to high-dose-rate radiation (30 Gy/h) showed a marked replenishment (P = 0.04). However, mice exposed to low-dose-rate radiation (0.003 Gy/h) did not exhibit accelerated stem-cell replenishment (P = 0.47). These findings suggest the percentage of labeled crypts can serve as a useful indicator of the effects of dose rate on the stem cell pool.

Published

2015

5. Emerging issues in radiogenic cataracts and cardiovascular disease

Author

Yuki Fujimichi, Masato Furuhashi, Toshiyasu Iwasaki, Tohru Minamino, Hitoshi Sato, Noriko Fujii, Nobuyuki Hamada, Eri Kubo, and Takaharu Nomura

Subjects

Pathology, medicine.medical_specialty, Health, Toxicology and Mutagenesis, Inflammation, Review, Disease, Radiation Dosage, Bioinformatics, medicine.disease_cause, Risk Assessment, Cataract, Lens protein, Radiation Protection, Cataracts, cardiovascular disease, Risk Factors, threshold, Prevalence, medicine, Animals, Humans, Radiology, Nuclear Medicine and imaging, Radiation Injuries, Radiation, business.industry, Dose-Response Relationship, Radiation, Environmental Exposure, Environmental exposure, Research needs, medicine.disease, Cardiovascular Diseases, medicine.symptom, Dose rate, business, Oxidative stress

Abstract

In 2011, the International Commission on Radiological Protection issued a statement on tissue reactions (formerly termed non-stochastic or deterministic effects) to recommend lowering the threshold for cataracts and the occupational equivalent dose limit for the crystalline lens of the eye. Furthermore, this statement was the first to list circulatory disease (cardiovascular and cerebrovascular disease) as a health hazard of radiation exposure and to assign its threshold for the heart and brain. These changes have stimulated various discussions and may have impacts on some radiation workers, such as those in the medical sector. This paper considers emerging issues associated with cataracts and cardiovascular disease. For cataracts, topics dealt with herein include (i) the progressive nature, stochastic nature, target cells and trigger events of lens opacification, (ii) roles of lens protein denaturation, oxidative stress, calcium ions, tumor suppressors and DNA repair factors in cataractogenesis, (iii) dose rate effect, radiation weighting factor, and classification systems for cataracts, and (iv) estimation of the lens dose in clinical settings. Topics for cardiovascular disease include experimental animal models, relevant surrogate markers, latency period, target tissues, and roles of inflammation and cellular senescence. Future research needs are also discussed.

Published

2014

6. A novel in vitro survival assay of small intestinal stem cells after exposure to ionizing radiation

Author

Masanori Tomita, Toshiyasu Iwasaki, Satoshi Nakasono, Nobuyuki Hamada, Motohiro Yamauchi, Masayuki Takahashi, Kensuke Otsuka, Hisayoshi Kondo, and Kazuo Yoshida

Subjects

small intestinal stem cells, Technology, survival assay, Cell Survival, Health, Toxicology and Mutagenesis, Cellular differentiation, organoid, Biology, Radiation Dosage, Lgr5, Mice, Gentamicin protection assay, in vitro culture, Intestine, Small, Organoid, medicine, Animals, Radiology, Nuclear Medicine and imaging, Cells, Cultured, Radiation, Stem Cells, LGR5, Dose-Response Relationship, Radiation, Cell sorting, Molecular biology, Small intestine, In vitro, medicine.anatomical_structure, Immunology, Biological Assay, Stem cell, ionizing radiation

Abstract

The microcolony assay developed by Withers and Elkind has been a gold standard to assess the surviving fraction of small intestinal stem cells after exposure to high (?8 Gy) doses of ionizing radiation (IR), but is not applicable in cases of exposure to lower doses. Here, we developed a novel in vitro assay that enables assessment of the surviving fraction of small intestinal stem cells after exposure to lower IR doses. The assay includes in vitro culture of small intestinal stem cells, which allows the stem cells to develop into epithelial organoids containing all four differentiated cell types of the small intestine. We used Lgr5-EGFP-IRES-CreERT2/ROSA26-tdTomato mice to identify Lgr5+ stem cells and their progeny. Enzymatically dissociated single crypt cells from the duodenum and jejunum of mice were irradiated with 7.25, 29, 101, 304, 1000, 2000 and 4000 mGy of X-rays immediately after plating, and the number of organoids was counted on Day 12. Organoid-forming efficiency of irradiated cells relative to that of unirradiated controls was defined as the surviving fraction of stem cells. We observed a significant decrease in the surviving fraction of stem cells at ?1000 mGy. Moreover, fluorescence-activated cell sorting analyses and passage of the organoids revealed that proliferation of stem cells surviving IR is significantly potentiated. Together, the present study demonstrates that the in vitro assay is useful for quantitatively assessing the surviving fraction of small intestinal stem cells after exposure to lower doses of IR as compared with previous examinations using the microcolony assay., Journal of Radiation Research, 55(2), pp.381-390; 2014

Published

2014

7. Ionizing radiation leads to the replacement and de novo production of colonic Lgr5(+) stem cells

Author

Junji Magae, Nobuyuki Hamada, Toshiyasu Iwasaki, Kensuke Otsuka, Yuko Hoshi, and Hideki Matsumoto

Subjects

Radiation, DNA damage, Colon, Stem Cells, Biophysics, LGR5, Radiation induced, Apoptosis, Biology, Ionizing radiation, Cell biology, Receptors, G-Protein-Coupled, Mice, medicine.anatomical_structure, In vivo, Organ Specificity, Lineage tracing, Immunology, Duodenum, medicine, Animals, Radiology, Nuclear Medicine and imaging, Cell Lineage, Stem cell

Abstract

Tissue stem cells have self-renewal capability throughout their whole life, which is high enough to lead to the accumulation of DNA damage in a stem cell pool. Whether radiation-induced damage accumulates in tissue stem cells remains unknown, but could be investigated if the fate of tissue stem cells could be followed after irradiation. To realize this goal, we used an Lgr5-dependent lineage tracing system that allows the conditional in vivo labeling of Lgr5(+) intestinal stem cells and their progeny. We found that radiation induced loss of Lgr5(+) stem cells in the colon, but not in the duodenum. Interestingly, the loss of colonic Lgr5(+) cells was compensated by de novo production of Lgr5(+) cells, which increased after irradiation. These findings show that ionizing radiation effectively stimulates the turnover of colonic Lgr5(+) stem cells, implying that radiation-induced damage does not accumulate in the colonic Lgr5(+) stem cells by this mechanism.

Published

2013

8. Application of a newly developed photoluminescence glass dosimeter for measuring the absorbed dose in individual mice exposed to low-dose rate 137Cs gamma-rays

Author

Takeshi Oda, Akira Kato, Hiroshi Tanooka, Takaharu Nomura, Kazuo Sakai, Takeshi Yamada, Tohru Ikegami, Yuko Hoshi, Toshiyasu Iwasaki, Tatsuya Ishikawa, and Kazuko Fujita

Subjects

Materials science, Photoluminescence, Health, Toxicology and Mutagenesis, Thermoluminescence, Mice, Microcomputers, Dosimetry, Animals, Radiology, Nuclear Medicine and imaging, Irradiation, Radiometry, Peritoneal Cavity, Mice, Inbred ICR, Radiation, Dosimeter, Lasers, Radiochemistry, Detector, Equipment Design, Prostheses and Implants, Cesium Radioisotopes, Evaluation Studies as Topic, Gamma Rays, Absorbed dose, Ionization chamber, Calibration, Luminescent Measurements, Female, Thermoluminescent Dosimetry, Glass

Abstract

A photoluminescence glass dosimeter, GD-301, was applied to the measurement of low absorbed doses in mice exposed to low-dose rate 137Cs gamma-rays. The dosimeter system consists of small rod-shaped glass chip detectors capable of embedded in the body of a mouse and an automatic readout device equipped with a standard detector irradiated with 137Cs gamma-source. The measured absorbed doses were compared with the "exposure" estimated by an ionization chamber and with the doses measured by a BeO:Na thermoluminescence system. The results clearly demonstrate the superiority of the glass dosimetry regarding simplicity of operation, stability of long-term dose accumulation and good detector uniformity, which allow accurate tissue dosimetry.

Published

2000

9. Simultaneous Quantitative Analysis of Prostaglandins and Thromboxane after Low-Dose X Irradiation

Author

Kiyonori Yamaoka, Yuko Hoshi, Toru Obata, Toshiyasu Iwasaki, and Keiji Iriyama

Subjects

Male, medicine.medical_specialty, Ratón, Thromboxane, Biophysics, Alpha (ethology), Prostaglandin, Isotope dilution, Mice, chemistry.chemical_compound, Internal medicine, medicine, Animals, Radiology, Nuclear Medicine and imaging, Selected ion monitoring, Irradiation, Mice, Inbred BALB C, Radiation, X-Rays, Thromboxanes, Dose-Response Relationship, Radiation, respiratory system, Mice, Inbred C57BL, Endocrinology, chemistry, Biochemistry, Prostaglandins, lipids (amino acids, peptides, and proteins), Quantitative analysis (chemistry), circulatory and respiratory physiology

Abstract

The appearance of prostaglandins and thromboxane in mouse serum after X irradiation was observed by simultaneous quantitative analysis using gas chromatography/mass spectrometry/selected ion monitoring with stable isotope dilution methods. Mice of two strains (C57BL/CN Jcl and BALB/c) showed similar responses to X irradiation. In C57BL/6N Jcl mice, 0.2 Gy irradiation elicited a significant increase in generation of prostanoids: Immediately after irradiation, the 6-keto PGF1 alpha:TXB2 ratio and the level of PGE2 increased, after 20 min 6-keto PGF1 alpha and PGE2 increased, and after 4 h PGE1 and PGE2 increased. In BALB/c mice, generation of prostanoids was increased significantly immediately after irradiation (6-keto PGF1 alpha, 6-keto PGF1 alpha:TXB2 ratio, PGE2), and the increase was maintained from 20 min to 4 h (PGE1, PGE2) after 0.2 Gy irradiation. In C57BL/6N Jcl mice, a significant increase in production of 9alpha,11beta-PGF2 was observed at 20 min after irradiation. In BALB/c mice, a significant increase in 9alpha,11beta-PGF2 was seen immediately after irradiation and was maintained for 20 min. In C57BL/6N Jcl mice, the level of 8-epi PGF2 alpha was clearly increased 4 h after 4 Gy irradiation. A slight and slow increase was also seen after 0.2 Gy irradiation. In BALB/c mice, 8-epi PGF2 alpha was increased significantly at 20 min and 4 h after 4 Gy irradiation. These results show that 0.2 Gy irradiation stimulates production of prostanoids related to the inflammatory response in mice.

Published

1998

10. A tissue-specific change in repetitive DNA in rats

Author

Masayoshi Takahashi, Toshiyasu Iwasaki, Hiroshi Yokota, and Michio Oishi

Subjects

Molecular Sequence Data, EcoRI, DNA-Directed DNA Polymerase, Molecular cloning, Polymerase Chain Reaction, Deoxyribonuclease EcoRI, Restriction fragment, Nucleic acid thermodynamics, Restriction map, Animals, Genomic library, Cloning, Molecular, Repetitive Sequences, Nucleic Acid, Southern blot, Genetics, Genomic Library, Multidisciplinary, Base Sequence, biology, Myocardium, Brain, Nucleic Acid Hybridization, Rats, Inbred Strains, DNA, Molecular biology, Rats, Blotting, Southern, Liver, Organ Specificity, biology.protein, Female, Primer (molecular biology), Nucleic Acid Amplification Techniques, Research Article

Abstract

From a genomic library constructed from an EcoRI digest of Wistar rat brain DNA, we isolated a clone (BL-1) that gave a 0.6-kilobase restriction fragment only in brain (or lens) DNA upon Southern hybridization. The tissue-specific fragment was present in Wistar and other strains (Sprague-Dawley and Donryu) of rats regardless of their sex and age. Sequencing of the clone indicated that it is closely related to a part of the LINE 3 sequence, one of the highly repetitive sequences present throughout mammalian genomes. Polymerase chain reaction using primer sequences in the BL-1 clone indicated that it is derived from an amplified (rear-ranged) sequence, although other explanations are possible. These results suggest that there are tissue-specific changes in DNA primary structure during mammalian developmental processes.

Published

1989

11. Possible alteration of genomic DNA in specific rat tissues

Author

Michio Oishi, Masayoshi Takahashi, Hiroshi Yokota, and Toshiyasu Iwasaki

Subjects

Physiology, Molecular Sequence Data, Clone (cell biology), chemistry.chemical_compound, Animals, Genomic library, Tissue Distribution, Cloning, Molecular, Molecular Biology, Southern blot, Gene Library, Base Sequence, Chemistry, Oligonucleotide, Protein primary structure, Gene Amplification, RNA, Nucleic Acid Hybridization, Rats, Inbred Strains, Cell Biology, General Medicine, DNA, Molecular biology, Rats, genomic DNA, Blotting, Southern, Female

Abstract

By employing in gel competitive reassociation, which distinguishes two DNA preparations, to clone anonymous DNA fragments with altered primary structure, we isolated a clone (BL-1) from a rat DNA which gave an extra, apparently altered, DNA band in a specific tissue (brain) when we used it as a probe for Southern hybridization. The sequence of BL-1 was very similar to a portion of LINE, a highly repetitive sequence. Southern hybridization analysis with oligonucleotide probes representing a portion of the BL-1 sequence confirmed the presence of the brain-specific band. Another, different band specific to HindIII digests of heart DNA was also detected with the same oligonucleotide probes. Furthermore, we found that poly (A) +RNA hybridized with BL-1 was enriched in brain. These results suggest that there are tissue specific alteration of genomic DNA in rats which may be associated with transcriptional activation specific to the sequence. Alternative explanations of the results are also discussed.

Published

1989