MKi67-siRNA可抑制QGY-7703细胞的生长

为了探讨MKI67在肝癌细胞发生发展中的作用,采用实时定量 PCR 方法检测人肝细胞癌 QGY 7703 细胞中MKI67 基因表达水平, 以及 MKI67在肝细胞癌组织和癌旁正常组织中的表达情况,设计并合成针对MKI67 的siRNA,利用脂质体转染法将其转入QGY-7703 细胞内,通过MTT和细胞集落形成实验观察MKI67-siRNA 对QGY-7703细胞生长活性和增殖能力的影响.实时定量PCR结果表明,MKI67在肝细胞癌组织中的表达水平明显高于癌旁正常组织（P< 0.01）. MTT和细胞集落形成实验结果显示,转染MKI67-siRNA 的QGY-7703细胞生长活性和集落形成率明显低于对照组（P< 0.01）.由此得出结论：MKI67 在肝癌细胞系QGY-7703细胞中的表达水平较高,且它在肝癌组织中的表达水平明显上调. 同时,MKI67-siRNA 可以有效抑制QGY-7703细胞的生长活性和增殖能力,提示MKI67可能与肝细胞癌的发生、发展相关.     

RMP在肝癌细胞基因组稳定性和凋亡中的作用

目的:研究RPB5调节蛋白(RMP)在正常肝细胞及肝癌细胞基因组稳定性中的作用,并探讨其与细胞凋亡的相关性。方法:采用逆转录-聚合酶链反应(RT-PCR)从mRNA 水平检测正常细胞系及多种肿瘤细胞系中RMP的表达。不同剂量⁶⁰Coγ射线照射肝癌细胞SMMC-7721细胞和正常肝细胞HL-7702细胞,RT-PCR法检测RMP的表达,流式细胞技术检测照射肝癌细胞周期变化及细胞凋亡。应用RNA干扰技术研究RMP在肝癌细胞基因组稳定性中的作用。结果:正常细胞系及多种肿瘤细胞系中RMP基因均有不同程度的表达。经⁶⁰Coγ射线诱导的肝癌细胞及正常肝细胞RMP表达水平明显升高,且有一定剂量依赖性。随着照射剂量增加细胞凋亡明显增多,细胞周期G₁期增高,而S期明显降低。RMP被干扰后, 电子显微镜观察细胞形态发生明显改变,p21基因表达减弱。结论:RMP具有维持细胞基因组稳定性的潜在作用。RMP的表达与p53、p21等具有一定相关性,可能与后者协同调节细胞凋亡过程。     

外泌体源性微小RNA在肝细胞癌及其早期诊断中的作用

肝细胞癌(hepatocellular carcinoma,HCC)是全球第六大最常见的恶性肿瘤。外泌体中微小RNA(microRNAs,miRNAs)可通过在细胞间传递交流来参与调控血管生成、上皮-间充质转化和介导免疫微环境等多种通路途径,从而促进HCC细胞的生长增殖和迁移侵袭,以及诱导肿瘤细胞耐药。此外,外泌体源性miRNAs展现了显著的组织特异性和作为新颖生物标志物的巨大潜力,已成为当前HCC早期液体活检研究的热门领域。本文综述了外泌体源性miRNAs在HCC发生发展和耐药中的作用机制,揭示了其潜在的系统性分子调控网络,归纳了其在HCC早期诊断中的应用价值。     

缺氧诱导因子及相关circRNAs在肝细胞癌中的研究现状

肝细胞癌(hepatocellular carcinoma,HCC)死亡率高、预后差,严重危害人类健康.HCC发生发展机制复杂多样.研究表明,缺氧诱导因子(hypoxia inducible factor,HIF)对HCC的发生发展具有重要作用,并且HIF相关环状RNA分子(circular RNAs,circRNAs...     

SIRT1在宫颈癌细胞耐药中的作用及其机制研究

摘要目的：探讨沉默交配型信息调节因子2同源蛋白1（silentmatingtypeinformationregulation2homologyl,SIRTl）在宫颈癌化疗耐药中的作用及其机制。方法：体外培养人宫颈癌Hela细胞系和宫颈癌Hela／MMC耐药细胞亚系,westernblotting检测MMC对Hela和Hela／MMC细胞内SIRTl蛋白表达的影响;MTT法检测MMC及Nicotinamide对Hela和Hela／MMC细胞增殖的影响;AnnexinV-PI试验检测Hela／MMC细胞凋亡的亡的情况;RT—PCR方法检测耐药相关蛋白P—gP的mRNA表达情况。结果：正常情况下,Hela／MMC细胞中SIRTl的表达显著高于Hela细胞（P〈0．05）,MMC处理的Hela／MMC细胞中SIRTl的表达显著高于未经MMC处理（P〈0．05）。Nicotinamide对Hela和Hela／MMC细胞具有相似的生长抑制作用,Nicotinamide可使MMC诱导的Hela／MMC细胞凋亡增加,同时降低细胞内P-gP的mRNA表达（P〈0．05）。结论：SIRTl表达下调能显著减轻Hela／MMC细胞对MMC的耐药性,其作用可能与P—gp有关。     

环状RNA在肝细胞癌中的作用及机制

肝细胞癌（hepatocellular carcinoma,HCC）治疗困难、预后很差,是肿瘤相关死亡中的第4大癌症,严重危害人类生命健康,但其具体发病机制却仍未完全阐明。因此,探索能调控肝细胞癌发生发展,作为肝细胞癌的诊断标志物或能预测患者预后的关键分子仍十分必要。环状RNA是前体mRNA通过反向剪接产生的由3′, 5′ 磷酸二酯键首尾连接形成的共价闭合环状结构,主要有外显子circRNA（exonic circRNA,ecircRNA）、环状内含子RNA（circular intronic RNA,ciRNA）及外显子 内含子circRNA（exon-intron circRNA,EIciRNA）三大类。由于环状RNA具有普遍性、高度保守性和稳定性,其可以参与多种癌症的发生发展过程,并且可作为肿瘤的早期诊断标志物及预后因子,因此,这是一类新型且非常有潜力应用于临床诊治各阶段的分子。近年来,有大量关于环状RNA与肝细胞癌的研究。这些研究表明,环状RNA在肝细胞癌发生发展进程中发挥的作用十分重要,并且其机制多样。因此,本文主要关注环状RNA在肝细胞癌中的最新进展,总结不同环状RNA分子对于肝细胞癌细胞恶性表型、肿瘤干细胞及肿瘤微环境中免疫细胞的作用,以及其在肝细胞癌临床转移、分期、诊断、预后等各阶段中发挥的功能及其具体作用机制。此外,本文还提出了目前研究中存在的一些问题和不足,以期为未来的研究提供一些新的思路及策略。     

上皮细胞向间充质细胞转变在肝癌进程中的作用

上皮细胞向间充质细胞转变(epithelial to mesenchymal transition,EMT)是细胞通过瞬时去分化为间充质表型,导致上皮细胞的可塑性发生变化的多步骤的生物学过程。EMT及其逆转MET多数发生在胚胎发生形态发生过程中。近期更多的证据显示EMT参与肝纤维化和肝癌进程。在肝癌转移的早期阶段,细胞由于E-钙粘蛋白的消融而丧失细胞-细胞接触抑制,迁移能力增强,得以扩散到周围或远处组织,故EMT在肝癌转移的早期阶段中起关键作用。此外,由于EMT的增强诱导剂如转移生长因子(transforming growth factor-β,TGF-β)具有协调肝纤维化及肝癌进程的作用,故肝癌进程中上皮细胞的可塑性研究显得尤为重要。在本综述中,作者将阐述EMT-MET在肝癌进程中的重要性,及EMT在肝癌进程中的作用机制。同时,概述最近在识别影响重要EMT转录因子的临床诊治方面取得的进展。     

环状RNA在肝细胞癌中的作用及机制

肝细胞癌（hepatocellular carcinoma,HCC）治疗困难、预后很差,是肿瘤相关死亡中的第4大癌症,严重危害人类生命健康,但其具体发病机制却仍未完全阐明。因此,探索能调控肝细胞癌发生发展,作为肝细胞癌的诊断标志物或能预测患者预后的关键分子仍十分必要。环状RNA是前体mRNA通过反向剪接产生的由3′, 5′ 磷酸二酯键首尾连接形成的共价闭合环状结构,主要有外显子circRNA（exonic circRNA,ecircRNA）、环状内含子RNA（circular intronic RNA,ciRNA）及外显子 内含子circRNA（exon-intron circRNA,EIciRNA）三大类。由于环状RNA具有普遍性、高度保守性和稳定性,其可以参与多种癌症的发生发展过程,并且可作为肿瘤的早期诊断标志物及预后因子,因此,这是一类新型且非常有潜力应用于临床诊治各阶段的分子。近年来,有大量关于环状RNA与肝细胞癌的研究。这些研究表明,环状RNA在肝细胞癌发生发展进程中发挥的作用十分重要,并且其机制多样。因此,本文主要关注环状RNA在肝细胞癌中的最新进展,总结不同环状RNA分子对于肝细胞癌细胞恶性表型、肿瘤干细胞及肿瘤微环境中免疫细胞的作用,以及其在肝细胞癌临床转移、分期、诊断、预后等各阶段中发挥的功能及其具体作用机制。此外,本文还提出了目前研究中存在的一些问题和不足,以期为未来的研究提供一些新的思路及策略。     

RNA干扰沉默缺氧诱导因子1α逆转肺癌细胞耐药性

目的：观察RNA干扰沉默缺氧诱导因子1α（HIF-1α）对肺癌细胞耐药性的影响。方法：构建靶向HIF-1α小干扰RNA基因,并转染到人肺腺癌耐顺铂细胞株A549／DDP细胞中。逆转录聚合酶链反应RT—PCR）检测细胞的HIF-1α、多药耐药基因-（MDR-1）以多药耐药相关蛋白基因（MRP）mRNA变化,免疫细胞化学法观察干扰后HIF-1α、P-糖蛋白以及MRP蛋白的变化。MTT法检测不同浓度的顺铂作用下细胞死亡率。结果：HIF-1αsiRNA组中H1F-1α、MDR—1、MRPmRNA水平显著降低（P〈0．05）。且蛋白水平也显著下降（P〈0．05）。HIF-1αsiRNA组细胞死亡率较未转染组均明显增高（P〈0．05）,转染siRNA阴性组不影响肿瘤细胞的耐药性。结论：HIF-1αsiRNA可显著降低A549／DDP细胞中H1F-1α、MDR-1、MRP表达,从而起到逆转肺腺癌A549／DDP细胞的耐药作用。     

Mcl-1 分子研究进展

Mcl-1(myeloid cell leukemia-1)是Bcl-2家族的一个新成员,在凋亡调控中具有重要作用,此外它还可以直接对细胞分化和细胞周期进行调控,进一步研究表明Mcl-1在胚胎形成,组织发育和免疫系统中具有重要作用,Mcl-1表达异常可以导致恶性肿瘤的发生,因此通过反义寡核苷酸技术或小分子干扰RNA抑制Mcl-1基因的表达,促进细胞凋亡并提高肿瘤细胞对放疗及化疗的敏感性,为难治性肿瘤的治疗开辟了一条新途,所以对Mcl-1的深入研究具有重要意义。     

SIRT1与肝细胞癌

肝细胞癌(hepatocellular carcinoma, HCC)是世界上最常见的癌症之一.然而,就目前现状而言,HCC的治疗效果还很有限.作为一个依赖于烟酰胺腺嘌呤二核苷酸(NAD+)的去乙酰化酶, SIRT1(silent mating type information regulation 2 homolog 1 )参与了代谢、应激反应、衰老以及肿瘤的演进等许多重要的生物学进程.临床研究显示,SIRT1在HCC患者中异常高表达,并可预测其不良预后;进一步的研究表明,SIRT1在HCC演进中发挥了关键作用,且作用范围广泛,分子机制复杂.这提示,SIRT1有望成为新的HCC治疗靶点和诊断、预后标志物.本文拟对SIRT1在HCC的演进和预后中的具体作用及其潜在分子机制作一总结,并就SIRT1作为肝癌治疗靶点和诊断、预后标志物的可行性做出探讨.     

SIRT1 Regulates the Chemoresistance and Invasiveness of Ovarian Carcinoma Cells

BACKGROUND: SIRT1 is a longevity gene that forestalls aging and age-related diseases including cancer, and has recently attracted widespread attention due to its overexpression in some cancers. We previously identified the overexpression of SIRT1 in ovarian carcinoma (OvCa) as a poor prognostic factor. However, mechanistic insights into the function of SIRT1 in OvCa have yet to be elucidated. METHODS: Quantitative real-time reverse PCR (qRT-PCR) and Western blotting were employed to examine the expression of SIRT1 in a panel of human OvCa cell lines. si-RNA or sh-RNA and cDNA technologies were utilized to knockdown or overexpress SIRT1, respectively. The effects of SIRT1 on proliferation and chemoresistance were examined using a WST-1 assay, and the underlying mechanisms were confirmed using an apoptotic assay, and the quantification of glutathione (GSH), and reactive oxygen species (ROS). The aggressiveness of SIRT1 was analyzed using in vitro invasion and migration assays. RESULTS: SIRT1 was more strongly expressed in OvCa cell lines than in the immortalized ovarian epithelium at the gene and protein levels. Stress up-regulated the expression of SIRT1 in dose- and time-dependent manners. SIRT1 significantly enhanced the proliferation (P < .05), chemoresistance (P < .05), and aggressiveness of OvCa cells by up-regulating multiple antioxidant pathways to inhibit oxidative stress. Further study into the overexpression of SIRT1 demonstrated the up-regulation of several stemness-associated genes and enrichment of CD44v9 via an as-yet-unidentified pathway. CONCLUSIONS: Our results suggest that SIRT1 plays a role in the acquisition of aggressiveness and chemoresistance by OvCa, and has potential as a therapeutic target for OvCa.     

In silico approaches to identify novel myeloid cell leukemia-1 (Mcl-1) inhibitors for treatment of cancer

Myeloid cell leukemia-1 (Mcl-1) has been a validated and attractive target for cancer therapy. Over-expression of Mcl-1 in many cancers allows cancer cells to evade apoptosis and contributes to the resistance to current chemotherapeutics. Here, we identified new Mcl-1 inhibitors using a multi-step virtual screening approach. First, based on two different ligand-receptor complexes, 20 pharmacophore models were established by simultaneously using ‘Receptor-Ligand Pharmacophore Generation’ method and manual build feature method, and then carefully validated by a test database. Then, pharmacophore-based virtual screening (PB-VS) could be performed by using the 20 pharmacophore models. In addition, docking study was used to predict the possible binding poses of compounds, and the docking parameters were optimized before performing docking-based virtual screening (DB-VS). Moreover, a 3D QSAR model was established by applying the 55 aligned Mcl-1 inhibitors. The 55 inhibitors sharing the same scaffold were docked into the Mcl-1 active site before alignment, then the inhibitors with possible binding conformations were aligned. For the training set, the 3D QSAR model gave a correlation coefficient r² of 0.996; for the test set, the correlation coefficient r² was 0.812. Therefore, the developed 3D QSAR model was a good model, which could be applied for carrying out 3D QSAR-based virtual screening (QSARD-VS). After the above three virtual screening methods orderly filtering, 23 potential inhibitors with novel scaffolds were identified. Furthermore, we have discussed in detail the mapping results of two potent compounds onto pharmacophore models, 3D QSAR model, and the interactions between the compounds and active site residues.     

Mcl-1: a highly regulated cell death and survival controller

Summary Mcl-1 is one member of the Bcl-2 family that has a very short protein half-life. Since its identification in 1993, a great number of studies have implicated that Mcl-1 plays an important role in various cell survival pathways. However, not until recently did the molecular mechanism by which Mcl-1 antagonizes apoptosis have begun to be elucidated. Mcl-1 is rapidly degraded in response to cell death signals and is immediately re-induced by survival stimuli. These results indicate that Mcl-1 plays an apical role in many cell death and survival regulatory programs.     

Noxa controls Mule-dependent Mcl-1 ubiquitination through the regulation of the Mcl-1/USP9X interaction

The level of the Mcl-1 pro-survival protein is highly regulated, and the down-regulation of Mcl-1 expression favors the apoptotic process. Mcl-1 physically interacts with different BH3-only proteins; particularly, Noxa is involved in the modulation of Mcl-1 expression. In this study, we demonstrated that Noxa triggers the degradation of Mcl-1 at the mitochondria according to the exclusive location of Noxa at this compartment. The Noxa-induced degradation of Mcl-1 required the E3 ligase Mule, which is responsible for the polyubiquitination of Mcl-1. Because the USP9X deubiquitinase was recently demonstrated to be involved in Mcl-1 protein turnover by preventing its degradation through the removal of conjugated ubiquitin, we investigated whether Noxa affected the deubiquitination process. Interestingly, Noxa over-expression caused a decrease in the USP9X/Mcl-1 interaction associated with an increase in the Mcl-1 polyubiquitinated forms. Additionally, Noxa over-expression triggered an increase in the Mule/Mcl-1 interaction in parallel with the decrease in Mule/USP9X complex formation. Taken together, these modifications result in the degradation of Mcl-1 by the proteasome machinery. The implication of Noxa in the regulation of Mcl-1 proteasomal degradation adds complexity to this process, which is governed by multiple interactions.