Expression and significant roles of the long non-coding RNA CASC19/miR-491-5p/HMGA2 axis in the development of gastric cancer

BACKGROUND Gastric cancer(GC)is a common malignant tumor,long non-coding RNA and microRNA(miRNA)are important regulators that affect tumor proliferation,metastasis and chemotherapy resistance,and thus participate in tumor progression.CASC19 is a new bio-marker which can promote tumor invasion and metastasis.However,the mechanism by which CASC19 affects the progression of GC through miRNA is not clear.AIM To explore the role of the CASC19/miR-491-5p/HMGA2 regulatory axis in GC.METHODS To explore the expression and prognosis of CASC19 in GC through clinical samples,and investigate the effects of inhibiting CASC19 on the proliferation,migration,invasion and other functions of GC cells through cell counting Kit-8(CCK-8),ethynyldeoxyuridine,Wound healing assay,Transwell,Western blot and flow cytometry experiments.The effect of miR-491-5p and HMGA2 in GC were also proved.The regulatory relationship between CASC19 and miR-491-5p,miR-491-5p and HMGA2 were validated through Dual-luciferase reporter gene assay and reverse transcription PCR.Then CCK-8,Transwell,Wound healing assay,flow cytometry and animal experiments verify the role of CASC19/miR-491-5p/HMGA2 regulatory axis.RESULTS The expression level of CASC19 is related to the T stage,N stage,and tumor size of patients.Knockdown of the expression of CASC19 can inhibit the ability of proliferation,migration,invasion and EMT conversion of GC cells,and knocking down the expression of CASC19 can promote the apoptosis of GC cells.Increasing the expression of miR-491-5p can inhibit the proliferation of GC cells,miR-491-5p mimics can inhibit EMT conversion,and promote the apoptosis of GC cells,while decreasing the expression of miR-491-5p can promote the proliferation and EMT conversion and inhibit the apoptosis of GC cells.The expression of HMGA2 in GC tissues is higher than that in adjacent tissues.At the same time,the expression level of HMGA2 is related to the N and T stages of the patients.Reducing the level of HMGA2 can promote cell apoptosis and inhibit the proliferation of GC cells.Cell experiments and animal experiments have proved that CASC19 can regulates the expression of HMGA2 through miR-491-5p,thereby affecting the biological functions of GC.CONCLUSION CASC19 regulates the expression of HMGA2 through miR-491-5p to affect the development of GC.This axis may serve as a potential biomarker and therapeutic target of GC.

The long non-coding RNA DANA2 positively regulates drought tolerance by recruitingERF84 to promote JMJ29-mediated histone demethylation

Tens of thousands of long non-coding RNAs have been uncovered in plants,but few of them have been comprehensively studied for their biological function and molecular mechanism of their mode of action.Here,we show that the Arabidopsis long non-coding RNA DANA2 interacts with an AP2/ERF transcription factor ERF84 in the cell nucleus and then affects the transcription of JMJ29 that encodes a Jumonji C domain-containing histone H3K9 demethylase.Both RNA sequencing(RNA-seq)and genetic analyses demonstrate that DANA2 positively regulates drought stress responses through JMJ29.JMJ29 positively regulates the expression of ERF15 and GOLS2 by modulation of H3K9me2 demethylation.Accordingly,mutation of JMJ29 causes decreased ERF15 and GOLS2 expression,resulting in impaired drought tolerance,in agreement with drought-sensitive phenotypes of dana2 and erf84 mutants.Taken together,these results demonstrate that DANA2 is a positive regulator of drought response and works jointly with the transcriptional activator ERF84 to modulate JMJ29 expression in plant response to drought.

Silencing novel long non-coding RNA FKBP9P1 represses malignant progression and inhibits PI3K/AKT signaling of head and neck squamous cell carcinoma in vitro

Background:Long non-coding RNAs(lncRNAs)play key roles in human cancers.In our previous study,we demonstrated that lncRNA FKBP prolyl isomerase 9 pseudogene 1(FKBP9P1)was highly expressed in head and neck squamous cell cancer(HNSCC)tissues.However,its functional significance remains poorly understood.In the present study,we identify the role and potential molecular biologic mechanisms of FKBP9P1 in HNSCC.Methods:Quantitative real-time polymerase chain reaction was used to detect the expression of FKBP9P1 in HNSCC tissues,matched adjacent normal tissues,human HNSCC cells(FaDu,Cal-27,SCC4,and SCC9),and human immortalized keratinocytes cell HaCaT(normal control).Cal-27 and SCC9 cells were transfected with sh-FKBP9P1-1,sh-FKBP9P1-2,and normal control(sh-NC)lentivirus.Cell counting kit-8 assay,colony formation assay,wound healing assay,and trans-well assay were used to explore the biologic function of FKBP9P1 in HNSCC cells.Furthermore,western blotting was used to determine the mechanism of FKBP9P1 in HNSCC progression.Chi-squared test was performed to assess the clinical significance among FKBP9P1 high-expression and low-expression groups.Survival analyses were performed using the Kaplan-Meier method and assessed using the log-rank test.The comparison between two groups was analyzed by Student t test,and comparisons among multiple samples were performed by one-way analysis of variance and a Bonferroni post hoc test.Results:FKBP9P1 expression was significantly up-regulated in HNSCC tissues(tumor vs.normal,1.914 vs.0.957,t=7.746,P<0.001)and cell lines(P<0.01 in all HNSCC cell lines).Besides,the median FKBP9P1 expression of HNSCC tissues(1.677)was considered as the threshold.High FKBP9P1 level was correlated with advanced T stage(P=0.022),advanced N stage(P=0.036),advanced clinical stage(P=0.018),and poor prognosis of HNSCC patients(overall survival,P=0.002 and disease-free survival,P<0.001).Knockdown of FKBP9P1 led to marked repression in proliferation,migration,and invasion of HNSCC cells in vitro(P all<0.01).Mechanistically,silencing FKBP9P1 was observed to restrain the PI3K/AKT signaling pathway.Conclusions:Silencing lncRNA FKBP9P1 represses HNSCC progression and inhibits PI3K/AKT(phosphatidylinositol 3 kinase/AKT Serine/Threonine Kinase)signaling in vitro.Therefore,FKBP9P1 could be a potential new target for the diagnosis and treatment of HNSCC patients.

Critical roles of the lncRNA CASC11 in tumor progression and cancer metastasis:The biomarker and therapeutic target potential

The frequency of human suffering from cancer is increasing annually across the globe.This has fueled numerous investigations aimed at the prevention and cure of various cancers.Long non-coding RNA(lncRNA)are known to play a crucial role in cancer.For instance,cancer susceptibility candidate 11(CASC11),as one of the long non-coding RNAs,has been reported to be overexpressed in various tumors.This review elucidates the mechanism by which lncRNA CASC11 regulates tumors'biological processes and affirms its value as a therapeutic target for tumors.Through systematic analysis and review of relevant articles in PubMed,we revealed the pathophysiological mechanism of CASC11 on the tumor by regulating the biological processes of tumor such as proliferation,autophagy,apoptosis,thereby promoting tumor metastasis.We also revealed the regulatory pathways of CASC11 in different tumors,for instance by acting on a variety of microRNAs,oncogenic proteins,carcinogens,and transcription factors.Consequently,CASC11 regulates cancer proliferation,apoptosis,and invasion by altering the WNT/β-catenin signaling pathway and epithelial–mesenchymal transition(EMT).Furthermore,CASC11 expression has a high pertinence with clinical prognosis,suggesting that it is a potential marker for malignant tumors or a clinical adjuvant therapy in the future.