DNA损伤诱导的长链非编码RNA-UCA1促进HeLa细胞增殖

尿路上皮癌抗原1 (UCA1)是一种长链非编码RNA,在多种肿瘤内高表达.然而,其在宫颈癌细胞和组织中的表达报告颇不一致,且功能尚未确定.本文探索UCA1在宫颈癌HeLa细胞中的生物学功能.实时定量PCR（qRT-PCR）结果显示,UCA1、p21和p53 mRNA在阿霉素（doxorubicin,DOX）或γ射线照射的HeLa细胞中表达上调|相反,敲减p53表达则可抑制DOX诱导的UCA1上调.表明DNA损伤诱导的UCA1可能与p53有关.转染结合CCK8检测HeLa细胞增殖活力结果显示,与对照比较,过表达UCA1促进HeLa细胞增殖,干扰UCA1表达则减缓细胞增殖.此外,流式细胞术结果显示,过表达UCA1导致阿霉素诱导的凋亡率下降;siRNA抑制UCA1表达后引起细胞G2/M期比例上升,S期下降,且阿霉素诱导的细胞凋亡率上升.上述结果说明,DNA损伤诱导的UCA1可促进HeLa细胞增殖,减少细胞凋亡.然而,是否DNA损伤诱导的UCA1上调依赖p53尚需进一步实验证明.     

长链非编码RNA UCA1与肿瘤耐药

作为针对恶性肿瘤的有效治疗方式,化疗已被广泛用于治疗各种恶性肿瘤。虽然化学治疗提高了患者的存活率及预后水平,但肿瘤迅速形成的多药耐药会导致治疗失败。近年发现,作为促多药耐药基因的lncRNA UCA1介导多种肿瘤形成耐药。该文回顾了UCA1在肿瘤耐药中的研究进展,并展望了该领域未来的发展及面临的挑战。     

长链非编码RNA SNHG1促进肺癌细胞增殖

近年来,大量证据表明长链非编码RNA (long non-coding RNAs, lncRNAs) 在肿瘤发生发展中发挥重要的作用。本研究通过生物信息学预测发现,核仁小分子RNA宿主基因1(small nucleolar RNA host gene 1,SNHG1)无蛋白质编码功能,且主要定位于细胞质。qRT-PCR结果显示,SNHG1在肺癌细胞中的表达量显著高于正常肺上皮细胞。在肺癌细胞NCI-H1299中,敲低SNHG1发现,该细胞增殖能力明显下降;在正常肺上皮细胞BEAS-2B中,过表达SNHG1可显著促进该细胞的增殖能力。深入研究发现,SNHG1可上调CDK4和下调p27kip1在蛋白质水平的表达,而对其mRNA水平表达量无影响。此外,在肺癌临床组织中也发现SNHG1高表达,且高表达的SNHG1与肺癌瘤体大小、TNM分期和远端转移正相关,而与患者年龄及吸烟史无关。综上所述,SNHG1在肺癌中高表达,通过上调CDK4和下调p27kip1推进肺癌进程。     

长链非编码RNA UCA1在胃癌多药耐药中的作用研究

目的:研究胃癌耐药细胞及其亲本细胞中长链非编码RNA UCA1的表达差异,探讨UCA1在胃癌多药耐药中的作用。方法:通过实时荧光定量PCR(q RT-PCR)检测胃癌耐药细胞SGC7901/ADR、SGC7901/VCR及其亲本细胞SGC7901中UCA1的表达差异;通过si RNA转染降低SGC7901/ADR中UCA1表达,MTT法检测细胞半数抑制浓度(IC50)的变化,流式细胞仪检测细胞凋亡变化。结果:QRT-PCR结果显示,UCA1在SGC7901/ADR和SGC7901/VCR胃癌耐药细胞表达显著高于SGC7901胃癌亲本细胞;MTT实验表明,干扰UCA1的SGC7901/ADR相对于阴性对照(NC)组的IC50显著降低;凋亡检测结果显示,在相同剂量化疗药物作用下,干扰UCA1后SGC7901/ADR凋亡率显著高于NC组;Western blot证实,干扰UCA1表达可显著降低BCL-2蛋白表达。结论:长链非编码RNA UCA1在胃癌耐药细胞表达显著升高,干扰UCA1表达可明显逆转胃癌耐药,UCA1可作为治疗胃癌耐药的重要分子靶标。     

长链非编码RNA在头颈部肿瘤中的研究进展

长链非编码RNA(long noncoding RNA,lncRNA)是一类长度大于200个核苷酸的、缺少特异完整的开放阅读框、极少有蛋白编码功能的非编码RNA。研究表明lncRNA是参与基因表达的关键调控分子,从表观遗传、转录及转录后等多种水平调控相关靶基因的表达。近年来lncRNA在头颈部疾病中的研究开始受到关注。现就lncRNA在头颈部肿瘤中的研究进展作一综述。     

长链非编码RNA对HepG2 肝癌细胞增殖及凋亡的影响

目的:探讨长链非编码RNA RP13-514E23.1在肝癌细胞系中的表达,并观察上调该基因后其下游基因MAPK10的变化及对肝癌细胞Hep G2增殖、凋亡的影响。方法:通过荧光定量PCR(q RT-PCR)检测RP13-514E23.1在正常肝细胞与肝癌细胞系中的表达差异,进一步构建质粒转染肝癌Hep G2细胞上调RP13-514E23.1的表达,以Mock组(只加转染试剂)和NC组(转染空载体pc DNA3.1-NC)作为对照评估转染效率及对MAPK10表达的影响。用CCK-8实验和流式细胞术检测转染前后Hep G2细胞的增殖、凋亡的变化。结果:Lnc RNA RP13-514E23.1在大部分肝癌细胞系(Hep G2,SMMC,Huh7,Hep3B)中的表达明显低于正常肝细胞(0.58±0.05 vs 1.00,P0.05);转染pc DNA-RP13-514E23.1后,q RT-PCR检测Hep G2细胞的RP13-514E23.1和MAPK10m RNA表达量显著升高(分别为29.90±1.40、2.42±0.25,P0.05),western blot检测MAPK10蛋白表达量较对照组也升高(2.10±0.16,P0.05);CCK-8结果显示Hep G2细胞在各个时间段增殖均受到抑制(P0.01),Mock组、NC组和实验组的凋亡率分别为(5.53±1.17)%、(6.40±2.84)%和(46.87±3.45)%(P0.01)。结论:Lnc RNA RP13-514E23.1在肝癌细胞系中表达异常降低,上调其表达后MAPK10的表达升高,且Hep G2细胞增殖受到抑制、凋亡增加。     

长链非编码RNA H19促进肝癌细胞增殖和侵袭

目的:肝癌是严重危害人类健康的一类恶性肿瘤,但其发病机制目前仍不明确.虽然长链非编码RNA的异常表达与多种肿瘤的发生密切相关,但在肝癌中的报导尚不多见.因此,本文将探讨长链非编码RNA H19在肝癌组织和正常组织中表达差异,进一步检测其对肝癌细胞增殖和侵袭活性的调控及其分子机制,为开发长链非编码RNA的临床诊断试剂提供实验依据.方法:收集20例肝癌手术患者的癌变组织和20例正常组织,通过real time PCR检测H19的表达差异.在转染或干扰掉该H19后,采用MTT的方法检测HepG2细胞的增殖活性,通过Transwell小室的方法检测HepG2细胞的侵袭活性.结果:real time PCR检测发现H19 mRNA在肝癌组织中高表达,而在正常组织中低表达.过表达H19导致HepG2细胞过度增殖,敲除该lncRNA,细胞增殖和侵袭活性被抑制.结论:H19在肝癌组织中的表达明显高于正常肝组织,并且过表达H19导致肝癌细胞增殖活性增加,而敲除H19会导致肝癌细胞的增殖和侵袭活性明显减弱.该LncRNA在肝癌组织中的过量表达有助于肝癌的临床诊断,同时H19在肝癌的恶性肿瘤生物活性中发挥着重要的作用,因此,H19是一个潜在的治疗肝癌的药物作用靶点,为开发新的抗肿瘤药物提供了新的治疗靶点.     

CEACAM1异常表达对白血病BALL-1细胞增殖的影响

通过si RNA技术抑制癌胚抗原相关粘附分子CEACAM1在人急性B淋巴细胞白血病细胞系BALL-1中的表达,体外实验研究异常表达于白血病B细胞的CEACAM1对细胞增殖的影响。应用CCK-8法测定细胞增殖发现CEACAM1表达下调后BALL-1细胞的增殖能力明显下降。细胞周期分析结果显示CEACAM1被抑制后细胞增殖状态表现为S期细胞百分比降低,G0/G1期细胞比例升高,提示CEACAM1表达下调是通过引起细胞周期停滞在G0/G1期来降低细胞增殖的,表明CEACAM1本身对白血病B细胞具有促进增殖的作用。     

长链非编码RNA SPRY4-IT1对髓母细胞瘤增殖及侵袭转移的影响

目的：探讨长链非编码RNA SPRY4-IT1（LncRNA）对髓母细胞瘤增殖及侵袭转移的影响。方法：髓母细胞瘤Daoy细胞分为对照组和si-SPRY4-IT1组,分别利用脂质体Lipofectamine 2000将阴性对照荧光序列和SPRY4-IT1-siRNA转入细胞中,采用Real-time PCR检测转染后各组细胞中SPRY4-IT1的表达情况,CCK-8实验及平板克隆形成实验检测细胞增殖能力的变化,以细胞体外侵袭、迁移实验分别检测细胞侵袭、迁移能力的变化,Western blot检测SPRY4-IT1对基质金属蛋白酶（MMP）-2和MMP-9蛋白的影响。结果：si-SPRY4-IT1组SPRY4-IT1 mRNA表达水平、细胞体外增殖能力、细胞侵袭、迁移能力、细胞MMP-2蛋白表达均较对照组明显降低（P<0.05）,而MMP-9蛋白表达未见明显变化。结论：干扰长链非编码RNA SPRY4-IT1在髓母细胞瘤Daoy细胞中的表达能显著抑制细胞的增殖、侵袭和迁移能力。     

长非编码RNA PVT1与消化系统肿瘤

长非编码RNA（long non-coding RNAs, lncRNAs）在肿瘤发生、发展进程中承担重要角色,是近年来的研究热点之一。大量研究表明,浆细胞瘤变异易位基因1（plasmacytoma variant translocation 1, PVT1）可通过多种分子机制参与调控消化系统肿瘤的增殖凋亡、迁移侵袭、细胞自噬、血管生成、多药耐药及肿瘤代谢等过程,从而发挥致癌作用。本文主要就PVT1在消化系统肿瘤中的表达水平变化,及其与临床病理特征和预后的关系,以及PVT1对消化系统肿瘤的致癌作用机制和多药耐药机制等研究进展作一综述。     

LncRNA UCA1 sponges miR-206 to exacerbate oxidative stress and apoptosis induced by ox-LDL in human macrophages

Long noncoding RNA UCA1 has exerted a significant effect in cardiovascular disease. The biological role of UCA1 in atherosclerosis is unclear. Our study was to identify the potential mechanisms in the progression of atherosclerosis. Here, we observed that ox-LDL increased UCA1 expression greatly in THP-1 cells. Knockdown of UCA1 greatly inhibited CD36 expression, a crucial biomarker in atherosclerosis. Meanwhile, 20 μg/ml ox-LDL induced foam cell formation, which can be reversed by downregulation of UCA1. In addition, TC and TG levels induced by ox-LDL was rescued by UCA1 small interfering RNA. Accumulating studies have indicated that oxidative stress contributes to atherosclerosis progression. Here, we also found that reactive oxygen species, MDA, and THP-1 cell apoptosis were restrained by decreased of UCA1 with an increase of the superoxide dismutase activity. Moreover, miR-206 was predicted as a target of UCA1 and knockdown of UCA1 was able to repress miR-206 expression. Furthermore, overexpression of miR-206 inhibited oxidative stress process and it was reversed by UCA1 upregulation in vitro. In conclusion, we indicated that UCA1 sponged miR-206 to exacerbate atherosclerosis events induced by ox-LDL in THP-1 cells.     

UCA1及其剪接变异体与膀胱癌

尿路上皮癌胚抗原1 (urothelial carcinoma antigen 1,UCA1) 在人膀胱移行细胞癌细胞系 BLZ-211 中包含3个剪接变异体：UCA1、UCA1a 和 UCA1b. 我们以往的研究表明, UCA1、UCA1a 均属于长非编码 RNA (long non-coding RNA,lncRNA),它们之间具有一段长 1 265 bp 的共同序列. 组织表达谱分析表明,它们具有相似的组织表达模式,提示它们可能与胚胎发育和膀胱癌发生发展密切相关. 异位表达UCA1基因、UCA1a 基因均可以促进人膀胱癌细胞生长,增强细胞的恶性表型,使其体外增殖、迁移、侵袭、抗凋亡能力明显增加,裸鼠致瘤能力明显增强,表明它们在膀胱癌的发生发展中均起到了重要的促进作用. 本文将从基因结构、组织表达谱及机制功能等不同角度系统地阐述UCA1基因及其剪接变异体在膀胱癌中的研究现状与进展.     

Silencing of lncRNA UCA1 curbs proliferation and accelerates apoptosis by repressing SIRT1 signals by targeting miR‐204 in pediatric AML

The long noncoding RNA urothelial carcinoma‐associated 1 (UCA1) has been reported to sustain the proliferation of acute myeloid leukemia (AML) cells through downregulating cell cycle regulators p27^kip1. Yet, the foundational mechanism of UCA1 in AML pathologies remains unclear. Herein, we found an escalation of UCA1 expression and suppression of miR‐204 expression in pediatric AML patients and cells. UCA1 silencing suppressed cell proliferative abilities, promoted apoptotic rates, decreased Ki67, and increased cleaved caspase‐3 in AML cells. Moreover, UCA1 sponged miR‐204 and suppressed its expression. UCA1 overexpression inversed the miR‐204 suppressed proliferation and promoted apoptosis. UCA1 also boosted the expression of SIRT1, a miR‐204 target, via the sponging interaction. Furthermore, miR‐204 inhibited inducible nitric oxide synthase and cyclooxygenase‐2 expression, while UCA1 overexpression inversed the inhibitory effects in AML cells. Our findings concluded that UCA1 downregulation repressed cell proliferation and promoted apoptosis through inactivating SIRT1 signals by upregulating miR‐204 in pediatric AML.     

LncRNA UCA1 elevates the resistance of human leukemia cells to daunorubicin by the PI3K/AKT pathway via sponging miR-613

Acute leukemia is a hematological malignant tumor. Long non-coding RNA urothelial cancer-associated 1 (UCA1) is involved in the chemo-resistance of diverse cancers, but it is unclear whether UCA1 is associated with the sensitivity of acute leukemia cells to daunorubicin (DNR). DNR (100 nM) was selected for functional analysis. The viability, cell cycle progression, apoptosis, and invasion of treated acute leukemia cells (HL-60 and U-937) were evaluated by cell counting kit-8 (CCK-8) assay, flow cytometry assay, or transwell assay. Protein levels were detected with Western blot analysis. Expression patterns of UCA1 and miR-613 were assessed by quantitative real-time polymerase chain reaction (qRT-PCR). The relationship between UCA1 and microRNA-613 (miR-613) was verified by dual-luciferase reporter assay. We observed that UCA1 expression was elevated in HL-60 and U-937cells. DNR constrained viability, cell cycle progression, invasion, and facilitated apoptosis of HL-60 and U-937 cells in a dose-dependent manner, but these impacts mediated by DNR were reverted after UCA1 overexpression. MiR-613 was down-regulated in HL-60 and U-937 cells, and UCA1 was verified as a miR-613 sponge. MiR-613 inhibitor reversed DNR treatment-mediated effects on viability, cell cycle progression, apoptosis, and invasion of HL-60 and U-937 cells, but these impacts mediated by miR-613 inhibitor were counteracted after UCA1 inhibition. Notably, the inactivation of the PI3K/AKT pathway caused by DNR treatment was reversed after miR-613 inhibitor introduction, but this influence mediated by miR-613 inhibitor was offset after UCA1 knockdown. In conclusion, UCA1 up-regulation facilitated the resistance of acute leukemia cells to DNR via the PI3K/AKT pathway by sponging miR-613.     

Upregulated lncRNA UCA1 inhibits trophoblast cell invasion and proliferation by downregulating JAK2

Numerous studies have suggested that urothelial cancer-associated 1 (UCA1) acts as a suppressor gene affecting cell proliferation and migration. However, the biological role and the potential mechanism of UCA1 in the progression of pre-eclampsia (PE) remains unclear. The UCA1 level was markedly upregulated in PE pregnancies relative to non-PE ones in GSE75010 and tissues. A higher body mass index (BMI), maximum systolic blood pressure (BP), and maximum diastolic BP were observed in PE pregnancies, whereas the newborn weight z-score was lower compared with those of non-PE pregnancies. Knockdown of UCA1 accelerated the proliferative migratory abilities and cell cycle progression, but inhibited apoptosis of HTR-8/SVneo and JAR cells. Then, we found that Janus kinases 2 (JAK2) was negatively correlated with UCA1. In addition, JAK2 was downregulated in the placenta of PE pregnancies and was negatively regulated by UCA1. UCA1 was mainly enriched in the nucleus. Knockdown of UCA1 reduced the occupancies of the enhancer of zeste 2 polycomb repressive complex 2 subunit (EZH2) and H3K27me3 on the Janus kinase 2 (JAK2) promoter regions. Finally, rescue experiments found that transfection of short-hairpin JAK2 attenuated proliferative and migratory abilities of trophoblasts, which were partially reversed after UCA1 knockdown. In short, UCA1 is upregulated in the trophocytes of PE pregnancies and accelerates trophoblast cell invasion and proliferation by downregulating JAK2.     

人NFE2基因上游增强子lncRNA调控NFE2基因转录和K562细胞增殖

目的 转录因子NFE2的异常表达在许多骨髓增殖性肿瘤患者中被观察到,然而造成这种异常的转录调控机制尚不明确,本研究旨在探究参与NFE2转录调控的元件和分子机制。方法 首先通过公共数据库中ChIP-seq数据和ATAC-seq数据预测NFE2基因的潜在增强子元件,并通过双荧光素酶报告实验进行体外验证。随后,通过PRO-seq和GRO-seq数据结合RACE技术克隆这些增强子RNA转录本,经在线编码潜能预测工具分析认为其为lncRNA,通过RT-qPCR检测该lncRNA在不同白血病细胞系中和这些细胞诱导分化前后的表达变化及其亚细胞定位。最后,通过慢病毒系统在K562细胞中过表达和敲降该lncRNA以探究其功能。结果 鉴定出调控NFE2转录的3个增强子元件,分别位于NFE2转录起始位点-3.6k,-6.2k和+6.3k区域,这些元件插入NFE2启动子上游均能增强下游萤火虫荧光素酶的表达。克隆出-3.6k增强子负链方向的转录本,将其鉴定为-3.6k-lncRNA。本研究发现,该lncRNA在K562、U937和HL-60这3种白血病细胞系中均有一定程度的表达,且均定位于细胞核内。当该lncRNA在K562细胞中过表达,NFE2水平随之提高,细胞增殖和细胞迁移能力受到抑制;当其被敲降时,NFE2水平相应降低而K562细胞增殖能力随之升高。结论 本文鉴定了调控人NFE2基因转录的3个增强子元件和一条增强子lncRNA转录本,并验证了该lncRNA对NFE2转录的正调控作用以及对K562细胞增殖能力具有抑制作用。     

Long non-coding RNA UCA1 promotes breast tumor growth by suppression of p27 (Kip1)

Functional genomics studies have led to the discovery of a large amount of non-coding RNAs from the human genome; among them are long non-coding RNAs (lncRNAs). Emerging evidence indicates that lncRNAs could have a critical role in the regulation of cellular processes such as cell growth and apoptosis as well as cancer progression and metastasis. As master gene regulators, lncRNAs are capable of forming lncRNA–protein (ribonucleoprotein) complexes to regulate a large number of genes. For example, lincRNA-RoR suppresses p53 in response to DNA damage through interaction with heterogeneous nuclear ribonucleoprotein I (hnRNP I). The present study demonstrates that hnRNP I can also form a functional ribonucleoprotein complex with lncRNA urothelial carcinoma-associated 1 (UCA1) and increase the UCA1 stability. Of interest, the phosphorylated form of hnRNP I, predominantly in the cytoplasm, is responsible for the interaction with UCA1. Moreover, although hnRNP I enhances the translation of p27 (Kip1) through interaction with the 5′-untranslated region (5′-UTR) of p27 mRNAs, the interaction of UCA1 with hnRNP I suppresses the p27 protein level by competitive inhibition. In support of this finding, UCA1 has an oncogenic role in breast cancer both in vitro and in vivo. Finally, we show a negative correlation between p27 and UCA in the breast tumor cancer tissue microarray. Together, our results suggest an important role of UCA1 in breast cancer.     

LncRNA ITGA9-AS1抑制乳腺癌细胞增殖并增强其对顺铂的敏感性

长链非编码RNAs (long non-coding RNAs, lncRNAs) 是一类长度大于200 nt,无蛋白质编码功能的RNAs。近年来,lncRNAs在肿瘤发生发展中的作用备受关注。LncRNAs芯片分析结合后期实时荧光定量PCR验证发现,ITGA9-AS1在MCF-7细胞中的表达量显著高于耐药细胞MCF-7/5Fu,且其在乳腺癌细胞中的表达量显著低于正常乳腺上皮细胞。生物信息学预测,ITGA9 AS1无蛋白质编码功能。在乳腺癌细胞T47D中过表达ITGA9-AS1,可显著抑制该细胞的增殖和克隆形成能力,增加该细胞对化疗药物顺铂（cisplatin, cDDP）的敏感性。相反,在乳腺上皮细胞MCF-10A中敲低ITGA9-AS1的表达,能够明显增加该细胞的增殖能力和克隆形成能力,同时降低该细胞对cDDP的敏感性。总之,lncRNA ITGA9-AS1可抑制乳腺癌细胞增殖,增强乳腺癌细胞对化疗药物的敏感性。