Cellular context-dependent consequences of
            <i>Apc</i>
            mutations on gene regulation and cellular behavior

Hashimoto, K; Yamada, Yosuke; Semi, Katsunori; Yagi, Masahide; Tanaka, Akito; Itakura, Fumiaki; Aoki, Hitomi; Kunisada, Takahiro; Woltjen, Knut; Haga, Hironori; Sakai, Yoshiharu; Yamamoto, Takuya; Yamada, Yasuhiro

doi:10.1073/pnas.1614197114

Cited by 17 publications

(19 citation statements)

References 31 publications

(33 reference statements)

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“…CRC progression also requires additional genetic alterations in KRAS, PI3K, TGF-β, SMAD4, and TP53 27 . Moreover, epigenetic silencing of negative regulators of Wnt signaling was also frequently found in the absence of APC mutations 28,29 . APC is a multifunctional protein.…”

Section: The β-Catenin Destruction Complexmentioning

confidence: 99%

Wnt signaling in cancer: therapeutic targeting of Wnt signaling beyond β-catenin and the destruction complex

2020

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Wnt/β-catenin signaling is implicated in many physiological processes, including development, tissue homeostasis, and tissue regeneration. In human cancers, Wnt/β-catenin signaling is highly activated, which has led to the development of various Wnt signaling inhibitors for cancer therapies. Nonetheless, the blockade of Wnt signaling causes side effects such as impairment of tissue homeostasis and regeneration. Recently, several studies have identified cancer-specific Wnt signaling regulators. In this review, we discuss the Wnt inhibitors currently being used in clinical trials and suggest how additional cancer-specific regulators could be utilized to treat Wnt signaling-associated cancer.

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Section: The β-Catenin Destruction Complexmentioning

confidence: 99%

Wnt signaling in cancer: therapeutic targeting of Wnt signaling beyond β-catenin and the destruction complex

2020

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“…A murine model of the conditional suppression of APC provided clear evidence that APC disruption is required for colon tumor development and maintenance [ 42 ]. In this model, APC suppression determines the formation of adenomas both at the level of the colon and small intestine that—in the presence of additional mutations at the level of TP53 and KRAS genes—induces the progression of these tumors to colon cancers.…”

Section: Colorectal Carcinogenesismentioning

confidence: 99%

Colorectal Cancer: Genetic Abnormalities, Tumor Progression, Tumor Heterogeneity, Clonal Evolution and Tumor-Initiating Cells

2018

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Colon cancer is the third most common cancer worldwide. Most colorectal cancer occurrences are sporadic, not related to genetic predisposition or family history; however, 20–30% of patients with colorectal cancer have a family history of colorectal cancer and 5% of these tumors arise in the setting of a Mendelian inheritance syndrome. In many patients, the development of a colorectal cancer is preceded by a benign neoplastic lesion: either an adenomatous polyp or a serrated polyp. Studies carried out in the last years have characterized the main molecular alterations occurring in colorectal cancers, showing that the tumor of each patient displays from two to eight driver mutations. The ensemble of molecular studies, including gene expression studies, has led to two proposed classifications of colorectal cancers, with the identification of four/five non-overlapping groups. The homeostasis of the rapidly renewing intestinal epithelium is ensured by few stem cells present at the level of the base of intestinal crypts. Various experimental evidence suggests that colorectal cancers may derive from the malignant transformation of intestinal stem cells or of intestinal cells that acquire stem cell properties following malignant transformation. Colon cancer stem cells seem to be involved in tumor chemoresistance, radioresistance and relapse.

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“…This treatment induced goblet cell differentiation and reduced cell proliferation, suggesting that forced reduction of DNA methylation diminishes stemness in cancer cells. Although the cancer phenotype is determined by genetic and epigenetic alternations, epigenetic changes have a possible role in regulating cellular differentiation in cancer [ 105 , 106 ].…”

Section: Stem Cell Phenotype In Colon Cancer: Emerging Evidence Fomentioning

confidence: 99%

Multifaceted Interpretation of Colon Cancer Stem Cells

Hatano

Fukuda

Hisamatsu

et al. 2017

IJMS

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Abstract:Colon cancer is one of the leading causes of cancer-related deaths worldwide, despite recent advances in clinical oncology. Accumulating evidence sheds light on the existence of cancer stem cells and their role in conferring therapeutic resistance. Cancer stem cells are a minor fraction of cancer cells, which enable tumor heterogeneity and initiate tumor formation. In addition, these cells are resistant to various cytotoxic factors. Therefore, elimination of cancer stem cells is difficult but essential to cure the malignant foci completely. Herein, we review the recent evidence for intestinal stem cells and colon cancer stem cells, methods to detect the tumor-initiating cells, and clinical significance of cancer stem cell markers. We also describe the emerging problems of cancer stem cell theory, including bidirectional conversion and intertumoral heterogeneity of stem cell phenotype.

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Cellular context-dependent consequences of Apc mutations on gene regulation and cellular behavior

Cited by 17 publications

References 31 publications

Wnt signaling in cancer: therapeutic targeting of Wnt signaling beyond β-catenin and the destruction complex

Wnt signaling in cancer: therapeutic targeting of Wnt signaling beyond β-catenin and the destruction complex

Colorectal Cancer: Genetic Abnormalities, Tumor Progression, Tumor Heterogeneity, Clonal Evolution and Tumor-Initiating Cells

Multifaceted Interpretation of Colon Cancer Stem Cells

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