Zinc finger protein 277 is an intestinal transit-amplifying cell marker and colon cancer oncogene
Guofeng Xie, … , Harris Yfantis, Jean-Pierre Raufman
Guofeng Xie, … , Harris Yfantis, Jean-Pierre Raufman
Published January 11, 2022
Citation Information: JCI Insight. 2022;7(4):e150894. https://doi.org/10.1172/jci.insight.150894.
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Research Article Gastroenterology Oncology

Zinc finger protein 277 is an intestinal transit-amplifying cell marker and colon cancer oncogene

Abstract

Sustained proliferative signaling and resisting cell death are hallmarks of cancer. Zinc finger protein 277 (ZNF277; murine Zfp277), a transcription factor regulating cellular senescence, is overexpressed in colon cancer, but its actions in intestinal homeostasis and neoplasia are unclear. Using human and murine intestine, human colon cancer cells, and ApcMin/+ mice with dysregulated β-catenin signaling and exuberant intestinal neoplasia, we explored the actions of ZNF277/Zfp277 and defined the underlying mechanisms. In normal human and murine intestine, ZNF277/Zfp277 was expressed uniquely in early stem cell progenitors, undifferentiated transit-amplifying cells (TACs). Zfp277 was overexpressed in the ApcMin/+ mouse colon, implicating ZNF277/Zfp277 as a transcriptional target of β-catenin signaling. We confirmed this by showing β-catenin knockdown reduced ZNF277 expression and, using chromatin IP, identified 2 β-catenin binding sites in the ZNF277 promoter. Zfp277 deficiency attenuated intestinal epithelial cell proliferation and tumor formation, and it strikingly prolonged ApcMin/+ mouse survival. RNA-Seq and PCR analyses revealed that Zfp277 modulates expression of genes in key cancer pathways, including β-catenin signaling, the HOXD family that regulates development, and p21WAF1, a cell cycle inhibitor and tumor suppressor. In both human colon cancer cells and the murine colon, ZNF277/Zfp277 deficiency induced p21WAF1 expression and promoted senescence. Our findings identify ZNF277/Zfp277 as both a TAC marker and colon cancer oncogene that regulates cellular proliferation and senescence, in part by repressing p21WAF1 expression.

Authors

Guofeng Xie, Zhongsheng Peng, Jinqing Liang, Shannon M. Larabee, Cinthia B. Drachenberg, Harris Yfantis, Jean-Pierre Raufman

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Figure 3

Zfp277 deficiency attenuates epithelial cell proliferation in murine small intestine and colon.

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Zfp277 deficiency attenuates epithelial cell proliferation in murine sm...
(A) Zfp277 deficiency reduces small intestinal Ki67 expression. Brackets indicate staining at the base of the crypts. Representative Ki67 IHC staining of ileal segments from mice with the indicated genotypes. (B) Numbers of Ki67+ cells per ileal crypt in mice of the indicated genotype. (C) Representative Ki67 IHC staining of distal colons from mice with the indicated genotype. Values represent mean ± SEM from 3 mice for each genotype. (D) Numbers of Ki67+ cells per colon crypt. All mice were 15-week-old males. Scale bar: 100 μM. Values represent mean ± SEM from 3 mice in each genotype. Data were analyzed using 1-way ANOVA. (E) Representative confocal microscopy images of BrdU (green; 2-hour labeling) and Ki67 (red) IF staining and merged images of BrdU, Ki67, and DAPI of ileal segments from 15-week-old male mice with the indicated genotype. Arrows indicate fluorescence signals at the base of the crypts. Scale bar: 100 μM.