Metabolic Adaptation to Nutritional Stress in Human Colorectal Cancer

Masaaki Miyo; Masamitsu Konno; Naohiro Nishida; Toshinori Sueda; Kozo Noguchi; Hidetoshi Matsui; Hugh Colvin; Koichi Kawamoto; Jun Koseki; Naotsugu Haraguchi; Junichi Nishimura; Taishi Hata; Noriko Gotoh; Fumio Matsuda; Taroh Satoh; Tsunekazu Mizushima; Hiroshi Shimizu; Yuichiro Doki; Masaki Mori; Hideshi Ishii

doi:10.1038/srep38415

Metabolic Adaptation to Nutritional Stress in Human Colorectal Cancer

Masaaki Miyo, Masamitsu Konno, Naohiro Nishida, Toshinori Sueda, Kozo Noguchi, Hidetoshi Matsui, Hugh Colvin, Koichi Kawamoto, Jun Koseki, Naotsugu Haraguchi, Junichi Nishimura, Taishi Hata, Noriko Gotoh, Fumio Matsuda, Taroh Satoh, Tsunekazu Mizushima, Hiroshi Shimizu, Yuichiro Doki, Masaki Mori, Hideshi Ishii

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

48 被引用数 (Scopus)

抄録

Tumor cells respond to their microenvironment, which can include hypoxia and malnutrition, and adapt their metabolism to survive and grow. Some oncogenes are associated with cancer metabolism via regulation of the related enzymes or transporters. However, the importance of metabolism and precise metabolic effects of oncogenes in colorectal cancer remain unclear. We found that colorectal cancer cells survived under the condition of glucose depletion, and their resistance to such conditions depended on genomic alterations rather than on KRAS mutation alone. Metabolomic analysis demonstrated that those cells maintained tricarboxylic acid cycle activity and ATP production under such conditions. Furthermore, we identified pivotal roles of GLUD1 and SLC25A13 in nutritional stress. GLUD1 and SLC25A13 were associated with tumor aggressiveness and poorer prognosis of colorectal cancer. In conclusion, GLUD1 and SLC25A13 may serve as new targets in treating refractory colorectal cancer which survive in malnutritional microenvironments.

本文言語	英語
論文番号	38415
ジャーナル	Scientific reports
巻	6
DOI	https://doi.org/10.1038/srep38415
出版ステータス	出版済み - 12月 7 2016
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

一般

UN SDG

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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10.1038/srep38415

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Miyo, M., Konno, M., Nishida, N., Sueda, T., Noguchi, K., Matsui, H., Colvin, H., Kawamoto, K., Koseki, J., Haraguchi, N., Nishimura, J., Hata, T., Gotoh, N., Matsuda, F., Satoh, T., Mizushima, T., Shimizu, H., Doki, Y., Mori, M., & Ishii, H. (2016). Metabolic Adaptation to Nutritional Stress in Human Colorectal Cancer. Scientific reports, 6, 記事 38415. https://doi.org/10.1038/srep38415

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title = "Metabolic Adaptation to Nutritional Stress in Human Colorectal Cancer",

abstract = "Tumor cells respond to their microenvironment, which can include hypoxia and malnutrition, and adapt their metabolism to survive and grow. Some oncogenes are associated with cancer metabolism via regulation of the related enzymes or transporters. However, the importance of metabolism and precise metabolic effects of oncogenes in colorectal cancer remain unclear. We found that colorectal cancer cells survived under the condition of glucose depletion, and their resistance to such conditions depended on genomic alterations rather than on KRAS mutation alone. Metabolomic analysis demonstrated that those cells maintained tricarboxylic acid cycle activity and ATP production under such conditions. Furthermore, we identified pivotal roles of GLUD1 and SLC25A13 in nutritional stress. GLUD1 and SLC25A13 were associated with tumor aggressiveness and poorer prognosis of colorectal cancer. In conclusion, GLUD1 and SLC25A13 may serve as new targets in treating refractory colorectal cancer which survive in malnutritional microenvironments.",

author = "Masaaki Miyo and Masamitsu Konno and Naohiro Nishida and Toshinori Sueda and Kozo Noguchi and Hidetoshi Matsui and Hugh Colvin and Koichi Kawamoto and Jun Koseki and Naotsugu Haraguchi and Junichi Nishimura and Taishi Hata and Noriko Gotoh and Fumio Matsuda and Taroh Satoh and Tsunekazu Mizushima and Hiroshi Shimizu and Yuichiro Doki and Masaki Mori and Hideshi Ishii",

note = "Funding Information: Research reported in this paper was supported by Ministry of Education, Culture, Sports, Science, and Technology (22130005, 25112708, 25134711, 24390315 and 26670604), by Ministry of Health, Labour and Welfare (H23-003) and by National Institute of Biomedical Innovation (12-4). Publisher Copyright: {\textcopyright} 2016 The Author (S).",

year = "2016",

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doi = "10.1038/srep38415",

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volume = "6",

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T1 - Metabolic Adaptation to Nutritional Stress in Human Colorectal Cancer

AU - Miyo, Masaaki

AU - Konno, Masamitsu

AU - Nishida, Naohiro

AU - Sueda, Toshinori

AU - Noguchi, Kozo

AU - Matsui, Hidetoshi

AU - Colvin, Hugh

AU - Kawamoto, Koichi

AU - Koseki, Jun

AU - Haraguchi, Naotsugu

AU - Nishimura, Junichi

AU - Hata, Taishi

AU - Gotoh, Noriko

AU - Matsuda, Fumio

AU - Satoh, Taroh

AU - Mizushima, Tsunekazu

AU - Shimizu, Hiroshi

AU - Doki, Yuichiro

AU - Mori, Masaki

AU - Ishii, Hideshi

N1 - Funding Information: Research reported in this paper was supported by Ministry of Education, Culture, Sports, Science, and Technology (22130005, 25112708, 25134711, 24390315 and 26670604), by Ministry of Health, Labour and Welfare (H23-003) and by National Institute of Biomedical Innovation (12-4). Publisher Copyright: © 2016 The Author (S).

PY - 2016/12/7

Y1 - 2016/12/7

N2 - Tumor cells respond to their microenvironment, which can include hypoxia and malnutrition, and adapt their metabolism to survive and grow. Some oncogenes are associated with cancer metabolism via regulation of the related enzymes or transporters. However, the importance of metabolism and precise metabolic effects of oncogenes in colorectal cancer remain unclear. We found that colorectal cancer cells survived under the condition of glucose depletion, and their resistance to such conditions depended on genomic alterations rather than on KRAS mutation alone. Metabolomic analysis demonstrated that those cells maintained tricarboxylic acid cycle activity and ATP production under such conditions. Furthermore, we identified pivotal roles of GLUD1 and SLC25A13 in nutritional stress. GLUD1 and SLC25A13 were associated with tumor aggressiveness and poorer prognosis of colorectal cancer. In conclusion, GLUD1 and SLC25A13 may serve as new targets in treating refractory colorectal cancer which survive in malnutritional microenvironments.

AB - Tumor cells respond to their microenvironment, which can include hypoxia and malnutrition, and adapt their metabolism to survive and grow. Some oncogenes are associated with cancer metabolism via regulation of the related enzymes or transporters. However, the importance of metabolism and precise metabolic effects of oncogenes in colorectal cancer remain unclear. We found that colorectal cancer cells survived under the condition of glucose depletion, and their resistance to such conditions depended on genomic alterations rather than on KRAS mutation alone. Metabolomic analysis demonstrated that those cells maintained tricarboxylic acid cycle activity and ATP production under such conditions. Furthermore, we identified pivotal roles of GLUD1 and SLC25A13 in nutritional stress. GLUD1 and SLC25A13 were associated with tumor aggressiveness and poorer prognosis of colorectal cancer. In conclusion, GLUD1 and SLC25A13 may serve as new targets in treating refractory colorectal cancer which survive in malnutritional microenvironments.

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Metabolic Adaptation to Nutritional Stress in Human Colorectal Cancer

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