Effects of long non-coding RNA Opa-interacting protein 5 antisense RNA 1 on colon cancer cell resistance to oxaliplatin and its regulation of micro RNA-137

BACKGROUND The incidence of colon cancer(CC)is currently high,and is mainly treated with chemotherapy.Oxaliplatin(L-OHP)is a commonly used drug in chemotherapy;however,long-term use can induce drug resistance and seriously affect the prognosis of patients.Therefore,this study investigated the mechanism of Opainteracting protein 5 antisense RNA 1(OIP5-AS1)on L-OHP resistance by determining the expression of OIP5-AS1 and micro RNA-137(miR-137)in CC cells and the effects on L-OHP resistance,with the goal of identifying new targets for the treatment of CC.AIM To study the effects of long non-coding RNA OIP5-AS1 on L-OHP resistance in CC cell lines and its regulation of miR-137.METHODS A total of 114 CC patients admitted to China-Japan Union Hospital of Jilin University were enrolled,and the expression of miR-137 and OIP5-AS1 in tumor tissues and corresponding normal tumor-adjacent tissues was determined.The influence of OIP5-AS1 and miR-137 on the biological behavior of CC cells was evaluated.Resistance to L-OHP was induced in CC cells,and their activity was determined and evaluated using cell counting kit-8.Flow cytometry was used to analyze the apoptosis rate,Western blot to determine the levels of apoptosisrelated proteins,and dual luciferase reporter assay combined with RNA-binding protein immunoprecipitation to analyze the relationship between OIP5-AS1 and miR-137.RESULTS OIP5-AS1 was up-regulated in CC tissues and cells,while miR-137 was downregulated in CC tissues and cells.OIP5-AS1 was inversely correlated with miR-137(P<0.001).Silencing OIP5-AS1 expression significantly hindered the proliferation,invasion and migration abilities of CC cells and markedly increased the apoptosis rate.Up-regulation of miR-137 expression also suppressed these abilities in CC cells and increased the apoptosis rate.Moreover,silencing OIP5-AS1 and up-regulating miR-137 expression significantly intensified growth inhibition of drug-resistant CC cells and improved the sensitivity of CC cells to LOHP.OIP5-AS1 targetedly inhibited miR-137 expression,and silencing OIP5-AS1 reversed the resistance of CC cells to L-OHP by promoting the expression of miR-137.CONCLUSION Highly expressed in CC,OIP5-AS1 can affect the biological behavior of CC cells,and can also regulate the resistance of CC cells to L-OHP by mediating miR-137 expression.

Micro RNAs与急性心肌梗死关系的研究进展

急性心肌梗死(acute myocardial infarction,AMI)是冠状动脉疾病最严重的表现,其引起的心肌组织损伤可促进心力衰竭的发展。尽管近些年由于生活方式的改变、治疗方式(如经皮冠状动脉介入治疗)的发展使AMI的预后得到了改善,但是AMI依旧每年危害着全球700多万人的身心健康,AMI仍然是世界范围内高发病率和高死亡率的主要疾病之一[1]。微小RNA(micro RNAs,miRNAs)是在20世纪90年代被发现的,mi RNAs的研究已经迅速发展成为一个成熟而广阔的领域。mi RNAs存在于几乎所有类型的细胞和细胞的病理生理活动中,包括与心血管系统相关的细胞。本文将mi RNAs对AMI病理生理进程的影响进行综述,希望为临床治疗提供新思路。

Comparative proteomes change and possible role in different pathways of micro RNA-21a-5p in a mouse model of spinal cord injury

Our previous study found that microRNA-21 a-5 p(miR-21 a-5 p)knockdown could improve the recovery of motor function after spinal cord injury in a mouse model,but the precise molecular mechanism remains poorly understood.In this study,a modified Allen's weight drop was used to establish a mouse model of spinal cord injury.A proteomics approach was used to understand the role of differential protein expression with miR-21 a-5 p knockdown,using a mouse model of spinal cord injury without gene knockout as a negative control group.We found that after introducing miR-21 a-5 p knockdown,proteins that played an essential role in the regulation of inflammatory processes,cell protection against oxidative stress,cell redox homeostasis,and cell maintenance were upregulated compared with the negative control group.Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis identified enriched pathways in both groups,such as the oxidative phosphorylation pathway,which is relevant to Parkinson's disease,Huntington's disease,Alzheimer's disease,and cardiac muscle contraction.We also found that miR-21 a-5 p could be a potential biomarker for amyotrophic lateral sclerosis,as miR-21 a-5 p becomes deregulated in this pathway.These results indicate successful detection of some important proteins that play potential roles in spinal cord injury.Elucidating the relationship between these proteins and the recovery of spinal cord injury will provide a reference for future research of spinal cord injury biomarkers.All experimental procedures and protocols were approved by the Experimental Animal Ethics Committee of Shandong University of China on March 5,2014.

Diagnostic and prognostic value of circulating micro RNAs in heart failure with preserved and reduced ejection fraction

micro RNAs(mi RNAs) are powerful regulators of posttranscriptional gene expression and play an important role in pathophysiological processes. Circulating mi RNAs can be quantified in body liquids and are promising biomarkers in numerous diseases. In cardiovascular disease mi RNAs have been proven to be reliable diagnostic biomarkers for different disease entities. In cardiac fibrosis(CF) and heart failure(HF) dysregulated circulating mi RNAs have been identified,indicating their promising applicability as diagnostic biomarkers. Some mi RNAs were successfully tested in risk stratification of HF implementing their potential use as prognostic biomarkers. In this respect mi RNAs might soon be implemented in diagnostic clinical routine. In the young field of mi RNA based research advances have been made in identifying mi RNAs as potential targets for the treatment of experimental CF and HF. Promising study results suggest their potential future application as therapeutic agents in treatment of cardiovascular disease. This article summarizes the current state of the various aspects of mi RNA research in the field of CF and HF with reduced ejection fraction as well as preserved ejection fraction. The review provides an overview of the application of circulating mi RNAs as biomarkers in CF and HF and current approaches to therapeutically utilize mi RNAs in this field of cardiovascular disease.

Micro RNA transcriptome of skeletal muscle during yak development reveals that miR-652 regulates myoblasts differentiation and survival by targeting ISL1

The growth and development of skeletal muscle also determine the meat production of yak, ultimately affecting the economic benefits. Hence, improving growth performance is a top priority in the yak industry. Skeletal muscle development is a complex process involving the regulation of several genes, including microRNAs(miRNAs). However,the transcription of miRNAs in yak skeletal muscle during prenatal to postnatal stages is unknown. We used small RNA sequencing(small RNA-Seq) to determine the global miRNAs of longissimus dorsi muscle from yak(the samples were collected from three fetuses and three adults). Totally 264 differently expressed miRNAs(|log2(fold change)|>1and P-value≤0.05) were detected between the two groups. Gene Ontology(GO) and Kyoto Encyclopedia of Genes and Genomes(KEGG) analysis showed that differently expressed miRNAs-targeted genes participated in pathways associated with muscle development, such as MAPK, PI3K-Akt, and Hippo signaling pathways, etc. MiR-652, which was up-regulated in the fetal group, was transfected into C2C12 myoblasts to examine its role. miR-652 promoted(P≤0.05)proliferation and differentiation, but inhibited(P≤0.001) apoptosis at early period. Furthermore, miR-652 reduced(P≤0.001) the proportion of C2C12 myoblasts in the G1 phase while increasing(P≤0.01) the proportion of cells in the S and G2 phases. Dual-luciferase reporter assays indicated that ISL1 served as a target of miR-652. In general, these findings expand our understanding of yak skeletal muscle miRNAs, and suggested that miR-652 probably regulated myogenesis by regulating ISL1.

Reduced micro RNA 375 in colorectal cancer upregulates metadherin-mediated signaling

BACKGROUND The human microRNA 375(MIR375)is significantly downregulated in human colorectal cancer(CRC)and we have previously shown that MIR375 is a CRCassociated miRNA.The metadherin(MTDH)is a candidate target gene of MIR375.AIM To investigate the interaction and function between MIR375 and MTDH in human CRC.METHODS A luciferase reporter system was used to confirm the effect of MIR375 on MTDH expression.The expression levels of MIR375 and the target genes were evaluated by quantitative RT-PCR(qRT-PCR),western blotting,or immunohistochemistry.RESULTS MTDH expression was found to be upregulated in human CRC tissues compared to that in healthy controls.We show that MIR375 regulates the expression of many genes involved in the MTDH-mediated signal transduction pathways[BRAF-MAPK and phosphatidylinositol-4,5-biphosphate-3-kinase catalytic subunit alpha(PIK3CA)-AKT]in CRC cells.Upregulated MTDH expression levels were found to inhibit NF-κB inhibitor alpha,which further upregulated NFKB1 and RELA expression in CRC cells.CONCLUSION Our findings suggest that suppressing MIR375 expression in CRC regulates cell proliferation and angiogenesis by increasing MTDH expression.Thus,MIR375 may be of therapeutic value in treating human CRC.

Micro RNAs potential utility in colon cancer: Early detection, prognosis, and chemosensitivity

Over the past decade, research has shown that aberrant expression of micro RNA(mi RNA) is involved in colorectal cancer development and progression. Micro RNAs are small sequences of non-coding RNA that regulate expression of genes involved in important cellular functions, such as cell differentiation, multiplication, and apoptosis. A specific mi RNA may display the effects of a tumor suppressor or oncogene. Altered mi RNA expression is found in colorectal cancer(CRC) and patterns of mi RNA expression correlate with CRC detection and outcome. Studies also have examined the use of circulating serum mi RNA and fecal mi RNA expression as non-invasive markers for early detection. Here, we review recent evidence demonstrating the potential role of mi RNA in CRC and the implications of its use in the diagnosis, prognosis, and management of CRC.

MicroRNA-338与靶蛋白eiF4E3的相互作用研究

目的:分析脑缺血再灌注损伤中MicroRNA-338的关键靶蛋白,并探讨MicroRNA调控其靶蛋白的作用及影响因素。方法:采用生物信息学软件预测microRNA-338的可能靶蛋白,根据所预测靶蛋白的mRNA3′UTR二级结构(RNAstructure 4.6软件预测)及其在脑缺血再灌注损伤中的作用,确定关键靶蛋白。通过双荧光酶报告系统检验microRNA-338与靶蛋白3′UTR的相互识别;采用Western blot检测实验组与对照组eiF4E3的表达变化。结果:eiF4E3可能是microRNA-338的关键靶蛋白,且其与microRNA-338识别的局部RNA二级结构保持不变。细胞荧光检测结果显示,萤火虫荧光在实验组的表达较对照组显著上升(P<0.01);而海肾荧光在实验组的表达与对照组相比较,差异无统计学意义(P>0.05)。Western blot显示,实验组和对照组eiF4E3的表达无并无显著性差异(P>0.05)。结论:microRNA-338可以识别eiF4E3 mRNA的3′UTR,但对eiF4E3的表达水平并无显著影响。在microRNA识别其目的靶蛋白mRNA后存在影响microRNA与靶蛋白mRNA相互作用的因素,而这种因素很可能与mRNA的三级结构有关。

Micro RNAs as mediators of cardiovascular disease: Targets to be manipulated

Cardiovascular disease has been the leading cause of death worldwide for the last few decades. Even with therapid progression of the biomedical field, conquering/managing cardiovascular disease is not an easy task because it is multifactorial disease. One of the key players of the development and progression of numerous diseases is micro RNA(mi RNA). These small, non-coding RNAs bind to target m RNAs to inhibit translations of and/or degrade the target m RNAs, thus acting as negative regulators of gene expressions. Accumulating evidence indicates that non-physiological expressions of mi RNAs contribute to both development and progression of cardiovascular diseases. Since even a single mi RNA can have multiple targets, dysregulation of mi RNAs can lead to catastrophic changes of proteins that may be important for maintaining physiologic conditions of cells, tissues, and organs. Current knowledge on the role of mi RNAs in cardiovascular disease is mostly based on the observational data such as microarray of mi RNAs in animal disease models, thus relatively lacking insight of how such dysregulation of mi RNAs is initiated and regulated. Consequently, future research should aim to elucidate the more comprehensive mechanisms of mi RNA dysregulation during pathogenesis of the cardiovascular system so that appropriate countermeasures to prevent/manage cardiovascular disease can be developed.

RNA复制子疫苗研究进展

最近兴起的RNA复制子疫苗,利用源自病毒的能够自主复制的RNA,其结构蛋白基因由外源抗原基因取代,保留了非结构蛋白(RNA复制酶)基因。RNA复制酶可使RNA载体在细胞质中高水平复制,并实现外源抗原基因的高水平表达,可同时诱导细胞免疫和体液免疫应答。大量双链RNA可诱导被感染细胞凋亡,宿主细胞的凋亡有利于免疫系统识别外源抗原。RNA复制子疫苗克服了传统疫苗和普通DNA疫苗存在的缺点,具有抗原表达效率高、安全性好、应用范围广等优点,因而被视为一种发展前景很好的疫苗形式。目前已对一些疾病模型基于复制子的治疗性和预防性疫苗进行了研究(涉及的对象包括病毒、肿瘤以及细菌毒素等),并对某些不足之处进行了改进。

仿生双相磷酸钙生物陶瓷支架的Micro-CT评价

[目的]体外用MicroCT(Microcomputedtomography)图像对仿生双相磷酸钙生物陶瓷支架的三维结构进行计算机重建和评价。[方法]犬股骨头的松质骨样本行MicroCT扫描,提取图像信息;三维凝胶叠层成型法制备出具有仿骨小梁结构的双相磷酸钙仿生生物陶瓷支架。随后用MicroCT对支架扫描,以三维结构参数对支架和松质骨样本作三维评价和比较。三维参数包括骨体积分数(BoneVolumeFraction,BVF,BV/TV)、骨表面积体积比(Bonesurface/bonevolumeratio,BS/BV)、骨小梁厚度(Trabecularthickness,TbTh)、骨小梁数目(Trabecularnumber,TbN)、骨小梁间隙(Trabecularspacing,TbSp)、结构模型指数(StructureModelIndex,SMl)和各向异性程度(degreeofanisoropy,DA)。[结果]与犬股骨头松质骨样本相比,用本方法制备出的BCP支架具有相似的三维空间结构,二者的BV/TV、TbTh、TbN无显著差别(P>0.05)。小梁结构呈板状模型。[结论]本研究制备的BCP多孔支架的小梁具有一定的取向性,力学强度和良好的适于血管长入的空间结构。

micro RNA调节颞下颌骨关节炎软骨退变的机制

颞下颌骨关节炎的确切发病机制尚不明确,软骨退变为其基本病理改变,微小RNA(microRNA)在软骨退变中起重要的调控作用。基于颞下颌骨关节炎的基本病理,文章从软骨退变密切相关的软骨细胞凋亡、软骨细胞自噬和软骨细胞代谢探讨micro RNA调节颞下颌骨关节炎软骨退变的可能作用机制,旨在为颞下颌骨关节炎的研究和防治提供新的思路。

Micro RNA-1290 promotes esophageal squamous cell carcinoma cell proliferation and metastasis

AIM:To investigate the biological role of mi R-1290 in esophageal squamous cell carcinoma(ESCC) progression and invasion and the underlying mechanism.METHODS:Quantitative real-time polymerase chain reaction(q RT-PCR) was performed to evaluate mi R-1290 expression in ESCC tissue samples.The roles of mi R-1290 in cell proliferation,migration and invasion were identified using mi R-1290 mimic-transfected cells.In addition,the regulatory effect of mi R-1290 on suppressor of cancer cell invasion(SCAI) was evaluated using q RT-PCR,Western blot analysis and a dual luciferase reporter assay.RESULTS:mi R-1290 was significantly upregulated in ESCC tissue samples compared with normal adjacent tissues(9.213 ± 1.150 vs 1.000 ± 0.0),(P < 0.01).Upregulation of mi R-1290 was associated with tumor differentiation(P = 0.021),N classification(P = 0.006) and tumor-node-metastasis stage(P = 0.021) in ESCC patients.Moreover,ectopic mi R-1290 expression potently promoted ESCC cell growth(P < 0.01),migration(P < 0.01) and invasion(P < 0.01) in vitro.mi R-1290 overexpression in ESCC cell lines decreased SCAI expression at the translational level and reduced SCAI-driven luciferase-reporter activity(P < 0.01).CONCLUSION:Our findings suggested that mi R-1290 may play an oncogenic role in cellular processes of ESCC.

Host cellular micro RNA involvement in the control of hepatitis B virus gene expression and replication

A large number of studies have demonstrated that the synergistic collaboration of a number of micro RNAs(mi RNAs), their growth factors and their downstream agents is required for the initiation and completion of pathogenesis in the liver. mi RNAs are thought to exert a profound effect on almost every aspect of liver biology and pathology. Accumulating evidence indicates that several mi RNAs are involved in the hepatitis B virus(HBV) life cycle and infectivity, in addition to HBVassociated liver diseases including fibrosis, cirrhosis and hepatocellular carcinoma(HCC). In turn, HBV can modulate the expression of several cellular mi RNAs, thus promoting a favorable environment for its replication and survival. In this review, we focused on the involvement of host cellular mi RNAs that are directly and indirectly associated with HBV RNA or HBV associated transcription factors. Exploring different facets of the interactions among mi RNA, HBV and HCV infections, and the carcinogenesis and progress of HCC, could facilitate the development of novel and effective treatment approaches for liver disease.

Current understanding of the functional roles of aberrantly expressed micro RNAs in esophageal cancer

The incidence of esophageal cancer is rising,mostly because the increasing incidence of esophageal adenocarcino main Western countries.Despit eimprovements in diagnosis and treatment,the overall5-year survival rates remain low.Micro RNAs(mi RNAs)are small non-coding RNA molecules that regulate the expression of target genes.Recently,disease specific mi RNAs have been identified,which act as tumor suppressors or oncogenes.In this review,we will summarize the current knowledge about the function of aberrantly expressed mi RNAs in esophageal cancer.We selected 5 mi RNAs(mi RNA-21,-143,-145,-196a and let-7)based on the available literature,and described their potential role in regulating pathways that are deregulated in esophageal cancer.Finally we will highlight the current achievements of using and targeting mi RNAs.Because these mi RNAs likely have important regulatory roles in cancer development,they open a therapeutic window for new treatment modalities.

Micro RNAs in liver fibrosis: Focusing on the interaction with hedgehog signaling

Liver fibrosis is a repair process in response to damage in the liver; however, severe and chronic injury promotes the accumulation of fibrous matrix, destroying the normal functions and architecture of liver. Hepatic stellate cells(HSCs) are quiescent in normal livers, but in damaged livers, they transdifferentiate into myofibroblastic HSCs, which produce extracellular matrix proteins. Hedgehog(Hh) signaling orchestrates tissue reconstruction in damaged livers and contributes to liver fibrogenesis by regulating HSC activation. Micro RNAs(mi RNAs), endogenous small non-coding RNAs interfering with RNA post-transcriptionally, regulate various cellular processes in healthy organisms. The dysregulation of mi RNAs is closely associated with diseases, including liver diseases. Thus, mi RNAs are good targets in the diagnosis and treatment of various diseases, including liver fibrosis; however, the regulatory mechanisms of mi RNAs that interact with Hh signaling in liver fibrosis remain unclear. We review growing evidence showing the association of mi RNAs with Hh signaling. Recent studies suggest that Hh-regulating mi RNAs induce inactivation of HSCs, leading to decreased hepatic fibrosis. Although mi RNAdelivery systems and further knowledge of interacting mi RNAs with Hh signaling need to be improved for the clinical usage of mi RNAs, recent findings indicate that the mi RNAs regulating Hh signaling are promising therapeutic agents for treating liver fibrosis.

短发卡状PTI-1(PC-3)基因特异性RNA干扰表达载体对PC-3细胞的体外效应

目的:通过基因克隆技术构建人前列腺癌PC3细胞系PTI1(PC3)基因[prostatecarcinomatumor inducinggene1(PC3)]的特异性短发卡shRNA(short hairpinRNA)真核表达载体,采用RNA干扰(RNAinterference,RNAi)技术,体外观察对PC3细胞系PTI1(PC3)基因的沉默作用以及干扰后对PC3细胞的体外效应.方法:采用基因克隆技术,将合成的短发卡样特异性PTI1(PC3)RNA干扰寡核苷酸序列插入真核表达载体pEGFP/U6,构建PTI1(PC3)shRNA的真核表达载体,体外转染人前列腺癌PC3细胞,48h后观察细胞生物学变化;提取转染细胞总RNA及总蛋白,行RT PCR以及West ernblot观测胞内PTI1(PC3)mRNA及蛋白水平.结果:①成功构建短发卡样PTI1(PC3)shRNA真核表达载体pEGFP/U6mPs;②转染(脂质体法)PC3细胞,48h后细胞大部分死亡;③转染48h后细胞内PTI1(PC3)mRNA水平下降;④转染48h后下调胞内PTI1(PC3)蛋白水平.结论:本实验成功构建的shRNA真核表达载体通过RNA干扰,能够干扰人前列腺癌PC3细胞内PTI1(PC3)基因的表达,抑制PTI1(PC3)蛋白的表达,降低了由PTI1蛋白可能发挥的“翻译失真性”作用,促进癌细胞的死亡,进一步揭示了PTI1在前列腺癌发生、发展过程中的显性癌基因作用.由于RNA干扰的特异性从而为临床上前列腺癌的基因治疗提供了新的可能的方法.

EGFR突变NSCLC组织LncRNA TCF7L2表达及临床病理特征和预后分析

目的 探究长链非编码RNA(LncRNA)转录因子7类似物2(TCF7L2)在表皮生长因子受体基因(EGFR)突变的非小细胞肺癌(NSCLC)组织表达及其与病人临床病理特征和预后相关性。方法 选取2019年3月—2021年6月河北北方学院附属第一医院治疗的EGFR突变NSCLC病人104例为研究对象,分别取其癌组织和癌旁组织应用逆转录PCR(RT-PCR)检测LncRNA TCF7L2的表达,比较不同组织TCF7L2表达及其与临床病理特征和预后的相关性。结果 RT-PCR检测结果显示,癌组织中LncRNA TCF7L2表达量显著高于癌旁组织(t=12.410,P<0.05)。与LncRNA TCF7L2低表达病人比较,高表达者发生淋巴结转移更多、肿瘤体积更大(χ^(2)=4.579、7.762,P<0.05);LncRNA TCF7L2高表达病人6、9和12个月的生存率较低,但差异均无统计学意义(P>0.05)。结论 LncRNA TCF7L2在EGFR突变NSCLC病人癌组织表达高于癌旁组织,且TCF7L2高表达病人的淋巴结转移风险较高、肿瘤体积较大,其生存率可能较低。

STUB1基因RNA干扰慢病毒载体的构建与鉴定

目的:构建人STUB1基因RNA干扰(RNA interference,RNAi)慢病毒表达载体并进行鉴定。方法:针对筛选确定的人STUB1基因RNAi有效靶点序列,合成靶序列的Oligo DNA,退火形成双链DNA,与经AgeI和EcoRI酶切后的pMagic 4.0载体连接,产生短发卡RNA慢病毒载体。PCR筛选阳性克隆,测序鉴定,并包装成慢病毒颗粒。结果:PCR鉴定与DNA测序证实,合成的含STUB1 shRNA慢病毒载体寡核苷酸链插入正确。STUB1 shRNA慢病毒载体在293T细胞中成功包装成慢病毒颗粒。结论:成功构建人STUB1基因RNAi慢病毒载体以及包装成功慢病毒颗粒,为研究STUB1在胶质瘤发生发展过程中相关信号通路的作用,提供了稳定感染细胞的载体。

Micro RNA-548a-5p promotes proliferation and inhibits apoptosis in hepatocellular carcinoma cells by targeting Tg737

AIM: To investigate whether Tg737 is regulated by micro RNA-548a-5p(mi R-548a-5p), and correlates with hepatocellular carcinoma(HCC) cell proliferation and apoptosis.METHODS: Assays of loss of function of Tg737 were performed by the colony formation assay, CCK assay and cell cycle assay in HCC cell lines. The interaction between mi R-548a-5p and its downstream target, Tg737, was evaluated by a dual-luciferase reporter assay and quantitative real-time polymerase chain reaction. Tg737 was then up-regulated in HCC cells to evaluate its effect on mi R-548a-5p regulation. Hep G2 cells stably overexpressing mi R-548a-5p or mi R-control were also subcutaneously inoculated into nude mice to evaluate the effect of mi R-548a-5p up-regulation on in vivo tumor growth. As the final step, the effect of mi R-548a-5p on the apoptosis induced by cisplatin was evaluated by flow cytometry.RESULTS: Down-regulation of Tg737, which is a target gene of mi R-548a-5p, accelerated HCC cell proliferation, and mi R-548a-5p promoted HCC cell proliferation in vitro and in vivo. Like the downregulation of Tg737, overexpression of mi R-548a-5p in HCC cell lines promoted cell proliferation, increased colony forming ability and hampered cell apoptosis. In addition, mi R-548a-5p overexpression increased HCC cell growth in vivo. Mi R-548a-5p downregulated Tg737 expression through direct contact with its 3' untranslated region(UTR), and mi R-548a-5p expression was negatively correlated with Tg737 levels in HCC specimens. Restoring Tg737(without the 3'UTR) significantly hampered mi R-548a-5p induced cell proliferation, and rescued the mi R-548a-5p induced cell proliferation inhibition and apoptosis induced by cisplatin.CONCLUSION: Mi R-548a-5p negatively regulates the tumor inhibitor gene Tg737 and promotes tumorigenesis in vitro and in vivo, indicating its potential as a novel therapeutic target for HCC.