Long noncoding RNA Gm31629 protects against mucosal damage in experimental colitis via YB-1/E2F pathway
Xu Feng, Ye Xiao, Jian He, Mi Yang, Qi Guo, Tian Su, Yan Huang, Jun Yi, Chang-Jun Li, Xiang-Hang Luo, Xiao-Wei Liu, Hai-Yan Zhou
Xu Feng, Ye Xiao, Jian He, Mi Yang, Qi Guo, Tian Su, Yan Huang, Jun Yi, Chang-Jun Li, Xiang-Hang Luo, Xiao-Wei Liu, Hai-Yan Zhou
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Research Article Gastroenterology Therapeutics

Long noncoding RNA Gm31629 protects against mucosal damage in experimental colitis via YB-1/E2F pathway

Abstract

Mucosal healing is a key treatment goal for inflammatory bowel disease, and adequate epithelial regeneration is required for an intact gut epithelium. However, the underlying mechanism for mucosal healing is unclear. Long noncoding RNAs (lncRNAs) have been reported to be involved in the development of inflammatory bowel disease. Here, we report that a lncRNA named Gm31629 decreased in intestinal epithelial cells in response to inflammatory stimulation. Gm31629 deficiency led to exacerbated intestinal inflammation and delayed epithelial regeneration in dextran sulfate sodium–induced (DSS-induced) colitis model. Mechanistically, Gm31629 promoted E2F pathways and cell proliferation by stabilizing Y-box protein 1 (YB-1), thus facilitating epithelial regeneration. Genetic overexpression of Gm31629 protected against DSS-induced colitis in vivo. Theaflavin 3-gallate, a natural compound mimicking Gm31629, alleviated DSS-induced epithelial inflammation and mucosal damage. These results demonstrate an essential role of lncRNA Gm31629 in linking intestinal inflammation and epithelial cell proliferation, providing a potential therapeutic approach to inflammatory bowel disease.

Authors

Xu Feng, Ye Xiao, Jian He, Mi Yang, Qi Guo, Tian Su, Yan Huang, Jun Yi, Chang-Jun Li, Xiang-Hang Luo, Xiao-Wei Liu, Hai-Yan Zhou

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Figure 4

Gm31629 deficiency affects cell cycle and inhibits cell proliferation.

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Gm31629 deficiency affects cell cycle and inhibits cell proliferation. (...
(A) Cell proliferation assay of CT26.WT cells transfected with si-Gm31629 or control siRNA (n = 6). (B) Cell cycle analysis of CT26.WT cells transfected with si-Gm31629 or control siRNA (n = 3). (C) Representative images of Ki-67, β-catenin, and LGR5 staining of colon samples (n = 3). Scale bar: 50 μm. (D) The protein level of LGR5, β-catenin, and PCNA in colon tissues (n = 3). (E) qPCR analysis of Lgr5 and Ascl2 in colon tissues (n = 5). (F) Representative images of BrdU staining of colon tissues from LPS-treated Gm31629–/– mice and littermate WT mice (n = 4). Scale bar: 100 μm. (G) Quantification of BrdU+ cells in F (n = 4). All data were represented as mean ± SEM. For comparisons of 2 groups, a 2-tailed Student’s t test was performed. *P < 0.05; **P < 0.01; ****P < 0.0001.