损毁和刺激垂体对大鼠痛阈的影响

采用局限性损毁和刺激垂体的方法,以行为测痛为指标,观察大鼠垂体在痛觉调节中的作用以及地塞米松（Ｄｅｘ）对其影响。实验结果显示,损毁垂体中间叶（ＩＬ）及邻近的前叶（ＡＬ）,大鼠痛阈明显低于手术前的痛阈（Ｐ＜０．０１）。电刺激垂体的上述同样部位,大鼠痛阈明显高于手术基础值及自身假刺激值（Ｐ＜０．００１）。经Ｄｅｘ处理的动物,电刺激垂体不再引起痛阈升高。结果表明,大鼠垂体ＩＬ及靠近ＡＬ与痛调节有关,这种     

Pressure Cycling Technology Assisted Mass Spectrometric Quantification of Gingival Tissue Reveals Proteome Dynamics during the Initiation and Progression of Inflammatory Periodontal Disease

Understanding the progression of periodontal tissue destruction is at the forefront of periodontal research. The authors aimed to capture the dynamics of gingival tissue proteome during the initiation and progression of experimental (ligature‐induced) periodontitis in mice. Pressure cycling technology (PCT), a recently developed platform that uses ultra‐high pressure to disrupt tissues, is utilized to achieve efficient and reproducible protein extraction from ultra‐small amounts of gingival tissues in combination with liquid chromatography‐tandem mass spectrometry (MS). The MS data are processed using Progenesis QI and the regulated proteins are subjected to METACORE, STRING, and WebGestalt for functional enrichment analysis. A total of 1614 proteins with ≥2 peptides are quantified with an estimated protein false discovery rate of 0.06%. Unsupervised clustering analysis shows that the gingival tissue protein abundance is mainly dependent on the periodontitis progression stage. Gene ontology enrichment analysis reveals an overrepresentation in innate immune regulation (e.g., neutrophil‐mediated immunity and antimicrobial peptides), signal transduction (e.g., integrin signaling), and homeostasis processes (e.g., platelet activation and aggregation). In conclusion, a PCT‐assisted label‐free quantitative proteomics workflow that allowed cataloging the deepest gingival tissue proteome on a rapid timescale and provided novel mechanistic insights into host perturbation during periodontitis progression is applied.     

Emerging Roles and Research Tools of Atypical Ubiquitination

Ubiquitination is a posttranslational modification characterized by the covalent attachment of ubiquitin molecules to protein substrates. The ubiquitination modification process is reversible, dynamic, and involved in the regulation of various biological processes, such as autophagy, inflammatory responses, and DNA damage responses. The forms of ubiquitin modification are very diverse, incorporating either a single ubiquitin molecule or a complicated ubiquitin polymer, and different types of ubiquitination usually elicit corresponding cellular responses. The development of research tools and strategies has afforded more detailed insight into atypical ubiquitin signaling pathways that were previously poorly understood. Here, an update on the understanding of atypical ubiquitin chain signaling pathways is provided and the recent development of representative research tools for ubiquitin systems is discussed. In addition, the future challenges in ubiquitin research are reflected on and summarized.     

Neobavaisoflavone inhibits osteoclastogenesis through blocking RANKL signalling‐mediated TRAF6 and c‐Src recruitment and NF‐κB,MAPK and Akt pathways

Psoralea corylifolia (P corylifolia) has been popularly applied in traditional Chinese medicine decoction for treating osteoporosis and promoting fracture healing since centuries ago. However, the bioactive natural components remain unknown. In this study, applying comprehensive two‐dimensional cell membrane chromatographic/C18 column/time‐of‐flight mass spectrometry (2D CMC/C18 column/TOFMS) system, neobavaisoflavone (NBIF), for the first time, was identified for the bioaffinity with RAW 264.7 cells membranes from the extracts of P corylifolia. Here, we revealed that NBIF inhibited RANKL‐mediated osteoclastogenesis in bone marrow monocytes (BMMCs) and RAW264.7 cells dose dependently at the early stage. Moreover, NBIF inhibited osteoclasts function demonstrated by actin ring formation assay and pit‐formation assay. With regard to the underlying molecular mechanism, co‐immunoprecipitation showed that both the interactions of RANK with TRAF6 and with c‐Src were disrupted. In addition, NBIF inhibited the phosphorylation of P50, P65, IκB in NF‐κB pathway, ERK, JNK, P38 in MAPKs pathway, AKT in Akt pathway, accompanied with a blockade of calcium oscillation and inactivation of nuclear translocation of nuclear factor of activated T cells cytoplasmic 1 (NFATc1). In vivo, NBIF inhibited osteoclastogenesis, promoted osteogenesis and ameliorated bone loss in ovariectomized mice. In summary, P corylifolia‐derived NBIF inhibited RANKL‐mediated osteoclastogenesis by suppressing the recruitment of TRAF6 and c‐Src to RANK, inactivating NF‐κB, MAPKs, and Akt signalling pathways and inhibiting calcium oscillation and NFATc1 translocation. NBIF might serve as a promising candidate for the treatment of osteoclast‐associated osteopenic diseases.     

Statistical and multivariate statistical techniques to trace the sources and affecting factors of groundwater pollution in a rapidly growing city on the Chinese Loess Plateau

Abstract

Groundwater quality is defined by various water quality parameters. The aims of the research are to understand the relationships among different groundwater quality parameters and to trace the sources and affecting factors of groundwater pollution via statistical and multivariate statistical techniques. The 36 shallow groundwater samples collected from shallow pumping wells in Yan’an City were analyzed for various water quality parameters. Correlation analysis, principal component analysis (PCA), hierarchical cluster analysis (HCA), and multivariable linear regressions (MLR) were jointly used in this study to explore the sources and affecting factors of groundwater pollution. The study reveals that the mineral dissolution/precipitation and anthropogenic input are the main sources of the physicochemical indices and trace elements in the groundwater. Groundwater chemistry is predominantly regulated by natural processes such as dissolution of carbonates, silicates, and evaporates and soil leaching, followed by human activities as the second factor. Climatic factors and land use types are also important in affecting groundwater chemistry. Cl^– is the greatest contributor to the overall groundwater quality revealed by the two regression models. The first model which has eight dependent variables is high in model reliability and stability, and is recommended for the overall groundwater quality prediction. The study is helpful for understanding groundwater quality variation in urban areas.     

A rapid enantioseparation system of capillary electrochromatography modified by electrostatic adsorption with transfersomes

Transfersomes were a special kind of nanomaterials with higher deformability and flexibility. A rapid method for coated-column preparation using anionic transfersomes as a coating material by electrostatic adsorption was developed. With carboxymethyl-β-cyclodextrin added in running buffer as the chiral selector, the capillary electrochromatography enantioseparation system based on the transfersomes-coated column modified by electrostatic adsorption was established for the first time. Propranolol and metoprolol acted as model drugs to evaluate the enantioseparation performance, these two basic drugs achieved baseline separation with satisfactory resolution and selection factor in this transfersomes-electrochromatography system but only partial separation in bare column system. In order to get the optimal separation condition, concentration of chiral selector, buffer pH, and applied voltage were systematically investigated. A rapid and efficient enantioseparation electrochromatography system was established and showed that transfersomes as the stationary phase could efficiently improve chiral separation effect.     

MicroRNA-197-3p mediates damage to human coronary artery endothelial cells via targeting TIMP3 in Kawasaki disease

Kawasaki disease (KD) causes cardiovascular system injury in children. However, the pathogenic mechanisms of KD have not been well defined. Recently, strong correlation between aberrant microRNAs and KD nosogenesis has been revealed. A role of microRNA-197-3p (miR-197-3p) in the pathogenesis of KD is identified in the present study. Cell proliferation assay showed human coronary artery endothelial cells (HCAECs) were suppressed by serum from KD patients, which was correlated with high levels of miR-197-3p in both KD serum and HCAECs cultured with KD serum. The inhibition of HCAECs by miR-197-3p was confirmed by cells expressing miR-197-3p mimic and miR-197-3p inhibitor. Comparative proteomics analysis and Ingenuity Pathway Analysis (IPA) revealed TIMP3 as a potential target of miR-197-3p, which was demonstrated by western blot and dual-luciferase reporter assays. Subsequently, by detecting the endothelium damage markers THBS1, VWF, and HSPG2, the role of miR-197-3p/TIMP3 in KD-induced damage to HCAECs was confirmed, which was further validated by a KD mouse model in vivo. The expressions of miR-197-3p and its target, TIMP3, are dramatically variational in KD serum and HCAECs cultured with KD serum. Increased miR-197-3p induces HCAECs abnormal by restraining TIMP3 expression directly. Hence, dysregulation of miR-197-3p/TIMP3 expression in HCAECs may be an important mechanism in cardiovascular endothelium injury in KD patients, which offers a feasible therapeutic target for KD treatment.

     

转HSSP基因大豆的分子检测和遗传稳定性分析

HSSP是用大豆密码子改造的10 kD玉米醇溶蛋白基因。在前期研究中,从获得的转基因大豆中筛选到1份单拷贝转基因材料GSDH5。该研究采用染色体步移法获取转基因大豆GSDH5的T-DNA插入位点的左边界旁侧序列,对获得的左边界旁侧序列进行分析,设计特异性引物,建立转基因大豆GSDH5特异性检测方法;采用Real-time PCR检测外源基因在转基因大豆不同组织部位(根、茎、叶、花和种子)中的表达量,采用RT-PCR和Western blot检测外源基因在转录和翻译水平上的遗传稳定性,并对转基因大豆GSDH5中的粗蛋白、含硫氨基酸含量及主要农艺性状进行测定分析,为培育高含硫氨基酸转基因大豆新品种奠定基础。结果表明:(1)分子鉴定显示,外源基因HSSP和筛选标记基因Bar成功整合到受体大豆‘东农50’基因组中,且以单拷贝的形式整合到大豆基因组中。(2)HSSP基因成功插入到大豆基因组1号染色体非编码区52 873 883 bp处。(3)HSSP基因在转基因大豆GSDH5的种子中特异性表达,且在T_2～T_4代转基因大豆中能够稳定遗传并表达。(4)‘东农50’粗蛋白含量在41.53%～43.32%之间,GSDH5粗蛋白含量在40.18%～43.03%之间,两者相比无显著差异;GSDH5种子中硫氨基酸占种子干样的比例为1.35%,占种子蛋白的比例为3.14%,与转基因受体品种‘东农50’相比,占比显著升高,分别增加了11%和16%。(5)转基因大豆GSDH5植株与受体品种‘东农50’在单株荚数、百粒重、株高、结荚习性、花色、叶形等方面均无显著差异,证明HSSP基因的插入对大豆植株的生长发育无不良影响。研究认为,转基因大豆GSDH5材料具备进一步培育成高含硫氨基酸大豆新品种的潜力。     

龙眼组蛋白去乙酰化酶基因DlHDT1的克隆与特性分析

组蛋白去乙酰化是植物表观遗传调控的重要组成部分,对染色体结构修饰和基因表达调控发挥着重要的作用。为深入探究组蛋白去乙酰化酶基因(histone deacetylase 1,HDT1)在龙眼体胚发生过程中的功能,该研究结合龙眼基因组数据,采用RT-PCR方法克隆得到龙眼组蛋白去乙酰化酶基因(DlHDT1),对其进行生物信息学分析及亚细胞定位观察,同时结合转录组数据分析DlHDT1在体胚发生过程中的FPKM值,并利用qRT-PCR技术检测PEG6000和NaCl处理下DlHDT1的表达模式。结果表明:(1)DlHDT1基因CDS序列全长918 bp,编码305个氨基酸,该蛋白为不稳定亲水性蛋白,不含信号肽和跨膜结构,共含43个磷酸化位点,相对分子量为32 585.54 Da,等电点为4.65;进化树分析显示龙眼DlHDT1与漾濞槭亲缘关系最近(78.76%)。(2)亚细胞定位显示,DlHDT1蛋白定位于细胞核中;顺式作用元件分析发现DlHDT1基因含有大量光响应元件和脱落酸、茉莉酸甲酯等激素及逆境胁迫响应元件;转录组数据显示,DlHDT1在龙眼体胚发生不同时期均有表达,在胚性愈伤组织(EC)阶段表达最低,在球形胚(GE)阶段表达最高。(3)qRT-PCR显示,在PEG6000和NaCl处理下DlHDT1基因,呈下调表达趋势,推测DlHDT1可能参与调控龙眼对干旱及盐胁迫的响应,并存在负调控关系。研究认为,DlHDT1为核定位基因,可能参与龙眼体胚形态建成并在龙眼响应非生物逆境胁迫过程中发挥重要作用。