Identification of tumor-initiating cells in a highly aggressive brain tumor using promoter activity of nucleostemin

Akira Tamase; Teruyuki Muraguchi; Kazuhito Naka; Shingo Tanaka; Masashi Kinoshita; Takayuki Hoshii; Masako Ohmura; Haruhiko Shugo; Takako Ooshio; Mitsutoshi Nakada; Kazunobu Sawamoto; Masafumi Onodera; Kunio Matsumoto; Masanobu Oshima; Masahide Asano; Hideyuki Saya; Hideyuki Okano; Toshio Suda; Jun Ichiro Hamada; Atsushi Hirao

doi:10.1073/pnas.0905016106

Identification of tumor-initiating cells in a highly aggressive brain tumor using promoter activity of nucleostemin

Akira Tamase, Teruyuki Muraguchi, Kazuhito Naka, Shingo Tanaka, Masashi Kinoshita, Takayuki Hoshii, Masako Ohmura, Haruhiko Shugo, Takako Ooshio, Mitsutoshi Nakada, Kazunobu Sawamoto, Masafumi Onodera, Kunio Matsumoto, Masanobu Oshima, Masahide Asano, Hideyuki Saya, Hideyuki Okano, Toshio Suda, Jun Ichiro Hamada, Atsushi Hirao

生理学

研究成果: Article › 査読

72 被引用数 (Scopus)

抄録

Controversy remains over whether the cancer stem cell (CSC) theory applies to all tumors. To determine whether cells within a highly aggressive solid tumor are stochastically or hierarchically organized, we combined a reporter system where the nucleostemin (NS) promoter drives GFP expression (termed NS-GFP) with a mouse brain tumor model induced by retroviral Ras expression on a p16 ^Ink4a/p19^Arf-deficient background. The NS-GFP system allowed us to monitor the differentiation process of normal neural stem/precursor cells by analyzing GFP fluorescence intensity. In tumor-bearing mice, despite the very high frequency of tumorigenic cells, we successfully identified the NS-GFP⁺ cells as tumorinitiating cells (T-ICs). The clonal studies conclusively established that phenotypical heterogeneity can exist among the cells comprising a genetically homogeneous tumor, suggesting that this aggressive brain tumor follows the CSC model. Detailed analyses of the NS-GFP⁺ brain tumor cells revealed that T-ICs showed activation of the receptor tyrosine kinase c-Met, which functions in tumor invasiveness. Thus, the NS-GFP system provides a powerful tool to elucidate stem cell biology in normal and malignant tissues.

本文言語	English
ページ（範囲）	17163-17168
ページ数	6
ジャーナル	Proceedings of the National Academy of Sciences of the United States of America
巻	106
号	40
DOI	https://doi.org/10.1073/pnas.0905016106
出版ステータス	Published - 2009 10月 6

ASJC Scopus subject areas

一般

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この成果は、次の持続可能な開発目標に貢献しています

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10.1073/pnas.0905016106

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Tamase, A., Muraguchi, T., Naka, K., Tanaka, S., Kinoshita, M., Hoshii, T., Ohmura, M., Shugo, H., Ooshio, T., Nakada, M., Sawamoto, K., Onodera, M., Matsumoto, K., Oshima, M., Asano, M., Saya, H., Okano, H., Suda, T., Hamada, J. I., & Hirao, A. (2009). Identification of tumor-initiating cells in a highly aggressive brain tumor using promoter activity of nucleostemin. Proceedings of the National Academy of Sciences of the United States of America, 106(40), 17163-17168. https://doi.org/10.1073/pnas.0905016106

Tamase, A, Muraguchi, T, Naka, K, Tanaka, S, Kinoshita, M, Hoshii, T, Ohmura, M, Shugo, H, Ooshio, T, Nakada, M, Sawamoto, K, Onodera, M, Matsumoto, K, Oshima, M, Asano, M, Saya, H, Okano, H, Suda, T, Hamada, JI & Hirao, A 2009, 'Identification of tumor-initiating cells in a highly aggressive brain tumor using promoter activity of nucleostemin', Proceedings of the National Academy of Sciences of the United States of America, vol. 106, no. 40, pp. 17163-17168. https://doi.org/10.1073/pnas.0905016106

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abstract = "Controversy remains over whether the cancer stem cell (CSC) theory applies to all tumors. To determine whether cells within a highly aggressive solid tumor are stochastically or hierarchically organized, we combined a reporter system where the nucleostemin (NS) promoter drives GFP expression (termed NS-GFP) with a mouse brain tumor model induced by retroviral Ras expression on a p16 Ink4a/p19Arf-deficient background. The NS-GFP system allowed us to monitor the differentiation process of normal neural stem/precursor cells by analyzing GFP fluorescence intensity. In tumor-bearing mice, despite the very high frequency of tumorigenic cells, we successfully identified the NS-GFP+ cells as tumorinitiating cells (T-ICs). The clonal studies conclusively established that phenotypical heterogeneity can exist among the cells comprising a genetically homogeneous tumor, suggesting that this aggressive brain tumor follows the CSC model. Detailed analyses of the NS-GFP+ brain tumor cells revealed that T-ICs showed activation of the receptor tyrosine kinase c-Met, which functions in tumor invasiveness. Thus, the NS-GFP system provides a powerful tool to elucidate stem cell biology in normal and malignant tissues.",

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AU - Hoshii, Takayuki

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AU - Shugo, Haruhiko

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AU - Nakada, Mitsutoshi

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AU - Matsumoto, Kunio

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AU - Asano, Masahide

AU - Saya, Hideyuki

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AU - Hamada, Jun Ichiro

AU - Hirao, Atsushi

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AB - Controversy remains over whether the cancer stem cell (CSC) theory applies to all tumors. To determine whether cells within a highly aggressive solid tumor are stochastically or hierarchically organized, we combined a reporter system where the nucleostemin (NS) promoter drives GFP expression (termed NS-GFP) with a mouse brain tumor model induced by retroviral Ras expression on a p16 Ink4a/p19Arf-deficient background. The NS-GFP system allowed us to monitor the differentiation process of normal neural stem/precursor cells by analyzing GFP fluorescence intensity. In tumor-bearing mice, despite the very high frequency of tumorigenic cells, we successfully identified the NS-GFP+ cells as tumorinitiating cells (T-ICs). The clonal studies conclusively established that phenotypical heterogeneity can exist among the cells comprising a genetically homogeneous tumor, suggesting that this aggressive brain tumor follows the CSC model. Detailed analyses of the NS-GFP+ brain tumor cells revealed that T-ICs showed activation of the receptor tyrosine kinase c-Met, which functions in tumor invasiveness. Thus, the NS-GFP system provides a powerful tool to elucidate stem cell biology in normal and malignant tissues.

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Identification of tumor-initiating cells in a highly aggressive brain tumor using promoter activity of nucleostemin

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