DNA-methylation-mediated silencing of miR-7-5p promotes gastric cancer stem cell invasion via increasing Smo and Hes1

Cancer stem cells are undifferentiated cancer cells that have self-renewal ability, a high tumorigenic activity, and a multilineage differentiation potential. MicroRNAs play a critical role in regulating gene expression during carcinogenesis. Here, we investigated the role of miR-7 and the mechanism by which it is dysregulated in gastric cancer stem cells (GCSCs). The stem cell marker, CD44, was used to sort GCSCs by fluorescence-activated cell sorting. We found that CD44 (+) cells have higher invasiveness and form more number of sphere colonies than CD44 (−) cells. Quantitative real-time polymerase chain reaction (PCR) revealed that the miR-7-5p expression was remarkably downregulated in GCSCs but was significantly increased in the methionine-deprived medium. The downregulation of miR-7-5p results from the increased DNA methylation in the promoter region using the methylation-specific PCR. Overexpression of miR-7-5p reduced the formation of colony and decreased the invasion of GCSCs through targeting Smo and Hes1 and subsequent repressing Notch and Hedgehog signaling pathways in vitro. Notably, upregulating miR-7-5p inhibited the growth of tumor in the xenograft model. Hence, these data demonstrated that miR-7-5p represses GCSC invasion through inhibition of Smo and Hes1, which provides a potential therapeutic target of gastric cancer treatment.     

SHORT-ROOT 1 is critical to cell division and tracheary element development in rice roots

The exocyst is a key factor in vesicle transport and is involved in cell secretion, cell growth, cell division and other cytological processes in eukaryotes. EXO70 is the key exocyst subunit. We obtained a gene, SHORT-ROOT 1 (SR1), through map-based cloning and genetic complementation. SR1 is a conserved protein with an EXO70 domain in plants. SR1 mutation affected the whole root-development process: producing shorter radicles, adventitious roots and lateral roots, and demonstrating abnormal xylem development, resulting in dwarfing and reduced water potential and moisture content. SR1 was largely expressed in the roots, but only in developing root meristems and tracheary elements. The shortness of the sr1 mutant roots was caused by the presence of fewer meristem cells. The in situ histone H4 expression patterns confirmed that cell proliferation during root development was impaired. Tracheary element dysplasia was caused by marked decreases in the inner diameters of and distances between the perforations of adjacent tracheary elements. The membrane transport of sr1 mutants was blocked, affecting cell division in the root apical region and the development of root tracheary elements. The study of SR1 will deepen our understanding of the function of EXO70 genes in Oryza sativa (rice) and guide future studies on the molecular mechanisms involved in plant root development.     

草地土壤有机质不同组分氮库对长期氮添加的响应

土壤氮库对生态系统的养分循环至关重要。目前多数研究主要关注氮沉降对土壤总氮的影响, 而对土壤不同有机质组分的氮库对氮沉降响应的研究较为缺乏。该研究基于内蒙古典型草地的长期多水平施氮(0、8、32、64 g·m^-2·a^-1)实验平台, 利用土壤密度分级方法, 探究氮添加处理13年后典型草地中两种土壤有机质组分(颗粒态有机质(POM), 矿质结合态有机质(MAOM))氮含量的变化及调控机制。结果显示: 土壤总碳含量、POM和MAOM的碳含量在施氮处理间均没有显著差异。土壤总氮含量则随着施氮水平增加呈显著增加的趋势, 同时施氮处理下POM的氮含量显著上升, 而MAOM的氮含量没有变化。进一步分析发现, 施氮促进植物地上生物量积累, 增加了凋落物量及其氮含量, 从而导致POM的氮含量增加。由于MAOM主要通过黏土矿物等吸附土壤中小分子有机质形成, 其氮含量受土壤中黏粒与粉粒含量影响, 而与氮添加水平无显著相关关系。该研究结果表明长期氮添加促进土壤氮库积累, 但增加的氮主要分布在稳定性较低的POM中, 受干扰后容易从生态系统中流失。为了更准确地评估和预测氮沉降对陆地生态系统的氮循环过程的影响, 应考虑土壤中不同有机质组分的差异响应。     

Degradation of WTAP blocks antiviral responses by reducing the m6A levels of IRF3 and IFNAR1 mRNA

N ⁶‐methyladenosine (m⁶A) is a chemical modification present in multiple RNA species and is most abundant in mRNAs. Studies on m⁶A reveal its comprehensive roles in almost every aspect of mRNA metabolism, as well as in a variety of physiological processes. Although some recent discoveries indicate that m⁶A can affect the life cycles of numerous viruses as well as the cellular antiviral immune response, the roles of m⁶A modification in type I interferon (IFN‐I) signaling are still largely unknown. Here, we reveal that WT1‐associated protein (WTAP), one of the m⁶A “writers”, is degraded via the ubiquitination‐proteasome pathway upon activation of IFN‐I signaling. With the degradation of WTAP, the m⁶A levels of IFN‐regulatory factor 3 (IRF3) and interferon alpha/beta receptor subunit 1 (IFNAR1) mRNAs are reduced, leading to translational suppression of IRF3 and instability of IFNAR1 mRNA. Thus, the WTAP‐IRF3/IFNAR1 axis may serve as negative feedback pathway to fine‐tune the activation of IFN‐I signaling, which highlights the roles of m⁶A in the antiviral response by dictating the fate of mRNAs associated with IFN‐I signaling.     

利用短短小芽孢杆菌启动子和信号肽编码序列构建穿梭分泌表达载体

以短短小芽孢杆菌B15的总DNA为模板,利用PCR技术克隆到其细胞壁蛋白基因串联启动子和信号肽编码序列,测序分析后提交GenBank,登录号为AY956423。重新设计引物扩增该片段并在PCR产物两侧引入BamHⅠ和PstⅠ酶切位点,将PCR产物双酶切后克隆至穿梭载体pP43NMK的相应位点构建分泌表达载体pP15MK,插入片段置于该载体中mpd基因的上游,并使信号肽编码序列与去除了自身信号肽编码序列的mpd基因阅读框恰好融合。将pP15MK导入枯草杆菌构建表达菌株1A751(pP15MK),在短短小芽孢杆菌启动子和信号肽元件的带动下,mpd基因能够在表达菌株的对数生长期和稳定期持续性高效分泌表达,表达产物结合在细胞膜上;发酵液在48h酶活达到最高值7.79U/mL,是出发菌株邻单胞菌M6表达量的8.1倍。     

TNFα-initiated oxidative/nitrative stress mediates cardiomyocyte apoptosis in traumatic animals

Whole body non-penetrating trauma causes myocardial infarction in humans and mechanical trauma (MT) results in cardiac dysfunction in animals. Our recent study demonstrated that incubation of cardiomyocytes with plasma isolated from MT animals causes significant cardiomyocyte apoptosis that can be blocked by neutralization of TNFα. The present study attempted to obtain direct in vivo evidence to support that overproduction of TNFα plays a causative role in trauma-induced cardiomyocyte apoptosis. Non-lethal MT caused significant TNFα overproduction (2.4-fold at 1.5 h after MT) and increased cardiomyocyte apoptosis (starting 3 h and peaking 12 h after MT). Pharmacological inhibition of TNFα with etanercept or TNFα gene deletion reduced post-trauma myocyte apoptosis (P < 0.01). Expression of iNOS and NADPH oxidase, overproduction of NO and , and excessive protein nitration in the MT heart were all significantly reduced in etanercept-treated or TNFα^−/− mice, suggesting that oxidative/nitrative stress may contribute to TNFα-initiated myocyte apoptosis in MT hearts. Additional experiments demonstrated that inhibiting iNOS (1400W) or NADPH oxidase (apocynin), or scavenging peroxynitrite (FP15) significantly reduced myocyte apoptosis in MT animals (P < 0.01). Collectively, these data demonstrated that non-lethal mechanical trauma caused significant TNFα production that in turn stimulated myocardial apoptosis via oxidative/nitrative stress.     

A highly sensitive biosensor with (Con A/HRP)n multilayer films based on layer-by-layer technique for the detection of reduced thiols

The bilayer of Con A/HRP through the biospecific affinity of concanavalin A (Con A) and glycoprotein horseradish peroxidase (HRP) was prepared on the surface of an Au electrode modified by the precursor film consisted of poly(allylamine hydrochloride) poly(sodium-p-styrene-sulfonate). Atomic force microscopy and electrochemical impedance spectroscopy were adopted to monitor the uniform layer-by-layer assembly of the Con A/HRP bilayers. The amperometric measurement was based on the inhibition of reduced thiols and performed in the presence of the electron mediator hydroquinone in 0.2 M phosphate buffer of pH 6.5 at an applied potential of −0.15 V versus Ag/AgCl. Under the optimal conditions, the biosensor presented a linear response for cysteine from 0.1 to 23.5 μM, with a detection limit of 0.02 μM. The biosensor demonstrated high stability and repeatability. A series of reduced thiols were detected by this inhibition biosensor and oxidized thiols showed no effect on the current response of the biosensor.     

先天性支气管动脉-肺动脉瘘儿童咯血的介入治疗临床分析

目的:总结先天性支气管动脉-肺动脉瘘患儿的临床特点及诊治经验,探讨介入治疗支气管动脉-肺动脉瘘所致咯血的安全性及有效性。方法:回顾性分析我院自2009年7月至2017年6月收治的先天性支气管动脉-肺动脉瘘所致咯血患儿36例,行支气管动脉数字减影血管造影(DSA),选择300-700μm聚乙烯醇(PVA)微栓颗粒或微球颗粒行支气管动脉栓塞术治疗,评价疗效,患者在术后1个月、3个月、半年、1年门诊复查。结果:多层螺旋CT血管造影(MSCTA)显示支气管动脉-肺动脉瘘直接征象的诊出率为55.5%(20/36),16例为假阴性(44.4%),未发现假阳性病例;36例患者栓塞术后治疗即刻成功率为100%,复发率13.9%(5/36),复发时间出现于术后2-6个月,表现为再次咯血,但咯血量较初次封堵前减少,均行二次栓塞术。结论:介入治疗对于支气管动脉-肺动脉瘘所致咯血是一种创伤小、操作简便、疗效明确、并发症少的治疗方法。为进一步减少复发风险,患者术前应仔细进行MSCTA检查,行全面DSA下血管造影,根据患者病变血管情况选择合适的永久栓塞剂,运用恰当的栓塞技术。     

受体相互作用蛋白质激酶3通过上调整合素β3促进骨关节炎相关病变

骨关节炎（osteoarthritis,OA）是最常见的慢性致残性关节疾患,目前尚无针对病因的有效治疗手段。程序性坏死在多种疾病中扮演关键角色,受体相互作用蛋白质激酶3（receptor-interacting protein kinase 3, RIP3）是程序性坏死进程的关键调控因子。有研究显示,RIP3在人与鼠骨关节炎退变软骨组织中表达水平显著上调,提示程序性坏死的发生,但RIP3在软骨中的具体病生理角色仍不明确。本研究拟对过表达RIP3前后的软骨细胞转录物组进行测序分析,探索RIP3在骨关节炎进程中发挥作用的具体机制。RNA测序结果显示,RIP3的过表达诱发软骨细胞中244个基因表达上调,277个表达下调。通过进一步构建基因间共表达作用网络,筛选出16个候选靶基因在mRNA水平进行验证,证实RIP3对磷脂酰肌醇3激酶调节亚单位5（phosphoinositide-3-kinase, regulatory subunit 5,Pik3r5）、整合素β3（integrin subunit beta 3,Itgb3）及成髓细胞瘤转录因子第2亚型（MYB proto-oncogene like 2,Mybl2）的表达上调作用最为显著。CCK-8以及乳酸脱氢酶活性检测结果表明,利用siRNA沉默Itgb3的表达可显著抑制RIP3诱发的软骨细胞活力下降及程序性坏死,同时也抑制了RIP3对软骨细胞中分解代谢相关基因Mmp1、Mmp13与Il6的表达上调作用,以及其对合成代谢相关基因Acan、Col2a1与Sox9的下调作用。本研究证实,RIP3通过上调软骨细胞中Itgb3的表达诱发软骨细胞坏死与软骨基质代谢紊乱,并最终导致软骨退变,为骨关节炎的临床治疗提供了新靶点,同时进一步明确了程序性坏死的病理生理学意义。