miR-34家族——-肿瘤抑制蛋白p53高度相关microRNA

若干微小RNA(microRNA, miRNA)与肿瘤抑制蛋白p53高度相关, 其中miR-34家族最具代表性。一方面p53可通过对miR-34家族的调控实现对多个原癌基因如Bcl-2、c-myc以及细胞因子如cyclinE2、cyclinD1和c-Met的抑制, 进而发挥抑癌作用; 另一方面miR-34家族也可以通过抑制沉默信息调节子SIRTI来进一步增强p53的活性。p53与miR-34家族之间形成的正反馈调节网络对抑制肿瘤的发生发展及恶化均起着重要的作用。文章对p53高度相关的miR-34家族在肿瘤发生发展及治疗的最新进展作一论述。     

miR-34家族在慢性淋巴细胞白血病中的作用

近年来的研究表明microRNAs表达异常直接或间接导致了多种亚型慢性淋巴细胞白血病（chronic lymphocytic leukemia,CLL）的发生。miR-34家族（包括miR-34a、miR-34b与miR-34c）是一个与细胞增殖、分化和癌变高度相关的microRNA家族。近年来,人们发现miR-34家族在p53调控网络和CLL发生中起着重要作用,并具有显著的临床应用价值。将对miR-34家族在慢性淋巴细胞白血病发生中的作用和机制做一综述。     

抑癌基因p53调控的微RNA-miR-34基因家族

微RNA（microRNA,miRNA）是一种内源性非编码小RNA,在转录后水平调控基因表达,在肿瘤的发生发展过程中起重要作用。p53是重要的抑癌基因,在DNA损伤和癌基因等刺激下活化,诱导下游基因表达,使细胞周期阻滞、DNA修复并促进细胞衰老或凋亡。本文主要介绍近期发现的直接受p53调控的miR-34基因家族,及其在生长阻滞和细胞凋亡方面的研究进展,揭示了蛋白质与非编码RNA在重要的p53抑癌网络中的相互关系,为肿瘤的研究提供了新的思路。     

血管内皮生长因子及其受体与Cyclin E-CDK2在肝癌发生发展过程中的表达变化

目的通过观察血管内皮生长因子(VEGF)及其受体和细胞周期蛋白E(Cyclin E)在肝癌模型大鼠肝脏中表达情况,探讨VEGF与细胞周期相关蛋白在肝癌发生发展过程中的作用。方法建立诱发性肝癌模型,采用酶联免疫吸附试验检测血清中VEGF量的变化,免疫组化技术检测VEGFR1、Cyclin E和细胞周期蛋白依赖性激酶(CDK2)的表达情况。结果血清中的VEGF含量在对照组中最低,在实验组中逐渐增多,以癌变期含量最高。VEGFR1、Cyclin E和CDK2蛋白表达的平均光密度值均随着肝癌的发生发展有增高的趋势,大鼠血清中的VEGF量与肝脏组织中VEGFR1、Cyclin E和CDK2蛋白表达的平均光密度值随着肝癌的发生发展呈正相关(r=0.834,F=42.1274,P<0.05)。结论 VEGF及其受体VEGFR1在肝癌发生发展中异常表达,促进肝癌的发生发展,可能与Cyclin E、CDK2细胞周期蛋白异常表达有关。     

慢性牙周炎合并2型糖尿病患者龈沟液miR-21、miR-34a表达水平与牙周指标和Th1/Th2/Th17失衡的关系研究

摘要 目的：探讨慢性牙周炎（CP）合并2型糖尿病（T2DM）患者龈沟液微小核糖核酸（miR）-21、miR-34a表达水平与牙周指标和辅助性T细胞（Th）1/Th2/Th17失衡的关系。方法：选取2020年3月～2022年3月首都医科大学附属北京世纪坛医院口腔科收治的114例CP患者，根据是否合并T2DM分为CP合并T2DM组36例和单纯CP组78例，另选取60名健康体检者为对照组。对比三组牙周指标、龈沟液miR-21、miR-34a表达和外周血Th1、Th2、Th17、Th1/Th2/Th17、血清Th1、Th2、Th17相关细胞因子水平，采用Spearman相关性分析CP合并T2DM患者龈沟液miR-21、miR-34a表达与牙周指标和外周血Th1、Th2、Th17、Th1/Th2/Th17及其相关细胞因子水平的相关性。采用Pearson/Spearman相关性分析CP合并T2DM患者牙周指标与外周血Th1、Th2、Th17、Th1/Th2/Th17及其相关细胞因子水平的相关性。结果：对照组、单纯CP组、CP合并T2DM组菌斑指数（PLI）、牙龈出血指数（BI）、附着丧失（AL）、探诊深度（PD）依次增加，龈沟液miR-21和外周血Th2及血清白细胞介素（IL）-2、干扰素-γ（INF-γ）依次降低，龈沟液miR-34a和外周血Th1、Th17、Th1/Th2/Th17及血清IL-4、IL-10、IL-17、肿瘤坏死因子-α（TNF-α）依次升高（P＜0.05）。Spearman相关性分析显示，CP合并T2DM患者龈沟液miR-21表达与PLI、BI、AL、PD和外周血Th1、Th17、Th1/Th2/Th17及血清IL-4、IL-10、IL-17、TNF-α呈负相关，与外周血Th2和血清IL-2、INF-γ呈正相关（P＜0.05）；而miR-34a则与之相反。Pearson/Spearman相关性分析显示，CP合并T2DM患者PLI、BI、AL、PD与外周血Th1、Th17、Th1/Th2/Th17和血清IL-4、IL-10、IL-17、TNF-α呈正相关，与外周血Th2和血清IL-2、INF-γ呈负相关（P＜0.05）。结论：CP合并T2DM患者龈沟液miR-21低表达和miR-34a高表达，与牙周状况差有关，可能通过调节Th1/Th2/Th17失衡参与CP合并T2DM进展。     

血管生成素在细胞凋亡调节中的作用机制

血管生成素（angiogenin,ANG）是一种核糖核酸酶;最近研究证明,作为一种抗凋亡因子,ANG参与各种抗细胞凋亡过程. ANG对内源性及外源性相关信号途径中的重要分子,如Bcl-2抗凋亡蛋白具有调节作用.此外,ANG对内、外部信号途径中的重要环节--p53依赖的凋亡也具有调节作用.     

miR-34a-5p通过靶向醛缩酶A抑制肝癌细胞的增殖和迁移

[目的]证明醛缩酶A(ALDOA)在肝癌细胞的增殖和迁移作用并探索miR-34a-5p靶向调控ALDOA的分子机制,为肝癌治疗提供潜在的分子靶标。[方法]分子生物学技术构建了ALDOA表达质粒,蛋白质印迹(Western Blotting)和实时荧光定量PCR(RT-PCR)检测ALDOA的过表达和敲降效果,CCK-8验证细胞的增殖,划痕实验验证细胞的迁移。[结果]在肝癌细胞中过表达ALDOA能促进肝癌细胞的增殖与迁移(P <0.05),敲降ALDOA后肝癌细胞的增殖与迁移受到抑制(P <0.05),miR-34a-5p是通过靶向结合ALDOA的3’UTR抑制其表达从而抑制肝癌细胞的增殖与迁移(P <0.05)。[结论]miR-34a-5p通过靶向ALDOA抑制肝癌细胞的增殖和迁移。     

血清miR-34b-5p、miR-155表达与早产儿急性呼吸窘迫综合征炎症因子和预后的关系分析

摘要 目的：探讨血清微小核糖核酸（miR）-34b-5p、miR-155表达与早产儿急性呼吸窘迫综合征（ARDS）炎症因子和预后的关系。方法：选择2019年2月至2021年3月我院收治的92例ARDS早产儿,根据ARDS病情严重程度将其分为轻度组（31例）、中度组（43例）和重度组（18例）,追踪患儿临床结局,根据院内死亡情况将其分为存活组（51例）和死亡组（41例）。检测所有患儿的血清miR-34b-5p、miR-155表达水平以及白细胞介素-1β（IL-1β）、肿瘤坏死因子-α（TNF-α）、白细胞介素-6（IL-6）水平,比较各组间上述指标差异,分析ARDS早产儿血清miR-34b-5p、miR-155表达与炎症因子的相关性以及miR-34b-5p、miR-155预测ARDS早产儿预后的价值。结果：重度组miR-155表达水平及IL-1β、TNF-α、IL-6水平均高于中度组和轻度组,且中度组高于轻度组（P＜0.05）,重度组miR-34b-5p表达水平低于中度组和轻度组,且中度组低于轻度组（P＜0.05）。死亡组miR-155表达水平及IL-1β、TNF-α、IL-6水平高于存活组（P＜0.05）,死亡组miR-34b-5p表达水平低于存活组（P＜0.05）。ARDS早产儿miR-155表达水平与IL-1β、TNF-α、IL-6水平均呈正相关,而miR-34b-5p表达水平与IL-1β、TNF-α、IL-6水平均呈负相关（P＜0.05）。联合miR-34b-5p、miR-155预测ARDS早产儿死亡的曲线下面积（AUC）为0.853,高于两指标单独预测的0.688、0.649。结论：ARDS早产儿血清miR-34b-5p、miR-155表达水平与患儿血清炎症因子水平以及预后有关,可作为ARDS早产儿病情评估以及预后预测的潜在指标。     

miR-199a-3p/Nme2在TGF-β1信号通路中的作用分析

通过microRNA芯片技术在小鼠GC-1 spg细胞中筛选发现microRNA-199a-3p(miR-199a-3p)受转化生长因子TGF-β1调节。为了进一步探讨二者的关系,通过基因克隆与载体构建技术、双荧光素酶报告基因检测及定量PCR实验,发现miR-199a-3p靶向识别肿瘤转移抑制基因2(Nme2)的3'非编码区(UTR)序列,且正向调控Nme2的表达。利用TGF-β1处理GC-1 spg细胞后,结果显示Nme2和miR-199a-3p在mRNA水平的表达均显著上调;进一步将miR-199a-3p和TGF-β1双重作用于GC-1 spg细胞后,结果表明Nme2的表达会明显增强,而且在TGF-β1通路中,miR-199a-3p被抑制的部分功能可能会被Nme2补偿。综上,miR-199a-3p对Nme2基因具有直接靶向识别和调控作用,且在参与TGF-β1信号通路的生物学效应中,二者在功能上相互关联。     

miR-34a-5p靶向GMFB抑制细胞增殖对先天性巨结肠的治疗意义

目的探讨miR-34a-5p通过靶基因GMFB调控神经嵴细胞的增殖。 方法通过荧光定量PCR检测miR-34a-5p在先天性巨结肠症（HSCR）和正常结肠组织中的表达,并通过双荧光素酶报告基因检测miR-34a-5p的靶基因,SH-SY5Y细胞转染miR-34a-5p mimics及对照miR-NC,并转染GMFB表达载体,通过CCK8检测miR-34a-5p和GMFB对神经嵴细胞增殖的影响,并通过Western Blot检测miR-34a-5p对GMFB蛋白表达的影响。采用t检验和单因素方差分析。 结果荧光定量PCR结果显示,HSCR结肠组中miR-34a-5p的相对表达量为0.43±0.10,低于正常结肠组1.15±0.18,差异具有统计学意义（t = 3.50,P < 0.01）。CCK8结果显示,miR-34a-5p mimics组细胞在培养24?h和48?h后细胞A450值分别为0.53±0.03和0.87±0.04,低于miR-NC对照组0.87±0.03,1.42±0.04。双荧光素酶报告基因实验结果显示,miR-34a-5p mimics与GMFB 3'UTR WT载体共转染组荧光强度为0.44±0.03,低于对照miR-NC与WT载体共转染组1.02±0.06。CCK8结果所示,miR-34a-5p mimics+GMFB组细胞培养24?h和48?h后,A450值分别为0.99±0.02和1.50±0.03,高于miR-34a-5p mimics组0.53±0.03, 0.87±0.04,差异具有统计学意义（t?=?7.07,P < 0.01;t?=?9.14,P < 0.01）。Western Blot检测结果显示,miR-34a-5p mimics组细胞的GMFB蛋白表达量为0.25±0.01,低于miR-NC对照组0.90±0.03,差异具有统计学意义（t?=?35.60,P < 0.01）,miR-34a-5p mimics+GMFB组细胞GMFB蛋白表达量为1.03±0.03,高于miR-34a-5p mimics组0.25±0.01,差异具有统计学意义（t?=?42.74,P < 0.01）。 结论miR-34a-5p能够通过抑制靶基因GMFB的表达,抑制神经嵴细胞SH-SY5Y的增殖。     

MiR-34a in age and tissue related radio-sensitivity and serum miR-34a as a novel indicator of radiation injury

MiR-34a, a direct target of p53, has shown to exert potent anti-proliferative effects. It has also been found that miR-34a can be induced by irradiation in vitro and in vivo. However, the relationship between miR-34a and radio-sensitivity, and its potential diagnostic significance in radiation biology, remain unclear. This study found that differing responses to ionizing radiation (IR) of young and adult mice were related to miR-34a. First, we found that miR-34a could be induced in many organs by radiation of both young and adult mice. However, the level of miR-34a induced by young mice was much higher when compared to adult mice. Next, we found that miR-34a played a critical role in radio-sensitivity variations of different tissues by enhancing cell apoptosis and decreasing cell viability. We also found that the induction of miR-34a by radiation was in a p53 dependent manner and that one possible downstream target of miR-34a that lead to different radio-sensitivity was the anti-apoptosis molecular Bcl-2. However, over-expression of miR-34a and knockdown of Bcl-2 could significantly enhance the radio-sensitivity of different cells while inhibition of miR-34a could protect cells from radiation injury. Finally, we concluded that miR-34a could be stable in serum after IR and serve as a novel indicator of radiation injury. Taken together, this data strongly suggests that miR-34a may be a novel indicator, mediator and target of radiation injury, radio-sensitivity and radioprotection.     

miR-34a-5p functions as a tumor suppressor in head and neck squamous cell cancer progression by targeting Flotillin-2

While a number of therapeutic advances have been made in recent years, the overall survival of patients with head and neck squamous cell cancer (HNSCC) remains poor. MicroRNAs (miRNAs) are key drivers of oncogenic progression, with miR-34a-5p downregulation having been observed in many different tumor types. Here, we assessed the link between miR-34a-5p and HNSCC progression and the mechanistic basis for this relationship. Levels of miR-34a-5p in HNSCC tumors and cell lines were assessed via qPCR, after which we explored the functional importance of this miRNA in this oncogenic setting. Through luciferase reporter assays, the ability of miR-34a-5p to regulate flotillin-2 (FLOT-2) was further clarified. Overall, these analyses revealed that HNSCC tumors and cells exhibited marked miR-34a-5p downregulation that was linked to the progression of this tumor type. At a functional level, miR-34a-5p constrained the proliferation, migratory/invasive activity, and epithelial-mesenchymal transition induction in HNSCC cells. At the mechanistic level, miR-34a-5p was found to suppress FLOT-2 expression and to activate the MEK/ERK1/2 pathway. Overall, these results suggest that miR-34a-5p can function as a tumor suppressor miRNA in HNSCC owing to its ability to target FLOT-2, highlighting the promise of targeting this regulatory axis to treat HNSCC.     

Long non-coding RNA ZFAS1 alleviates sepsis-induced myocardial injury via target miR-34b-5p/SIRT1

Long non-coding RNA ZFAS1 is down-regulated in sepsis. However, whether ZFAS1 participates in sepsis-induced cardiomyopathy (SIC) remains largely unknown. LPS injection to rats was used to establish an in vivo sepsis model, while LPS stimulation with H9C2 cell was used to mimic an in vitro sepsis-induced myocardial injury model. Western blots and quantitative RT-PCR were performed to evaluate protein and mRNA levels, respectively. ELISA was conducted to determine cytokine levels in supernatant. Flow cytometry was used to test apoptosis. Dual-luciferase assay was performed to validate binding between ZFAS1 and miR-34b-5p, miR-34b-5p and SIRT1. Our data revealed that ZFAS1 and SIRT1 were down-regulated, while miR-34b-5p was up-regulated in LPS-induced H9C2 cells. Inhibition of miR-34b-5p or overexpression of ZFAS1 alleviated inflammatory response and cell apoptosis in LPS-stimulated H9C2 cells. A mechanism study revealed that ZFAS1 sponged miR-34b-5p and thus elevated expression of SIRT1, which was prohibited by miR-34b-5p. ZFAS1 alleviated inflammatory response and cell apoptosis in LPS-stimulated H9C2 cells via the miR-34b-5p/SIRT1 axis, providing novel potential therapeutic targets for SIC.     

OCT4 as a target of miR-34a stimulates p63 but inhibits p53 to promote human cell transformation

Human cell transformation is a key step for oncogenic development, which involves multiple pathways; however, the mechanism remains unclear. To test our hypothesis whether cell oncogenic transformation shares some mechanisms with the process of reprogramming non-stem cells to induced pluripotent stem cells (iPSC), we studied the relationship among the key factors for promoting or inhibiting iPSC in radiation-transformed human epithelial cell lines derived from different tissues (lung, breast and colon). We unexpectedly found that p63 and OCT4 were highly expressed (accompanied by low expressed p53 and miR-34a) in all transformed cell lines examined when compared with their non-transformed counterparts. We further elucidated the relationship of these factors: the 3p strand of miR-34a directly targeted OCT4 by binding to the 3′ untranslated region (3′-UTR) of OCT4 and, OCT4, in turn, stimulated p63 but inhibited p53 expression by binding to a specific region of the p63 or p53 promoter. Moreover, we revealed that the effects of OCT4 on promoting cell oncogenic transformation were by affecting p63 and p53. These results support that a positive loop exists in human cells: OCT4 upregulation as a consequence of inhibition of miR-34a, promotes p63 but suppresses p53 expression, which further stimulates OCT4 upregulation by downregulating miR-34a. This functional loop contributes significantly to cell transformation and, most likely, also to the iPSC process.