Glioma is the most common and aggressive primary adult brain tumor. Long non-coding RNAs (lncRNAs) have important roles in a variety of biological properties of cancers. Here, we elucidated the function and the possible molecular mechanisms of lncRNA HOTAIR in human glioma U87 and U251 cell lines. Quantitative RT-PCR demonstrated that HOTAIR expression was up-regulated in glioma tissues and cell lines. Knockdown of HOTAIR exerted tumor-suppressive function in glioma cells. Further, HOTAIR was confirmed to be the target of miR-326 and miR-326 mediated the tumor-suppressive effects of HOTAIR knockdown on glioma cell lines. Moreover, over-expressed miR-326 reduced the FGF1 expression which played an oncogenic role in glioma by activating PI3K/AKT and MEK 1/2 pathways. In addition, the in vivo studies also supported the above findings. Taken together, knockdown of HOTAIR up-regulated miR-326 expression, and further inducing the decreased expression of FGF1, these results provided a comprehensive analysis of HOTAIR-miR-326-FGF1 axis in human glioma and provided a new potential therapeutic strategy for glioma treatment.
The long non-coding RNA Colorectal neoplasia differentially expressed (CRNDE) is a novel gene that activated early in colorectal neoplasia, but it is also up-regulated in many other solid tumors. Herein, the function and underlying mechanism of CRNDE in regulating glioma stem cells (GSCs) were investigated. We found that CRNDE expression was up-regulated while miR-186 expression was down-regulated in GSCs. Overexpression of CRNDE could promote the cellular proliferation, migration, invasion and inhibit the apoptosis in GSCs. Overexpression of miR-186 exerted functions of inhibiting the proliferation, migration and invasion of GSCs and promoting apoptosis. And CRNDE decreased the expression levels of XIAP and PAK7 by binding to miR-186 and negatively regulating it. In addition, miR-186 binded to XIAP and PAK7 3′UTR region, and decrease the expression of them, thus regulating the expression levels of downstream target proteins such as caspase 3, BAD, cyclin D1 and MARK2. The in vivo effect of CRNDE and miR-186 showed that the tumor formation rate was minimum in tumor-bearing nude mice with the knockdown of CRNDE and the overexpression of miR-186. In conclusion, CRNDE played an oncogenic role of GSCs through the negative regulation of miR-186. Both CRNDE and miR-186 could be regarded as potential targets in the glioma therapy.
Our previous studies demonstrated that low-dose endothelial monocyte-activating polypeptide-II (EMAP-II) can selectively increase the permeability of blood-tumor barrier (BTB). In addition, low-dose EMAP-II significantly decreases the cyclic adenosine monophosphate (cAMP) concentration and the protein kinase A (PKA) expression level in tumor tissues in the rat C6 glioma model. In this study, an in vitro BTB model was used to investigate the potential role of cAMP/PKA signaling cascade in EMAP-II-induced BTB hyperpermeability. Our data revealed that low-dose EMAP-II (0.05 nM) induced a significant decrease in total intracellular cAMP concentration and PKA activity in rat brain microvascular endothelial cells (RBMECs). Pretreatment with forskolin to increase intracellular cAMP nearly completely blocked the EMAP-II-induced decrease in transendothelial electric resistance and increase in horseradish peroxidase flux across the BTB. Similar pretreatment completely prevented the EMAP-II-induced changes in RhoA/Rho kinase activity, expression and distribution of tight junction-associated protein ZO-1, and myosin light chain phosphorylation, as well as actin cytoskeleton arrangement in RBMECs. Pretreatment with 6Bnz-cAMP to activate PKA significantly attenuated these EMAP-II-induced alterations in RBMECs. In summary, our present study demonstrates that the cAMP/PKA signaling cascade works as a crucial signaling pathway in EMAP-II-induced BTB hyperpermeability.
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