Your search keyword '"Shinpei Nishikawa"' showing total 24 results

1. LPACs were not detected transitioning from non-LPACs. from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

Non-LPACs were observed after each treatment, 5-FU, L-OHP and radiation (8Gy), at 0 hour, 24 hours, 48 hours and 72 hours. Non-LPACs never changed to LPACs in each assay. Bar: 100μm.

Published

2023

2. Relationship between EID3 expression and clinicopathological factors in patients with colorectal cancer from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

No significant differences were found between the two groups regarding clinicopathological factors, such as age, gender, tumor location, depth of tumor invasion, lymph node metastasis, histological grade, Dukes' stage, and vessel invasion.

Published

2023

3. The list of universally elevated genes in LPACï½' of all cell lines using microarray analysis. from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

Several cancer-related gene candidates were identified using microarray data from the four cell lines (HCT116, SW480, DLD1, KM12SM)

Published

2023

4. Data from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

Purpose: One of the main reasons for cancer treatment resistance is the existence of cancer stem-like cells (CSCs). Here, we elucidated the relationship between low proteasome activity cells (LPACs) and CSCs.Experimental Design: The human colorectal cancer cell lines HCT116, SW480, DLD1, and KM12SM were engineered to stably express a green fluorescent molecule fused to the degron of ornithine decarboxylase, resulting in an accumulation of the fluorescence in LPACs. LPACs were isolated by flow cytometry. Treatment resistance (radio- and chemotherapy) and the capacity of LPACs to act as CSCs were analyzed. Microarray analysis was performed to reveal genes related to treatment resistance. The prognostic impact of potent genes was examined in 190 patients with colorectal cancer.Results: LPACs had a significantly increased capacity for radioresistance and chemoresistance (5-fluorouracil and oxaliplatin), significantly lower reactive oxygen species activity, and significantly increased sphere formation capacity compared with non-LPACs. The number of cells in the G0–G1 phase was significantly higher among LPACs. Subcutaneous injection of as few as 20 LPACs led to tumor formation in immunologically incompetent mice. Microarray analysis revealed that the expression of EP300-interacting inhibitor of differentiation 3 (EID3) was significantly increased in LPACs. In vitro assay revealed that EID3 positively controlled cell proliferation and treatment resistance. The high expression of EID3 was an adverse prognostic indicator in patients with colorectal cancer (P = 0.0400).Conclusions: LPACs have characteristic treatment resistance and act as CSCs in colorectal cancer. In addition, EID3 is one of the potential regulators of treatment resistance in colorectal cancer and may be a potential therapeutic target. Clin Cancer Res; 22(21); 5277–86. ©2016 AACR.

Published

2023

5. Analysis of LPACs and non-LPACs based on various stem cell markers. from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

Described markers expression, CD133, CD166, Lgr5 (Alexa Fluor® 647 channel, BD Biosciences) and EpHB2 (PE channel, R&D systems, Minneapolis, MN, USA), were compared between LPACs and non-LPACs. The LPACs clearly showed up-regulation of several CSC markers including CD133, CD166, Lgr5 and EpHB2. Especially, Lgr5 was enriched in all cell lines (HCT116; 0.7% (non-LPACs) vs 18.1% (LPACs), SW480; 0.2% vs 28.1% and DLD1; 2.3% vs 45.2%).

Published

2023

6. Validation of EID3 expression in LPACs. from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

EID3 was identified by microarray analysis. The expression of EID3 was confirmed by PCR and western blotting. (A) The mRNA expression of EID3 was significantly enriched in LPACs of HCT116, KM12SM and DLD1 compared to non-LPACs, except SW480 which just missed statistical significance (p=0.0555). (B) Western blotting was also performed for checking the expression of EID3 protein in LPACs and non-LPACs using EID3 antibody (Abcam, Cambridge, UK, ab124447), but the evaluation was difficult, because expression of EID3 is low in humans as per previous report (31, 32). * p

Published

2023

7. The validation of over-expression of EID3 and down- regulation of EID3. from Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Masaki Mori, Yuichiro Doki, Hirofumi Yamamoto, John M. Carethers, Kohei Murata, Takeshi Kato, Masakazu Ikenaga, Tsunekazu Mizushima, Ichiro Takemasa, Junichi Nishimura, Taishi Hata, Yusuke Takahashi, Takahito Fukusumi, Shinpei Nishikawa, Yoshihiro Kano, Masaaki Miyo, Tomohiro Kitahara, Kenji Kawai, Shinji Tanaka, Mamoru Uemura, and Koji Munakata

Abstract

(A) The efficiency of over-expression was validated by expression of mRNA. The expression of EID3 was significantly higher in cells with EID3 　expression vector than cells with control vector. (B) The efficiency of down-regulation was confirmed by mRNA. The expression of EID3 was significantly lower in cells with double-stranded RNA duplexes targeting human EID3 than cells with negative control siRNA. * p

Published

2023

8. Bladder and Urethral Transitional Cell Carcinoma in a Dog Treated with Total Extirpation of the Bladder, Urethra, and Vagina and with Urinary Diversion Using a Small Intestinal Conduit

Author

Asato Murata, Yasuho Taura, Harumichi Itoh, Kazuhito Itamoto, Toshie Iseri, Munekazu Nakaichi, Kenji Tani, Masato Hiyama, Tsunehiro Isozaki, Shinpei Nishikawa, and Tomoya Haraguchi

Subjects

Urethral Transitional Cell Carcinoma, medicine.medical_specialty, Electrical conduit, medicine.anatomical_structure, Urethra, business.industry, medicine.medical_treatment, Urinary diversion, Vagina, medicine, Urology, business

Published

2019

9. Experimental Study of Sentinel Lymph Node Identification in Canine Oral Tumor Using Computed Tomography Lymphography

Author

Hokuto Yamamoto, Kazuhito Itamoto, Asato Murata, Tomoya Haraguchi, Shuta Matsuki, Shinpei Nishikawa, Chiaki Takenaka, Harumichi Itoh, and Ryo Naruse

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, Sentinel lymph node, medicine, Identification (biology), Oral Tumor, Computed tomography, Radiology, business

Published

2018

10. Laparoscopy and Endoscopy Cooperative Surgery (LECS) for Preventive Gastropexy in Dogs: Experimental Study

Author

Kazuhito Itamoto, Shinpei Nishikawa, Shuhei Kosaka, Harumichi Itoh, Shiho Kimura, Tomoya Haraguchi, Shuta Matsuki, and Atsushi Nakashima

Subjects

medicine.medical_specialty, medicine.diagnostic_test, 040301 veterinary sciences, business.industry, medicine.medical_treatment, 04 agricultural and veterinary sciences, Endoscopy, Surgery, 0403 veterinary science, Gastropexy, 03 medical and health sciences, 0302 clinical medicine, medicine, 030211 gastroenterology & hepatology, business, Laparoscopy

Published

2018

11. Urinary Tract Reconstruction Using Rotated Bladder for Urethral Transitional Cell Carcinoma in a Female Dog

Author

Kazuhito Itamoto, Yasuho Taura, Kenji Tani, Masato Hiyama, Tomoya Haraguchi, Shotaro Eto, Harumichi Itoh, and Shinpei Nishikawa

Subjects

medicine.medical_specialty, Bladder cancer, 040301 veterinary sciences, business.industry, Urinary system, Urology, 04 agricultural and veterinary sciences, medicine.disease, 0403 veterinary science, 03 medical and health sciences, Neck of urinary bladder, 0302 clinical medicine, medicine.anatomical_structure, Urethra, 030220 oncology & carcinogenesis, Vagina, medicine, Carcinoma, Trigone of urinary bladder, Uvula of urinary bladder, business

Published

2017

12. Efficacy of Autologous Buccal Mucosa Graft from Twin Dogs with Congenital Secondary Cleft Palates

Author

Masato Hiyama, Kenji Tani, Kazuhito Itamoto, Yasuho Taura, Shinpei Nishikawa, Shotaro Etoh, Kyosuke Hidari, and Tomoya Haraguchi

Subjects

0403 veterinary science, 03 medical and health sciences, medicine.medical_specialty, 0302 clinical medicine, 040301 veterinary sciences, business.industry, medicine, Cleft palates, 030206 dentistry, 04 agricultural and veterinary sciences, business, Buccal mucosa, Surgery

Published

2016

13. Long-Term Survival of a Dog with Lingual Squamous Cell Carcinoma

Author

Harumichi Itoh, Mitsuho Ikeda, Kenji Tani, Shinpei Nishikawa, Kazuhito Itamoto, Yasuho Taura, Masato Hiyama, Shotaro Etoh, and Tomoya Haraguchi

Subjects

business.industry, Long term survival, Cancer research, Medicine, Basal cell, business

Published

2015

14. Endoscopic Examination of the Nasal Cavity Through the Choanae of Dogs with Nasal Disease

Author

Harumichi Itoh, Yoshiki Itoh, Yasuho Taura, Toshie Iseri, Munekazu Nakaichi, Kenji Tani, Shoutaro Etoh, Shinpei Nishikawa, Kazuhito Itamoto, Tomoya Haraguchi, and Masato Hiyama

Subjects

Nasal cavity, medicine.medical_specialty, Pathology, medicine.anatomical_structure, medicine.diagnostic_test, business.industry, Nasal Diseases, medicine, Histopathology, Mucous membrane of nose, business, Endoscopy

Published

2015

15. CD10 as a novel marker of therapeutic resistance and cancer stem cells in head and neck squamous cell carcinoma

Author

Hidenori Inohara, Shinpei Nishikawa, Hideshi Ishii, Yukinori Takenaka, Teruhito Yasui, Takahito Fukusumi, Atsushi Hamabe, Susumu Nakahara, Yuichiro Doki, Hisataka Ogawa, Masamitsu Konno, Naotsugu Haraguchi, Shinichiro Hasegawa, Masaki Mori, Yoshifumi Yamamoto, and Yoshihiro Kano

Subjects

cancer stem cells, Cancer Research, Pathology, medicine.medical_specialty, Antineoplastic Agents, Mice, SCID, Drug resistance, Biology, head and neck squamous cell carcinoma, Radiation Tolerance, chemo-resistance, Mice, Downregulation and upregulation, Mice, Inbred NOD, immune system diseases, Cancer stem cell, Cell Line, Tumor, hemic and lymphatic diseases, Biomarkers, Tumor, medicine, Carcinoma, Animals, Humans, Neoplasm, neoplasms, Squamous Cell Carcinoma of Head and Neck, cell surface antigen array, Therapeutic resistance, medicine.disease, G1 Phase Cell Cycle Checkpoints, Xenograft Model Antitumor Assays, Head and neck squamous-cell carcinoma, Up-Regulation, Gene Expression Regulation, Neoplastic, stomatognathic diseases, Oncology, radio-resistance, Drug Resistance, Neoplasm, Head and Neck Neoplasms, Cell culture, Carcinoma, Squamous Cell, Neoplastic Stem Cells, CD10, Neprilysin, Cisplatin, Translational Therapeutics, Octamer Transcription Factor-3

Abstract

Background: Cancer stem cells (CSCs) are responsible for treatment failure. However, their identification and roles in resistance are not well established in head and neck squamous cell carcinoma (HNSCC). Methods: Three HNSCC cell lines (FaDu, Detroit562 and BICR6) were treated with cisplatin or radiation. Cell surface antigens were analysed by LyoPlate, a novel cell surface antigen array. The expression levels of antigens highly expressed after treatments were further compared between cisplatin-resistant Detroit562 cells and its parental line. Association of the candidate antigen with CSCs properties, namely sphere formation and in vivo tumourigenicity, was also examined. Results: CD10, CD15s, CD146 and CD282 were upregulated across the treated cell lines, while the increased expression of CD10 was prominent in the cisplatin-resistant cell line. Isolation mediated by FACS revealed that the CD10-positive subpopulation was more refractory to cisplatin, fluorouracil and radiation than the CD10-negative subpopulation. It also showed an increased ability to form spheres in vitro and tumours in vivo. Moreover, the CD10-positive subpopulation expressed the CSC marker OCT3/4 at a higher level than that in the CD10-negative subpopulation. Conclusions: CD10 is associated with therapeutic resistance and CSC-like properties of HNSCC. CD10 may serve as a target molecule in the treatment of refractory HNSCC.

Published

2014

16. Management with Epidural Catheter for Bone Metastatic Cancer Pain in a Dog

Author

Munekazu Nakaichi, Hiroki Iwasaki, Yasuho Taura, Kazuhito Itamoto, Hiroshi Nakazawa, Tomoya Haraguchi, Kenji Tani, Toshie Iseri, Yoshiki Itho, and Shinpei Nishikawa

Subjects

Epidural catheter, medicine.medical_specialty, business.industry, Anesthesia, Medicine, business, Cancer pain, Surgery

Published

2014

17. Effect of in vivo administration of reprogramming factors in the mouse liver

Author

Masahiro Tanemura, Toshiyuki Saito, Hideshi Ishii, Shogo Kobayashi, Noemi Fusaki, Hiroshi Wada, Noriko Gotoh, Hiromitsu Hoshino, Masaki Mori, Kunihiko Hinohara, Arinobu Tojo, Akira Tomokuni, Shigeru Marubashi, Yoshihiro Kano, Seiichiro Kobayashi, Shinpei Nishikawa, Hiroaki Nagano, Norikatsu Miyoshi, Dyah Laksmi Dewi, Hiroshi Suemizu, Hidetoshi Eguchi, and Yuichiro Doki

Subjects

p53, Cancer Research, reprogramming, Articles, differentiation, Biology, liver, Oncology, SOX2, In vivo, KLF4, Cancer stem cell, Immunology, Kras, Cancer research, Progenitor cell, Stem cell, Induced pluripotent stem cell, Reprogramming

Abstract

Cancer is initiated by the transformation of stem cells or progenitor cells via a dedifferentiation process that leads to cancer stem cells; however, the process involves the activation of growth-promoting oncogenes and the inactivation of growth-constraining tumor suppressor genes. The introduction of defined factors, such as those encoded by c-Myc, Sox2, Oct3/4 and Klf4, in normal somatic cells results in their dedifferentiation into induced pluripotent stem (iPS) cells. We previously reported that these defined factors induced the development of induced multipotent cancer (iPC) cells from gastrointestinal cancer cells by reducing tumor aggressiveness. Previous studies indicated that although reprogramming may be facilitated by p53 inhibition, gain-of-function oncogenic mutations in p53 and oncogenic mutations in Kras-stimulated tumorigenic activity, and their roles in vivo are imperfectly understood. Hence, in the present study, the effect of direct injection of a Sendai virus (SeV) vector encoding four defined factors in vivo was studied using various backgrounds of transgenic and knockout mice, and was compared with that of direct injection of microRNAs (miRNAs) diluted with cationic lipid. The in vivo imaging data revealed transformation hot spots for p53 deficiency or conditional activation of mutant Kras, and the sizes were concordant with those in immuno-deficient NOD/SCID and uPA-NOG mice, as well as larger compared with those in the control mice. Overall, the present data on in vivo reprogramming indicated that Kras activation may facilitate the effect of cellular reprogramming in normal liver cells, and the effect of Kras activation is more apparent than that of tumor suppressor p53 deficiency. The results also revealed that immunodeficiency may increase the effect of reprogramming, presumably by blocking the immunosurveillance of transformed cells. These findings provide a rationale for further studies to develop a therapeutic approach involving direct in vivo reprogramming.

Published

2013

18. Cancer stem cell theory in gastrointestinal malignancies: recent progress and upcoming challenges

Author

Naotsugu Haraguchi, Dyah Laksmi Dewi, Yoshihiro Kano, Shinpei Nishikawa, Taroh Satoh, Daisuke Sakai, Yuichiro Doki, Hideshi Ishii, and Masaki Mori

Subjects

education.field_of_study, business.industry, Population, Gastroenterology, Cancer, medicine.disease, Treatment failure, Surgical oncology, Cancer stem cell, Immunology, Neoplastic Stem Cells, Cancer research, medicine, Animals, Humans, Therapeutic failure, Neoplastic Processes, Treatment Failure, Gastrointestinal cancer, business, education, Gastrointestinal Neoplasms

Abstract

A growing body of evidence supports the notion that malignant tumors are heterogeneous and contain diverse subpopulations of cells with unique characteristics including the ability to initiate a tumor and metastasize. This phenomenon might be explained by the so-called cancer stem cell (CSC) theory. Recent technological developments have allowed a deeper understanding and characterization of CSCs. Even though the application of this theory to hematopoietic malignancies and solid tumors holds promise for new ways to treat cancer, it also brings some skepticism. Efficacious therapeutic approaches targeting the CSC population should be explored to overcome therapeutic failure and improve patient outcomes. This review will focus on the intrinsic and extrinsic regulation of CSCs, as well as the development of therapeutic approaches against CSCs, predominantly focusing on gastrointestinal malignancies.

Published

2011

19. Reprogramming of Mouse and Human Cells to Pluripotency Using Mature MicroRNAs

Author

Yuichiro Doki, Mitsugu Sekimoto, Koshi Mimori, Shinpei Nishikawa, Hirofumi Yamamoto, Dyah Laksmi Dewi, Ichiro Takemasa, Hideshi Ishii, Naotsugu Haraguchi, Masataka Ikeda, Masaki Mori, Fumiaki Tanaka, Yoshihiro Kano, Hiroaki Nagano, Toshiyuki Saito, Masahiro Tanemura, Norikatsu Miyoshi, Tsunekazu Mizushima, and Junichi Nishimura

Subjects

Genetics, Somatic cell, Cellular differentiation, fungi, Cell Biology, Transfection, Biology, Regenerative medicine, Cell biology, SOX2, KLF4, Molecular Medicine, Induced pluripotent stem cell, Reprogramming

Abstract

SummaryInduced pluripotent stem cells (iPSCs) can be generated from differentiated human and mouse somatic cells using transcription factors such as Oct4, Sox2, Klf4, and c-Myc. It is possible to augment the reprogramming process with chemical compounds, but issues related to low reprogramming efficiencies and, with a number of protocols, residual vector sequences, remain to be resolved. We show here that it is possible to reprogram mouse and human cells to pluripotency by direct transfection of mature double-stranded microRNAs (miRNAs). Our approaches use a combination of mir-200c plus mir-302 s and mir-369 s family miRNAs. Because this reprogramming method does not require vector-based gene transfer, it holds significant potential for biomedical research and regenerative medicine.

Published

2011

20. Cancer Stem-like Properties in Colorectal Cancer Cells with Low Proteasome Activity

Author

Junichi Nishimura, Tsunekazu Mizushima, Takahito Fukusumi, Mamoru Uemura, Kenji Kawai, Shinji Tanaka, Taishi Hata, Yusuke Takahashi, Shinpei Nishikawa, Masaki Mori, John M. Carethers, Yoshihiro Kano, Kohei Murata, Hirofumi Yamamoto, Yuichiro Doki, Ichiro Takemasa, Takeshi Kato, Tomohiro Kitahara, Masaaki Miyo, Masakazu Ikenaga, and Koji Munakata

Subjects

0301 basic medicine, Cancer Research, Proteasome Endopeptidase Complex, Organoplatinum Compounds, Colorectal cancer, Drug resistance, Mice, SCID, Biology, Mouse model of colorectal and intestinal cancer, Resting Phase, Cell Cycle, Flow cytometry, 03 medical and health sciences, Mice, 0302 clinical medicine, Mice, Inbred NOD, Radioresistance, Cell Line, Tumor, medicine, Animals, Humans, Cell Proliferation, medicine.diagnostic_test, Cell growth, G1 Phase, Cancer, medicine.disease, HCT116 Cells, Oxaliplatin, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Immunology, Perspective, Cancer research, Neoplastic Stem Cells, Female, Fluorouracil, Carrier Proteins, Colorectal Neoplasms, Reactive Oxygen Species, medicine.drug

Abstract

Purpose: One of the main reasons for cancer treatment resistance is the existence of cancer stem-like cells (CSCs). Here, we elucidated the relationship between low proteasome activity cells (LPACs) and CSCs. Experimental Design: The human colorectal cancer cell lines HCT116, SW480, DLD1, and KM12SM were engineered to stably express a green fluorescent molecule fused to the degron of ornithine decarboxylase, resulting in an accumulation of the fluorescence in LPACs. LPACs were isolated by flow cytometry. Treatment resistance (radio- and chemotherapy) and the capacity of LPACs to act as CSCs were analyzed. Microarray analysis was performed to reveal genes related to treatment resistance. The prognostic impact of potent genes was examined in 190 patients with colorectal cancer. Results: LPACs had a significantly increased capacity for radioresistance and chemoresistance (5-fluorouracil and oxaliplatin), significantly lower reactive oxygen species activity, and significantly increased sphere formation capacity compared with non-LPACs. The number of cells in the G0–G1 phase was significantly higher among LPACs. Subcutaneous injection of as few as 20 LPACs led to tumor formation in immunologically incompetent mice. Microarray analysis revealed that the expression of EP300-interacting inhibitor of differentiation 3 (EID3) was significantly increased in LPACs. In vitro assay revealed that EID3 positively controlled cell proliferation and treatment resistance. The high expression of EID3 was an adverse prognostic indicator in patients with colorectal cancer (P = 0.0400). Conclusions: LPACs have characteristic treatment resistance and act as CSCs in colorectal cancer. In addition, EID3 is one of the potential regulators of treatment resistance in colorectal cancer and may be a potential therapeutic target. Clin Cancer Res; 22(21); 5277–86. ©2016 AACR.

Published

2015

21. Gain-of-function oncogenic mutations in TP53 enhance defined factor-mediated cellular reprogramming

Author

Kazuyoshi Yamamoto, Yuichiro Doki, Jeong Ho Moon, Yoshiyuki Fujiwara, Yoshihiro Kano, Hideshi Ishii, Dyah Laksmi Dewi, Shinpei Nishikawa, and Masaki Mori

Subjects

SOX2, Tumor suppressor gene, KLF4, Cancer cell, Molecular Cell Biology, General Materials Science, Epigenetics, Biology, Induced pluripotent stem cell, Reprogramming, Phenotype, Cell biology, Cancer

Abstract

Cancer is a disorder with various genetic and epigenetic alterations. Genetic alterations such as mutations, i.e., substitutions, amplifications, and deletions of nucleotide sequences, are largely irreversible, whereas epigenetic alterations can be modified by pharmacological agents that target components of the epigenetic machinery. Recent studies have showed that introduction of defined factors such as those encoded by c-MYC, SOX2, OCT3/4, and KLF4 in normal somatic cells results in their dedifferentiation into induced pluripotent stem (iPS) cells. In addition, we have reported that these iPS factors induce the development of induced multipotent cancer (iPC) cells from gastrointestinal cancer cells by reducing tumor aggressiveness. The efficiency of iPS reprogramming increased when p53 was inhibited. The study of cancer cells suggests that the p53 pathways might be involved in the aggressive phenotypes of iPC cells in a long-term culture. However, the roles of gain-of-function oncogenic mutations in TP53, which is a key tumor suppressor gene, remain to be elucidated. We investigated reprogramming efficiency of iPS generation in human diploid fibroblasts that were co-transfected with TP53 mutants and defined factors. The results suggest that mutations in those TP53 regions that are involved in DNA contact might play a critical role in the efficiency of iPS generation. Taken together, our studies suggest 2 roles of TP53 mutations in reprogramming: (1) the structural mutations might contribute to, or collaborate with, other mutations to regulate the maintenance of genomic stability; (2) the DNA-contact mutations could affect the downstream target genes, which may be distinct from those involved in wild-type p53 function. These molecular manipulations of tumorigenicity and enhancement of cellular reprogramming efficiency by the p53 pathway will open an attractive and useful avenue for future medicine.

Published

2011

22. [Repetitive instillation of 0.1% cyclosporin A eye drops induces miosis and anterior chamber inflammation-like reactions in monkey eyes]

Author

Shigenori, Takagi, Shigekuni, Okisaka, Atsushi, Mizukawa, and Shinpei, Nishikawa

Subjects

Inflammation, Male, Anterior Chamber, Cyclosporine, Animals, Haplorhini, Rabbits, Miosis, Ophthalmic Solutions

Abstract

Miosis and anterior chamber inflammation-like reactions were recognized after six instillations of 0.1% cyclosporin A eye drops every 30 minutes into rabbit conjunctival sacs. In order to consider species specificity, 0.1% cyclosporin A eye drops were applied by the same method in monkeys.Eye drops were applied in five monkeys (monkey A, B, C, D, E); in one eye as control and in nine eyes with 0.1% cyclosporin A. We investigated the changes of pupil diameter, intraocular pressure, and anterior chamber flare before and after applying the eye drops. We also examined the effect on ocular tissue histopathologically.Miosis was recognized in six eyes, but no significant intraocular pressure change was observed in any eyes. In both eyes of monkey A anterior chamber flare increased significantly, and flare increased slightly in both eyes of monkeys B, C, and D. On the other hand, there was no change in either eye of monkey E, including the control eye. Localized necrosis of nonpigmented ciliary epithelium was recognized at the beginning of the ciliary process in both eyes of monkey A. Mild cystoid degeneration of nonpigmented ciliary epithelium was seen at the beginning of the ciliary process in the right eye of monkey C, and in the left eye of monkey D.No species specificity can be recognized in monkeys from the fact that there is the selective destruction of nonpigmented epithelium at the beginning of the ciliary process after repeated instillation of 0.1% cyclosporin A eye drops, although there was a difference in miosis and anterior chamber inflammation-like reaction in individual monkeys.

Published

2006

23. Abstract 5319: Cancer reprogramming

Author

Susumu Miyazaki, Shin Kure, Satoshi Obika, Shinpei Nishikawa, Masamitsu Konno, Taroh Satoh, Yoshihiro Kano, Shinichiro Hasegawa, Hirofumi Yamamoto, Takeshi Yamamoto, Takahito Fukusumi, Atsushi Hamabe, Hideshi Ishii, Hiroaki Nagano, Masaki Mori, Hidenori Inohara, Hidetoshi Eguchi, Katsuya Ohta, Y. Doki, and Hisataka Ogawa

Subjects

Cancer Research, Cellular differentiation, Cancer, Biology, medicine.disease_cause, medicine.disease, Oncology, KLF4, Cancer cell, Immunology, Cancer research, medicine, Stem cell, Induced pluripotent stem cell, Carcinogenesis, Reprogramming

Abstract

Background: The 2012 Nobel Prize success (Gurdon and Yamanaka) gives boost to medical science. While the nuclear transplantation but also the gene transfer of defined factors can elicit cellular reprogramming efficiently in terminally differentiated somatic cells, we have been studied the effects of coding genes (oncogenes [OG], tumor suppressor genes [TSG], and ES-like genes) and non-coding ones (microRNA) on the gastrointestinal cancer cells (reviewed in JAMA, 2001; Cancer Sci, 2008). Compared with known tumor-related genes [OG/TSG], the retroviral-mediated gene transfer of induced pluripotent stem cells (iPSCs) factors, such as Oct4, Sox2, Klf4 and c-Myc resulted in radical modifications of cell lineages, more sensitization to anti-cancer reagents, and significant suppression of tumorigenesis in immunodeficient NOD/SCID mice (PNAS, 2010; BBRC, 2010; IJO, 2012). Given that the viral vectors have potential risks for genome insertion causing carcinogenesis, which would offend clinical application, our extensive screening of ES cell-specific microRNAs allowed the identification of a set of microRNAs (microRNA302 s, 200c and 369 s), which could execute full reprogramming from differentiated cells to iPSCs (Cell Stem Cell, 2011; Cancer Sci, 2011). Here we studied the effect of those microRNAs on gastrointestinal cancer cells in vitro and in vivo. Methods: To inactivate cancer cells, we screened a small set of microRNAs by in vitro experiments, including cell growth, invasion, sphere formation, differentiation assay (three germs) and immunocytochemistry; and in vivo ones, such as chemo-sensitivity, teratoma assay and tumorigenesis. For in vivo assay, synthesized microRNAs were administered intravenously as conjugated forms with carbonate apatite, a novel microRNA delivery technology. The fluorescent labeled microRNAs monitored the efficiency in cancer tissue uptakes as well as the toxicity in normal tissues. Result: 1) Single microRNA302s were able to reprogram colorectal cancer HT29 cells in vitro, as shown by microscopic analysis and qRT-PCR: three germ line differentiation, reduced proliferation and suppressed invasion. 2) Cell fate analysis in vitro demonstrated that ∼60% of HT29 cells reprogrammed, while remaining cells were subjected to apoptosis induction. The reprogrammed cells were sensitized to chemotherapy (fluorouracil). 3) In vivo study showed the microRNA302s effect on tumors, but not on normal tissues, to suppress tumorigenesis significantly in immunodeficient NOD/SCID mice. Conclusion: In vitro and in vivo assay demonstrated clearly that cancer-reprogramming therapy using synthesized microRNAs could modify the cancer cell malignancy, and that the combination with efficient DDS's would facilitate the discovery of innovative cancer therapy. We study further the mechanism microRNA-mediated cancer reprogramming for the drug optimization. Citation Format: Hisataka Ogawa, Hirofumi Yamamoto, Masamitsu Konno, Shin Kure, Susumu Miyazaki, Shinpei Nishikawa, Shinichiro Hasegawa, Katsuya Ohta, Yoshihiro Kano, Takahito Fukusumi, Atsushi Hamabe, Takeshi Yamamoto, Satoshi Obika, Taroh Satoh, Hidetoshi Eguchi, Hiroaki Nagano, Hidenori Inohara, Yuichirou Doki, Masaki Mori, Hideshi Ishii. Cancer reprogramming. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5319. doi:10.1158/1538-7445.AM2013-5319

Published

2013

24. Reprogramming of Mouse and Human Cells to Pluripotency Using Mature MicroRNAs.

Author

Norikatsu Miyoshi, Hideshi Ishii, Hiroaki Nagano, Naotsugu Haraguchi, Dyah Laksmi Dewi, Yoshihiro Kano, Shinpei Nishikawa, Masahiro Tanemura, Koshi Mimori, Fumiaki Tanaka, Toshiyuki Saito, Junichi Nishimura, Ichiro Takemasa, Tsunekazu Mizushima, Masataka Ikeda, Hirofumi Yamamoto, Mitsugu Sekimoto, Yuichiro Doki, and Masaki Mori

Subjects

PLURIPOTENT stem cells, SOMATIC cells, GENE transfection, RNA physiology, REGENERATIVE medicine, MICE genetics

Abstract

Induced pluripotent stem cells (iPSC5) can be generated from differentiated human and mouse somatic cells using transcription factors such as Oct4, Sox2, Klf4, and c-Myc. It is possible to augment the reprogramming process with chemical compounds, but issues related to low reprogramming efficiencies and, with a number of protocols, residual vector sequences, remain to be resolved. We show here that it is possible to reprogram mouse and human cells to pluripotency by direct transfection of mature double-stranded microRNAs (miRNAs). Our approaches use a combination of mir-200c plus mir- 302 s and mir-369 s family miRNAs. Because this reprogramming method does not require vector-based gene transfer, it holds significant potential for biomedical research and regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2011