参考文献

発行年 英論文
2020 Shibata S, et al. “Cell-type-specific adhesiveness and proliferation propensity on laminin isoforms enable purification of iPSC-derived corneal epithelium”, Stem Cell Reports 14:663-676, 2020.
2018年 Ishii, K., Sakurai, H., Suzuki, N., Mabuchi, Y., Sekiya, I., Sekiguchi, K., Akazawa, C.. Recapitulation of Extracellular LAMININ Environment Maintains Stemness of Satellite Cells In Vitro. Stem Cell Reports, 10, 1-15, (2018) Ishida, K., Xu, H., Sasakawa, N., Lung, M. S. Y., Kudryashev, J. A., Gee, P., & Hotta, A.. Site-specific randomization of the endogenous genome by a regulatable CRISPR-Cas9 piggyBac system in human cells. Scientific Reports, 8(1), 310, (2018) Takayama, K., Hagihara, Y., Toba, Y., Sekiguchi, K., Sakurai, F., Mizuguchi, H.. Enrichment of high-functioning human iPS cell-derived hepatocyte-like cells for pharmaceutical research. Biomaterials, (2018) Akiyama, T., Sato, S., Chikazawa-Nohtomi, N., Soma, A., Kimura, H., Wakabayashi, S., Ko, S. B., Ko, M. S.. Efficient differentiation of human pluripotent stem cells into skeletal muscle cells by combining RNA-based MYOD1-expression and POU5F1-silencing. Scientific Reports, 8(1), 1189, (2018) Saito, A., Ooki, A., Nakamura, T., Onodera, S., Hayashi, K., Hasegawa, D., Okudaira,T., Watanabe, K., Kato, H., Onda, T., Watanabe, A., Kosaki, K., Nishimura, K., Ohtaka, Manami., Nakanishi, M., Sakamoto, T., Yamaguchi, A., Sueishi, K., Azuma, T.. Targeted reversion of induced pluripotent stem cells from patients with human cleidocranial dysplasia improves bone regeneration in a rat calvarial bone defect model. Stem Cell Research & Therapy, 9(1), 12, (2018) Yamauchi, K., Li, J., Morikawa, K., Liu, L., Shirayoshi, Y., Nakatsuji, N., Elliott, A. D., Hisatome, I., Suemori, H..Isolation and characterization of ventricular-like cells derived from NKX2-5 eGFP/w and MLC2v mCherry/w double knock-in human pluripotent stem cells. Biochemical and Biophysical Research Communications, 495(1), 1278-1284, (2018) Mae, S., Ryosaka, M., Toyoda, T., Matsuse, K., Oshima, Y., Tsujimoto, H., Okumura, S., Shibasaki, A., Osafune, K.. Generation of branching ureteric bud tissues from human pluripotent stem cells. Biochemical and biophysical research communications, 495(1), 954-961, (2018) Kagihiro, M., Fukumori, K., Aoki, T., Ungkulpasvich, U., Mizutani, M., Viravaidya-Pasuwat, K., & Kino-oka, M.. Kinetic analysis of cell decay during the filling process: Application to lot size determination in manufacturing systems for human induced pluripotent and mesenchymal stem cells. Biochemical Engineering Journal, 131, 31-38, (2018) Zhang, R. R., Koido, M., Tadokoro, T., Ouchi, R., Matsuno, T., Ueno, Y., Sekine, K., Takebe, T., Taniguchi, H.. Human iPSC-Derived Posterior Gut Progenitors Are Expandable and Capable of Forming Gut and Liver Organoids. Stem Cell Reports, 10(2), 1–14, (2018) Oshima, K., Saiki, N., Tanaka, M., Imamura, H., Niwa, A., Tanimura, A., Nagahashi, A., Hirayama, A., Okitac, K., Hotta, A., Kitayama, S., Osawa, M., Kaneko, S., Watanabe, A., Asaka, I., Fujibuchi, W., Imai, K., Yabe, H., Kamachi, Y., Hara, J., Kojima, S., Tomita, M., Soga, T., Noma, T., Nonoyama, S., Nakahata, T., Saito, MK.. Human AK2 links intracellular bioenergetic redistribution to the fate of hematopoietic progenitors. Biochemical and Biophysical Research Communications, 497(2), 719-725, (2018) Sougawa, N., Miyagawa, S., Fukushima, S., Kawamura, A., Yokoyama, J., Ito, E., Harada, A., Okimoto, K., Mochisuki-Oda, N., Saito, A., Sawa, Y.. Immunologic targeting of CD30 eliminates tumourigenic human pluripotent stem cells, allowing safer clinical application of hiPSC-based cell therapy. Scientific Reports, 8(1), 3726, (2018) Yasuda, S. Y., Ikeda, T., Shahsavarani, H., Yoshida, N., Nayer, B., Hino, M., Vartak-Sharma, N.,Suemori, H., Hasegawa, K.. Chemically defined and growth-factor-free culture system for the expansion and derivation of human pluripotent stem cells. Nature Biomedical Engineering, 2(3), 173, (2018) Kim, S. I., Matsumoto, T., Kagawa, H., Nakamura, M., Hirohata, R., Ueno, A., Ohishi, M., Sakuma, T., Soga, T., Yamamoto, T., Woltjen, K.. Microhomology-assisted scarless genome editing in human iPSCs. Nature Communications, 9(1), 939, (2018)
2017年 Hayashi, R., Ishikawa, Y., Katori, R., Sasamoto, Y., Taniwaki, Y., Takayanagi, Tsujikawa, M., Sekiguchi, K., Quantock, A. J., Nishida, K. . Coordinated generation of multiple ocular-like cell lineages and fabrication of functional corneal epithelial cell sheets from human iPS cells. Nature Protocols, 12(4), 683-696, (2017) Kikuchi, T., Morizane, A., Okita, K., Nakagawa, M., Yamakado, H., Inoue, H., Takahashi, R., Takahashi, J. . Idiopathic Parkinson’s disease patient‐derived induced pluripotent stem cells function as midbrain dopaminergic neurons in rodent brains. Journal of Neuroscience Research, 95(9),1829-37, (2017) Miyazaki, T., Isobe, T., Nakatsuji, N., & Suemori, H. . Efficient Adhesion Culture of Human Pluripotent Stem Cells Using Laminin Fragments in an Uncoated Manner. Scientific Reports, 7(41165), 1-8, (2017) Goparaju, S. K., Kohda, K., Ibata, K., Soma, A., Nakatake, Y., Akiyama, T., Wakabayashi, S., Matsushita, M., Sakota, M., Kimura, H., Yuzaki, M., Shigeru B. H. Ko & Minoru S. H. Ko. . Rapid differentiation of human pluripotent stem cells into functional neurons by mRNAs encoding transcription factors. Scientific Reports, 7, 42367, (2017) Musah, S., Mammoto, A., Ferrante, C. T., Jeanty, S.S., Hirano-Kobayashi, M., Mammoto, T., Roberts, K., Chung, S., Novak, R., Ingram, M., Fatanat-Didar, T., Koshy, S., Weaver, C. J., Church, M. G., Ingber, F. D. . Mature induced-pluripotent-stem-cell-derived human podocytes reconstitute kidney glomerular-capillary-wall function on a chip. Nature Biomedical Engineering, 1 (0069), (2017) Camp, J. G., Sekine, K., Gerber, T., Loeffler-Wirth, H., Binder, H., Gac, M., Kanton, S., Kageyama, J., Damm, G., Seehofer, D., Belicova, L., Barsacchi, M., Barsacchi, R., Okuda, R., Yoshizawa, E., Kimura, M., Ayabe, H., Taniguchi, H., Takebe, T., & Belicova, L.. Multilineage communication regulates human liver bud development from pluripotency. Nature, 546, 533-538, (2017) Polisetti, N., Sorokin, L., Okumura, N., Koizumi, N., Kinoshita, S., Kruse, F. E., and Schlotzer-Schrehardt, U. Laminin-511 and-521-based matrices for efficient ex vivo-expansion of human limbal epithelial progenitor cells. Scientific Reports, 7, 5152, (2017) Hongo, A., Okumura, N., Nakahara, M., Kay, E. P., & Koizumi, N.. The Effect of a p38 Mitogen-Activated Protein Kinase Inhibitor on Cellular Senescence of Cultivated Human Corneal Endothelial CellsEffect of a p38 MAPK Inhibitor on Corneal Endothelial Cells. Investigative Ophthalmology & Visual Science, 58(9), 3325-3334, (2017) Taniguchi, Y., Li, S., Takizawa, M., Oonishi, E., Toga, J., Yagi, E., & Sekiguchi, K. Probing the acidic residue within the integrin binding site of laminin-511 that interacts with the metal ion-dependent adhesion site of α6β1 integrin. Biochemical and Biophysical Research Communications, 487(3), 525-531, (2017) Sekine, S. I., Kondo, T., Murakami, N., Imamura, K., Enami, T., Shibukawa, R., Tsukita, K., Funayama, M., Inden, M., Kurita, H., Hozumi, I., Inoue, H.. Induced pluripotent stem cells derived from a patient with familial idiopathic basal ganglia calcification (IBGC) caused by a variant in SLC20A2 gene. Stem Cell Research, (2017) Tan, G. W., Kondo, T., Murakami, N., Imamura, K., Enami, T., Tsukita, K., Shibukawa, R., Funayama, M., Matsumoto, R., Ikeda, I., Takahashi, R., Inoue, H.. Induced pluripotent stem cells derived from an autosomal dominant lateral temporal epilepsy (ADLTE) patient carrying S473L mutation in leucine-rich glioma inactivated 1 (LGI1). Stem Cell Research, (2017) Sato-Nishiuchi, R., Li, S., Ebisu, F., Sekiguchi, K.. Recombinant laminin fragments endowed with collagen-binding activity: A tool for conferring laminin-like cell-adhesive activity to collagen matrices. Matrix Biology, (2017) Kikuchi, T., Morizane, A., Doi, D., Magotani, H., Onoe, H., Hayashi, T., Mizuma, H., Takara, S., Takahashi, R., Inoue, H., Morita, S., Yamamoto, M., Okita, K., Nakagawa, M., Parmar, M., Takahashi, J.. Human iPS cell-derived dopaminergic neurons function in a primate Parkinson’s disease model. Nature, 548, 592-596, (2017) Takizawa, M., Arimori, T., Taniguchi, Y., Kitago, Y., Yamashita, E., Takagi, J., Sekiguchi, K.. Mechanistic basis for the recognition of laminin-511 by α6β1 integrin. Science Advances, 3(9), e1701497, (2017) Morizane, A., Kikuchi, T., Hayashi, T., Mizuma, H., Takara, S., Doi, H., Mawatari, A., Glasser, M. F., Shiina, T., Ishigaki, H., Itoh, Y., Okita, K., Yamasaki, E., Doi, D., Onoe, H., Ogasawara, K., Yamanaka, S., and Takahashi, J. . MHC matching improves engraftment of iPSC-derived neurons in non-human primates. Nature Communications, 8(1), 385, (2017) Kikuchi, T., Morizane, A., Doi, D., Magotani, H., Onoe, H., Hayashi, T., Mizuma, H., Takara, S., Takahashi, R., Inoue, H., Morita, S., Yamamoto, M., Okita, K., Nakagawa, M., Parmar, M., Takahashi, J. . human ips cell-derived dopaminergic neurons function in a primate Parkinson’s disease model. Nature, 548(7669), 592-596, (2017) Kojima, Y., Sasaki, K., Yokobayashi, S., Sakai, Y., Nakamura, T., Yabuta, Y., Nakaki, F., Nagaoka, S., Woltjen, K., Hotta, A., Yamamoto, T., Saitou, M.. Evolutionarily Distinctive Transcriptional and Signaling Programs Drive Human Germ Cell Lineage Specification from Pluripotent Stem Cells. Cell Stem Cell, 21(4), 517-532.e5, (2017) Taguchi, A., & Nishinakamura, R.. Higher-Order Kidney Organogenesis from Pluripotent Stem Cells. Cell Stem Cell, 21. (2017) Takebe, T., Sekine, K., Kimura, M., Yoshizawa, E., Ayano, S., Koido, M., Funayama, S., Nakanishi, N., Hisai, T., Kobayashi, T., Kasai, T., Kitada, R., Mori, A., Ayabe, H., Ejiri, Y., Amimoto, N., Yamazaki, Y., Ogawa, S., Ishikawa, M., Kiyota, Y., Sato, Y., Nozawa, K., Okamoto, S., Ueno, Y., Kasai, T.. Massive and Reproducible Production of Liver Buds Entirely from Human Pluripotent Stem Cells. Cell Reports, 21(10), 2661-2670, (2017) Uchimura, T., Otomo, J., Sato, M., Sakurai, H.. A human iPS cell myogenic differentiation system permitting high-throughput drug screening. Stem cell research, 25, 98-106, (2017) Sougawa, N., Miyagawa, S., Fukushima, S., Saito, A., Yokoyama, J., Kitahara, M., Harada, A., Sato-Nishiuchi, R., Sekiguchi, K., Sawa, Y.. Novel Stem Cell Niches Laminin 511 Promotes Functional Angiogenesis Through Enhanced Stem Cell Homing by Modulating” Stem Cell Beds” in the Failed Heart.Circulation, 136(1), A15587, (2017)
2016年 Samata, B., Doi, D., Nishimura, K., Kikuchi, T., Watanabe, A., Sakamoto, Y., Kakuta, J., Ono, Y., & Takahashi, J.. Purification of functional human ES and iPSC-derived midbrain dopaminergic progenitors using LRTM1. Nature Communications, 7(13097), 1-11, (2016) Hayashi, R., Ishikawa, Y., Sasamoto, Y., Katori, R., Nomura, N., Ichikawa, T., Araki, S., Soma, T., Kawasaki, S., Sekiguchi, K., Tsujikawa, M., Nishida, K., & Quantock, A. J.. Co-ordinated ocular development from human iPS cells and recovery of corneal function. Nature, 531(7594), 376-380, (2016) Matsuno, K., Mae, S. I., Okada, C., Nakamura, M., Watanabe, A., Toyoda, T., Uchida, E., Osafune, K.. Redefining definitive endoderm subtypes by robust induction of human induced pluripotent stem cells.Differentiation; research in biological diversity, (2016) Nishimura, K., Doi, D., Samata, B., Murayama, S., Tahara, T., Onoe, H., & Takahashi, J.. Estradiol Facilitates Functional Integration of iPSC-Derived Dopaminergic Neurons into Striatal Neuronal Circuits via Activation of Integrin α5β1. Stem cell reports, 6(4), 511-524, (2016) Takayama, K., Mitani, S., Nagamoto, Y., Sakurai, F., Tachibana, M., Taniguchi, Y., Sekiguchi, K., Mizuguchi, H.. Laminin 411 and 511 promote the cholangiocyte differentiation of human induced pluripotent stem cells. Biochemical and biophysical research communications, 474(1), 91-96, (2016) Kawamura, T., Miyagawa, S., Fukushima, S., Maeda, A., Kashiyama, N., Kawamura, A., Miki, K., Okita, K., Yoshida, Y., Shiina, T., Ogasawara, K., Miyagawa, S., Toda, K., Okuyama, H., Sawa, Y.. Cardiomyocytes derived from MHC-homozygous induced pluripotent stem cells exhibit reduced allogeneic immunogenicity in MHC-matched non-human primates. Stem cell reports, 6(3), 312-320, (2016). Tanigawa, S., Taguchi, A., Sharma, N., Perantoni, A. O., & Nishinakamura, R.. Selective in vitro propagation of nephron progenitors derived from embryos and pluripotent stem cells. Cell reports, 15(4), 801-813, (2016)
2015年 Okumura, N., Kakutani, K., Numata, R., Nakahara, M., Schlotzer-Schrehardt, U., Kruse, F., Kinoshita. K., Koizumi, N.. Laminin-511 and-521 Enable Efficient In Vitro Expansion of Human Corneal Endothelial CellsLaminin-511 and-521 Enable Expansion of HCECs. Investigative ophthalmology & visual science, 56(5), 2933-2942, (2015) Sasaki, K., Yokobayashi, S., Nakamura, T., Okamoto, I., Yabuta, Y., Kurimoto, K., Ohta, H., Moritoki, Y., Iwatani, C., Tsuchiya, H., Nakamura, S., Sekiguchi, K., Sakuma, T., Yamamoto, T., Mori, T., Woltjen, K., Nakagawa, M., Yamamoto, T., Takahashi, K., Yamanaka, S., Saitou, M.. Robust in vitro induction of human germ cell fate from pluripotent stem cells. Cell stem cell, 17(2), 178-194, (2015)
2014年 Nakagawa, M., Taniguchi, Y., Senda, S., Takizawa, N., Ichisaka, T., Asano, K., Morizane, A., Doi, D., Takahashi, J., Nishizawa, M., Yoshida, Y., Toyoda, T., Osafune, K., Sekiguchi, K., & Yamanaka, S. . A novel efficient feeder-free culture system for the derivation of human induced pluripotent stem cells. Scientific reports, 4(3594), 1-7, (2014) Doi, D., Samata, B., Katsukawa, M., Kikuchi, T., Morizane, A., Ono, Y., Sekiguchi, K., Nakagawa, M., Parmar, M., Takahashi, J.. Isolation of human induced pluripotent stem cell-derived dopaminergic progenitors by cell sorting for successful transplantation. Stem cell reports, 2(3), 337-350, (2014) Takashima, Y., Guo, G., Loos, R., Nichols, J., Ficz, G., Krueger, F., Oxley, D., Santos, F., Clarke, J., Mansfield, W., Reik, W., Bertone, P., Smith, A.. Resetting transcription factor control circuitry toward ground-state pluripotency in human. Cell, 158(6), 1254-1269, (2014) Fukuta, M., Nakai, Y., Kirino, K., Nakagawa, M., Sekiguchi, K., Nagata, S., Matsumoto, Y., Yamamoto, T., Umeda, K., Heike, T., Okumura, N., Koizumi, N., Sato, T., Nakahata, T., Saito, M., Otsuka, T., Kinoshita, S., Ueno, M., Ikeya, M., Toguchida, J. . Derivation of mesenchymal stromal cells from pluripotent stem cells through a neural crest lineage using small molecule compounds with defined media. PloS one, 9(12), e112291, (2014) Burridge, P. W., Matsa, E., Shukla, P., Lin, Z. C., Churko, J. M., Ebert, A. D., Lan, F., Diecke, S., Huber, B., Mordwinkin, N. M., Plews, J. R., Abilez, O. J., Cui, B., Gold, J. D., & Wu, J. C. . Chemically defined generation of human cardiomyocytes. Nature methods, 11(8), 855-860, (2014)
2012年 Miyazaki, T., Futaki, S., Suemori, H., Taniguchi, Y., Yamada, M., Kawasaki, M., Hayashi, M., Kumagai, H., Nakatsuji, N., Sekiguchi, K., & Kawase, E. . Laminin E8 fragment support efficient adhesion and expansion of dissociated human pluripotent stem cells. Nature communications, 3(1236), 1-10, (2012)
2009年 Taniguchi, Y., Ido, H., Sanzen, N., Hayashi, M., Sato-Nishiuchi, R., Futaki, S., & Sekiguchi, K. . The C-terminal region of laminin β chains modulates the integrin binding affinities of laminins. Journal of Biological Chemistry, 284(12), 7820-7831, (2009)
2007年 Ido, H., Nakamura, A., Kobayashi, R., Ito, S., Li, S., Futaki, S., & Sekiguchi, K. . The requirement of the glutamic acid residue at the third position from the carboxyl termini of the laminin γ chains in integrin binding by laminins. Journal of Biological Chemistry, 282(15), 11144-11154, (2007)
発行年 和論文
2017年 宮崎隆道, 末盛博文 (2017)「簡便かつ低コスト化を実現したヒト多能性幹細胞の培養法」『実験医学』, 35(19), 3273-3278.
2016年 山本卓司 (2016) 「細胞外マトリックスと再生医療」 『細胞』,48(2),31-33(83-85). 山本卓司 (2016) 「ES細胞、iPS細胞の培養に求められる足場材料 -その要求事項と開発事例-」 『MATERIAL STAGE』,15(11),1-3. 山本卓司・藤田和将・服部俊治・関口清俊 (2015) 「医療応用に適したフィーダー細胞フリーのヒト多能性幹細胞用培養基質の開発」 『バイオサイエンスとインダストリー』,73(3),20-30 .
2015年 中川誠人 (2015) 「再生医療の実現に向けた 幹細胞培養技術の開発」 『実験医学』,33(18),2958-2963. 山本卓司 (2015) 「再生医療を支える 臨床グレードの細胞培養用基質 およびタンパク質分解酵素の開発」 『実験医学』,33(18),2964-2966. 山本卓司 (2015) 「再生医療へ応用可能な臨床グレードラミニン511-E8タンパク質の開発」 『Bio Clinica』,30(5)394,47-50.
2014年 関口清俊 (2014) 「再生医療の進歩(前編)次世代再生医療に向けた基盤研究、再生医療普及のための基盤技術、ヒト多能性幹細胞用培養基質の開発」 『最新医学(増刊号)』, 102-109.
2013年 川瀬栄八郎・宮崎隆道・関口清俊 (2013) 「ラミニンE8を用いた安全で効率的なヒト多能性幹細胞培養法の開発」 『実験医学』,31(6),918-922.
発行年 和書籍
2017年 宮崎隆道 (2017).「動物細胞培養・自動化におけるトラブル発生原因と対策」 編集企画 株式会社技術情報協会 『第1章 第1節 培養手法と培地についての基本理解と低コスト化・簡便化のポイント』 株式会社技術情報協会 pp3-7. 山本卓司 (2017).「動物細胞培養・自動化におけるトラブル発生原因と対策」 編集企画 株式会社技術情報協会 『第6章 第4節 ES細胞・iPS細胞に求められる足場材料と開発事例』 株式会社技術情報協会 pp236-239. 山本卓司 (2017).「生体吸収材料の開発と安全性評価」 編集企画 株式会社技術情報協会 『第2章 第6節 ES細胞・iPS細胞に求められる足場材料の開発』 株式会社技術情報協会 pp108-114.
2016年 山本卓司 (2016).「iPS細胞安全・高品質な作製技術」 編集企画 株式会社技術情報協会 『第4章 第6節 iPS細胞の培養に最適な足場材の開発』 株式会社技術情報協会 pp226-230. 冨田正浩 (2016).「iPS細胞安全・高品質な作製技術」 編集企画 株式会社技術情報協会 『第4章 第7節 遺伝子組換えカイコを用いたiPS細胞培養足場材の安価な製造法』 株式会社技術情報協会 pp231-239. 宮崎隆道, 中辻憲夫 (2016).「iPS細胞安全・高品質な作製技術」 編集企画 株式会社技術情報協会 『第4章 第8節 細胞接着タンパクを用いた安全・高効率な培養法の開発』 株式会社技術情報協会 pp240-246.
2014年 山本卓司 (2014). 「再生医療の細胞培養技術と産業展開」 紀ノ岡正博監修 『第11章 培養基材』 シーエムシー出版 pp.102-109.