MUC1-C drives stemness in progression of colitis to colorectal cancer
Wei Li, … , Song Liu, Donald Kufe
Wei Li, … , Song Liu, Donald Kufe
Published May 19, 2020
Citation Information: JCI Insight. 2020;5(12):e137112. https://doi.org/10.1172/jci.insight.137112.
View: Text | PDF
Research Article Oncology Therapeutics

MUC1-C drives stemness in progression of colitis to colorectal cancer

Abstract

Colitis is associated with the development of colorectal cancer (CRC) by largely undefined mechanisms that are critical for understanding the link between inflammation and cancer. Intestinal stem cells (ISCs) marked by leucine-rich repeat–containing G protein–coupled receptor 5 (LGR5) expression are of importance in both the inflammatory response to colitis and progression to colitis-associated colon cancer (CACC). Here, we report in human mucin 1–transgenic (MUC1-transgenic) mouse models of CACC, targeting the MUC1-C oncogenic protein suppresses the (a) Lgr5+ ISC population, (b) induction of Myc and core pluripotency stem cell factors, and (c) severity and progression of colitis to dysplasia and cancer. By extension to human colon cancer cells, we demonstrate that MUC1-C drives MYC, forms a complex with MYC on the LGR5 promoter, and activates LGR5 expression. We also show in CRC cells that MUC1-C induces cancer stem cell (CSC) markers (BMI1, ALDH1, FOXA1, LIN28B) and the OCT4, SOX2, and NANOG pluripotency factors. Consistent with conferring the CSC state, targeting MUC1-C suppresses the capacity of CRC cells to promote wound healing, invasion, self-renewal, and tumorigenicity. In analysis of human tissues, MUC1 expression associates with activation of inflammatory pathways, development of colitis, and aggressiveness of CRCs. These results collectively indicate that MUC1-C is of importance for integrating stemness and pluripotency in colitis and CRC. Of clinical relevance, the findings further indicate that MUC1-C represents a potentially previously unrecognized target that is druggable for treating progression of colitis and CRC.

Authors

Wei Li, Ning Zhang, Caining Jin, Mark D. Long, Hasan Rajabi, Yota Yasumizu, Atsushi Fushimi, Nami Yamashita, Masayuki Hagiwara, Rongbin Zheng, Jin Wang, Ling Kui, Harpal Singh, Surender Kharbanda, Qiang Hu, Song Liu, Donald Kufe

×

Figure 5

Targeting MUC1-C in human colon cancer cells downregulates LGR5, BMI1, and stemness.

Options: View larger image (or click on image) Download as PowerPoint
Targeting MUC1-C in human colon cancer cells downregulates LGR5, BMI1, a...
(A) Human SW620 colon cancer cells stably expressing a tet-CshRNA or tet-MUC1shRNA were treated with vehicle or 500 ng/mL DOX for 7 days. Lysates were immunoblotted with antibodies against the indicated proteins. (B) RNA-Seq was performed in triplicate on SW620 MUC1shRNA cells treated with vehicle or 500 ng/mL DOX for 7 days. Silencing MUC1-C expression was significantly associated with suppression of the indicated HALLMARK gene sets. (C) SW620 cells were left untreated or treated with 5 μM GO-203 for 48 hours. Lysates were immunoblotted with antibodies against the indicated proteins. (D) SW620 tet-MUC1shRNA cells treated with vehicle or 500 ng/mL DOX for 48 hours were monitored for wound healing in the scratch assay (left). The results are expressed as a percentage (mean ± SD of 3 biologic replicates) of the control at 0 hours (right). Scale bars: 100 μm. (E) SW620 cells left untreated or treated with 5 μM GO-203 for 48 hours were monitored for wound healing in the scratch assay (left). The results (mean ± SD of 3 biologic replicates) are expressed as a percentage of the control at 0 hours (right). Scale bars: 100 μm. (F) SW620 tet-CshRNA and SW620 tet-MUC1shRNA cells treated with vehicle or 500 ng/mL DOX for 24 hours were assayed for invasion (left). The results (mean ± SD of 3 biologic replicates) are expressed as the invasive cell number (right). Scale bar: 200 μm. (G) SW620 tet-CshRNA and SW620 tet-MUC1shRNA cells treated with vehicle or 500 ng/mL DOX for 7 days were assayed for colony formation (left). The results (mean ± SD of 3 biologic replicates) are expressed as colony number per field (right). (H) SW620 tet-CshRNA and SW620 tet-MUC1shRNA cells treated with vehicle or 500 ng/mL DOX for 5 days were assayed for tumorsphere formation (left). The results (mean ± SD of 3 biologic replicates) are expressed as tumorsphere number per field (right). Scale bar: 200 μm.