Litcius/Paper detail

Long noncoding RNA Meg3 sponges miR-708 to inhibit intestinal tumorigenesis via SOCS3-repressed cancer stem cells growth

Shuo Zhang, Weiwei Ji, Wei Wei, Lixing Zhan, Xuan Huang

2021Cell Death and Disease47 citationsDOIOpen Access PDF

Abstract

Abstract Background Colorectal cancer (CRC) remains the most common gastrointestinal cancer and a leading cause of cancer deaths worldwide, with most showing pathologies indicating the malignant transformation of early stage intestinal stem cells. The long non-coding RNA Meg3 , which functions as a tumor suppressor, has been reported to be abnormal in multiple tumorigenesis events; however, the underlying mechanism by which Meg3 contributes to the malignant proliferation of colonic stem cells remains unclear. Methods We analyzed the expression levels of Meg3 , miR-708 , and SOCS3 in samples from Apc loss-of-function ( Apc min ) mice and patients with CRC, particularly in colonic crypt cells. Apc min mice and AMO/DSS-induced mice model (in vivo) and organoid culture system (in vitro) were used to explore the effect of the Meg3 / miR-708 /SOCS3 axis on tumorigenesis in the colon. In vitro, we performed RNApull-down, RNA immunoprecipitation, and luciferase reporter assays using DLD1 and RKO cell lines. Findings The Meg3 / miR-708 /SOCS3 signaling axis plays a critical role in the early stage of CRC development. Our data showed Meg3 levels negatively correlate with miR-708 levels both in clinical samples and in the Apc min mouse model, which indicated that Meg3 acts as a competitive endogenous RNA (ceRNA) of miR-708 . Then, miR-708 served as an oncogene, inducing neoplasia in both Apc min mice and cultured colonic organoids. Put together, miR-708 appears to promote malignant proliferation of colonic stem cells by targeting SOCS3/STAT3 signaling. Interpretation These data revealed that Meg3 sponges miR-708 to inhibit CRC development via SOCS3-mediated repression of the malignant proliferation of colonic stem cells. The Meg3 / miR-708 /SOCS3 signaling axis provides potential targets for the diagnosis and treatment of CRC, particularly early stage CRC.

Topics & Concepts

MEG3CarcinogenesisCancer researchCompeting endogenous RNABiologyStem cellLong non-coding RNAmicroRNAColorectal cancerCancer stem cellCell growthMolecular biologyCancerDownregulation and upregulationCell biologyGeneticsGeneCancer-related molecular mechanisms researchMicroRNA in disease regulationCytokine Signaling Pathways and Interactions
Long noncoding RNA Meg3 sponges miR-708 to inhibit intestinal tumorigenesis via SOCS3-repressed cancer stem cells growth | Litcius