Abstract
CRISPR-CasRx technology provides a new and powerful method for studying cellular RNA in human cancer. Herein, the pattern of expression of long noncoding RNA 00341 (LINC00341) as well as its biological function in bladder cancer were studied using CRISPR-CasRx. qRT-PCR was employed to quantify the levels of expression of LINC00341 in tumor tissues along with the matched non-tumor tissues. sgRNA targeting LINC00341 or the sgRNA negative control were transiently transfected into the T24 as well as 5,637 human bladder cancer cell lines. CCK-8, ELISA as well as wound healing methods were employed to explore cell proliferation, apoptosis and migration, respectively. The tumorigenicity experiment in nude mice also performed to detect cell proliferation. The expression of p21, Bax as well as E-cadherin were assayed using western blot. The results demonstrated that LINC00341 was overexpressed in bladder cancer in contrast with the healthy tissues. The LINC00341 expression level in high-grade tumors was higher in contrast with that in low-grade tumors. The expression of linc00341 was higher relative to that of non-invasive tumors. In T24 as well as 5637-cell lines harboring LINC00341-sgRNA, inhibition of cell proliferation (in vitro and in vivo), elevated apoptosis rate and diminished migration ability. Moreover, silencing LINC00341 upregulated the expressions of p21, Bax as well as E-cadherin. Knockout of these genes could eliminate the phenotypic changes caused by sgRNA targeting LINC00341. Our data demonstrate that LINC00341 has a carcinogenic role in human bladder cancer.
Highlights
Bladder cancer constitutes one of the most frequent malignancies in male urinary system worldwide and the ninth most frequent malignancy worldwide
Recent studies have shown that human cancer is caused by a large number of Long non-coding RNAs (lncRNAs) disorders
It is thought that lncRNA has great clinical significance as a set of cancer molecular markers as well as treatment targets(Sahu et al, 2015; Sun and Kraus, 2015)
Summary
Bladder cancer constitutes one of the most frequent malignancies in male urinary system worldwide and the ninth most frequent malignancy worldwide. Its most common histopathologic type is urothelial carcinoma. The genetic modulation is found to be responsible for the pathogenesis of bladder cancer, and the genetic mutations and epigenetic modifications that account to the development as well as progression of bladder cancer are to be identified (Chen et al, 2014; Wang et al, 2015). Long non-coding RNAs (lncRNAs) comprise non-protein coding RNA transcripts that are larger than 200 nt in length (Gloss and Dinger, 2016). The investigations on lncRNAs have revealed that they can function as scaffolds or intermediators to form gene-gene networks and serve pivotal.
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