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Supplementary Table S2 from Slow-Cycling Cancer Stem Cells Regulate Progression and Chemoresistance in Colon Cancer

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posted on 2023-03-31, 03:47 authored by Daisuke Shiokawa, Hiroaki Sakai, Hirokazu Ohata, Toshiaki Miyazaki, Yusuke Kanda, Shigeki Sekine, Daichi Narushima, Masahito Hosokawa, Mamoru Kato, Yutaka Suzuki, Haruko Takeyama, Hideki Kambara, Hitoshi Nakagama, Koji Okamoto

Supplementary Table S2

Funding

National Cancer Center Research and Development Fund

Grant-in-Aid for Scientific Research

Japan Society for the Promotion of Science

Grant-in-Aid for Scientific Research in Innovative Areas

History

ARTICLE ABSTRACT

Cancer chemoresistance is often attributed to the presence of cancer stem cell (CSC)-like cells, but whether they are homogeneously chemoresistant remains unclear. We previously showed that in colon tumors, a subpopulation of LGR5+ CSC-like cells driven by TCF1 (TCF7), a Wnt-responsive transcription factor, were responsible for tumorigenicity. Here we demonstrate that the tumorigenic subpopulation of mouse LGR5+ cells exists in a slow-cycling state and identify a unique 22-gene signature that characterizes these slow-cycling CSC. Seven of the signature genes are specifically expressed in slow-cycling LGR5+ cells from xenografted human colon tumors and are upregulated in colon cancer clinical specimens. Among these seven, four genes (APCDD1, NOTUM, PROX1, and SP5) are known to be direct Wnt target genes, and PROX1 was expressed in the invasive fronts of colon tumors. PROX1 was activated by TCF1 to induce CDKN1C and maintain a slow-cycling state in colon cancer organoids. Strikingly, PROX1 was required for recurrent growth after chemotherapeutic treatment, suggesting that inhibition of slow-cycling CSC by targeting the TCF1–PROX1–CDKN1C pathway is an effective strategy to combat refractory colon cancer in combination with conventional chemotherapy. These findings illustrate the importance of a slow-cycling CSC subpopulation in colon cancer development and chemoresistance, with potential implications for the identified slow-cycling CSC signatures and the TCF1–PROX1–CDKN1C pathway as therapeutic targets.

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