Computational and Experimental Investigation of the Antimicrobial Peptide Cecropin XJ and its Ligands as the Impact Factors of Antibacterial Activity

Cecropin XJ, as a heat stable antimicrobial peptide (AMP), displayed broad bacteriostatic activities, effectively inhibited proliferation of cancer cells and induced cell apoptosis in vitro. However, it exhibited little hemolytic activity and very low cytotoxicity to erythrocytes and normal cells. Although exerts multiple remarkable bioactivities, the refined molecular conformation of native Cecropin XJ remains unsolved. The aim of the present study is to comprehensively investigate the physicochemical characteristics and structure-function relationship of this antimicrobial peptide by using a series of bioinformatics and experimental approaches. In this study, we revealed that the mature Cecropin XJ consists of 41 amino acids, containing two α-helical structures from Lys⁷ to Lys²⁵ and from Ala²⁹ to Ile³⁹. The phylogenetic tree indicated that Cecropin XJ belongs to the Class I AMPs of cecropin family. Hydrophobic analysis showed Cecropin XJ is a typical amphiphilic molecule. The surface of Cecropin XJ was found to have a much wide range of electrostatic potential from ?83.243 to +83.243. The amphipathicity and surface potential of Cecropin XJ partially supported the AMP pore-forming hypothesis. Scanning electron microscopy experimentally confirmed the damages of Cecropin XJ to microbial membrane. Four predicted docking sites respectively for magnesium ion (Mg²⁺), adenosine diphosphate (ADP), bacteriopheophytin (BPH), and guanosine triphosphate (GTP) were found on the surface of Cecropin XJ. Thereinto, Mg²⁺ was experimentally proved to suppress the antibacterial activity of Cecropin XJ; both GTP and ADP enhanced the bactericidal activities to varying degrees. The present study provides a foundation for further investigation of molecular evolution, structural modification, and functional mechanisms of Cecropin XJ.     

Effect of a Low-Protein Diet Supplemented with Ketoacids on Skeletal Muscle Atrophy and Autophagy in Rats with Type 2 Diabetic Nephropathy

A low-protein diet supplemented with ketoacids maintains nutritional status in patients with diabetic nephropathy. The activation of autophagy has been shown in the skeletal muscle of diabetic and uremic rats. This study aimed to determine whether a low-protein diet supplemented with ketoacids improves muscle atrophy and decreases the increased autophagy observed in rats with type 2 diabetic nephropathy. In this study, 24-week-old Goto-Kakizaki male rats were randomly divided into groups that received either a normal protein diet (NPD group), a low-protein diet (LPD group) or a low-protein diet supplemented with ketoacids (LPD+KA group) for 24 weeks. Age- and weight-matched Wistar rats served as control animals and received a normal protein diet (control group). We found that protein restriction attenuated proteinuria and decreased blood urea nitrogen and serum creatinine levels. Compared with the NPD and LPD groups, the LPD+KA group showed a delay in body weight loss, an attenuation in soleus muscle mass loss and a decrease of the mean cross-sectional area of soleus muscle fibers. The mRNA and protein expression of autophagy-related genes, such as Beclin-1, LC3B, Bnip3, p62 and Cathepsin L, were increased in the soleus muscle of GK rats fed with NPD compared to Wistar rats. Importantly, LPD resulted in a slight reduction in the expression of autophagy-related genes; however, these differences were not statistically significant. In addition, LPD+KA abolished the upregulation of autophagy-related gene expression. Furthermore, the activation of autophagy in the NPD and LPD groups was confirmed by the appearance of autophagosomes or autolysosomes using electron microscopy, when compared with the Control and LPD+KA groups. Our results showed that LPD+KA abolished the activation of autophagy in skeletal muscle and decreased muscle loss in rats with type 2 diabetic nephropathy.     

Long non‐coding RNA SNHG6 promotes cell proliferation and migration through sponging miR‐4465 in ovarian clear cell carcinoma

Dysregulation of small nucleolar RNA host gene 6 (SNHG6) exerts critical oncogenic effects and facilitates tumourigenesis in human cancers. However, little information about the expression pattern of SNHG6 in ovarian clear cell carcinoma (OCCC) is available, and the contributions of this long non‐coding RNA to the tumourigenesis and progression of OCCC are unclear. In the present study, we showed via quantitative real‐time PCR that SNHG6 expression was abnormally up‐regulated in OCCC tissues relative to that in unpaired normal ovarian tissues. High SNHG6 expression was correlated with vascular invasion, distant metastasis and poor survival. Further functional experiments demonstrated that knockdown of SNHG6 in OCCC cells inhibited cell proliferation, migration and invasion in vitro as well as tumour growth in vivo. Moreover, SNHG6 functioned as a competing endogenous RNA (ceRNA), effectively acting as a sponge for miR‐4465 and thereby modulating the expression of enhancer of zeste homolog 2 (EZH2). Taken together, our data suggest that SNHG6 is a novel molecule involved in OCCC progression and that targeting the ceRNA network involving SNHG6 may be a treatment strategy in OCCC.     

小檗碱通过抑制经典的NLRP3炎症小体活化通路来下调LPS诱导的HUVEC炎症反应*

目的:探讨小檗碱(Berberine, Ber)对脂多糖(Lipopolysaccharide, LPS)诱导的人脐静脉血管内皮细胞(Human Umbilical VeinEndothelial Cells, HUVEC)炎症反应的抑制作用及相关机制。方法:MTT法检测不同浓度的Ber对HUVEC存活率的影响。以0.05μg/mL LPS刺激HUVEC建立炎症反应模型,并分别给予1.25、2.5、5μM Ber干预,Elisa检测Ber对炎症因子TNF-α、IL-1β分泌的影响,免疫印迹法检测Ber对NLRP3炎症小体信号通路中NLRP3、My D88、IL-1β、TLR4、ASC和Caspase-1蛋白表达的影响。结果:不同浓度的Ber对HUVEC增殖均具有抑制作用,且基本呈现浓度梯度,IC50值接近5μM;与LPS组相比,不同浓度Ber(1.25、2.5、5μM)均可以显著下调HUVEC中TNF-α、IL-1β炎症因子的分泌(P0.005及P0.01),并可以显著抑制细胞中NLRP3、My D88、IL-1β、TLR4、ASC和Caspase-1蛋白的表达(P0.05),其抑制作用基本呈剂量关系,以5μM Ber的抑制效果最佳。结论:Ber可以通过抑制经典的NLRP3炎症小体活化通路来下调LPS诱导的HUVEC炎症反应。     

反硝化基因工程菌株YP4S的构建及对污水除氮特性研究

从养殖场污泥中筛选出菌株YP4,经16S rDNA分子发育树的同源序列比对,确定为克雷伯什菌属(Klebsiella sp.)。由NCBI数据库查编码亚硝酸还原酶(Nir)的基因nirS序列,设计引物,以铜绿假单胞菌PAOI基因组DNA为模板,应用PCR技术扩增目的片段nirS,经过双酶切、克隆和转化,得到重组质粒pYP4S,然后转化野生菌株YP4,构建反硝化基因工程菌YP4S。菌株生长曲线测定表明,工程菌株YP4S与YP4的生长特性基本一致。工程菌株YP4S对模拟污水COD、TN、NH_4^+-N和NO_3^--N具有较高的去除率,YP4S与YP4相比,对NO_2^--N积累的减少量为(32.44±3.96)%,明显减少了NO_2^--N的积累。通过正交试验获得工程菌株YP4S在C/N=10、T=30℃、r=200 r/min和pH=7.0的最佳组合条件下,对模拟污水TN去除率较高。应用工程菌株YP4S处理猪场沉淀池的实际污水,COD、TN、TP、NH_4^+-N和NO_3^--N去除率分别为(95.87±0.82)%、(76.38±3.84)%、(97.13±0.54)%和(75.35±2.57)%,NO_2^--N积累量为(3.31±1.24) mg/L,表明工程菌株YP4S具有较好反硝化作用,对含氮量高的实际污水修复具有潜在的应用前景。     

家蝇介导的水稻基因逃逸风险评估(英文)

【目的】对转基因作物进行生态风险评估是大面积种植前的一个必要步骤,水稻Oryza sativa访花昆虫有上百种,包括家蝇Musca domestica。本研究旨在明确访花昆虫家蝇介导转基因水稻外源基因逃逸的风险。【方法】2010年,我们使用转基因水稻B1, B6和G8-7作为父本(花粉供体),用同源非转基因水稻Jiazao 935和Wuyunjing 7作为母本（花粉受体）,并用家蝇作为授粉昆虫,在浙江大学华家池和长兴试验基地开展了田间种植试验,对收割的后代水稻种子进行室内种植培养,对种苗用潮霉素B和草甘膦处理进行转基因杂交种检测,对存活植株进行潮霉素和草甘膦抗性基因PCR检测,测试家蝇介导的转基因水稻外源基因逃逸频率。【结果】对浙江两个测试基地3个转基因水稻品种共计超过216 500粒后代水稻种子进行的检测及结果表明,在毗邻区域杂交种少,家蝇授粉区和无家蝇授粉区转基因水稻外源基因向非转基因水稻逃逸频率均较低(0~0.64%)。【结论】家蝇介导的转基因水稻外源基因逃逸频率较低,家蝇没有增加转基因水稻外源基因逃逸的风险。     

阿托伐他汀钙片治疗急性冠脉综合征的临床疗效

目的:探讨阿托伐他片汀治疗急性冠脉综合征(ACS)的临床疗效。方法:选择2013年3月至2013年12月我院收治的156例ACS患者,按随机字数表法分为实验组和对照组各78例,两组均采取常规治疗,实验组在此基础上加用阿托伐他汀钙片,对照组则用辛伐他汀滴丸。对比两组治疗效果及心血管事件发生率。结果:两组治疗后总胆固醇(TC)、甘油三酯(TG)、低密度脂蛋白胆固醇(LDL-C)、血清高敏C反应蛋白(hs-CRP)、纤维蛋白原(Fg)和尿酸水平均明显下降,且实验组下降更明显,比较差异均有统计学意义(P0.05);治疗期间实验组心血管事件发生率率为8.97%(7/78),显著低于对照组的24.36%(19/78),比较差异均有统计学意义(P0.05)。结论:阿托伐他汀片治疗ACS的临床效果优于辛伐他汀滴丸,能有效降低心血管事件的发生,值得的临床推广。     

姜黄素激活AMPK抑制高糖介导的氧化应激水平升高致血管内皮功能障碍

目的:探索姜黄素对高糖介导的血管氧化应激水平的升高和血管功能的保护作用未知及相关的机制。方法:以高糖DMEM培养基复制人脐静脉内皮细胞(HUVECs)的高糖损害模型。姜黄素干预24h后以DHE荧光探针分析姜黄素对高糖介导的活性氧产生的影响;分离健康C57BL/6J小鼠胸主动脉,以高糖DMEM培养基进行体外培养制作高糖介导的血管损害模型,分析姜黄素对高糖介导的血管功能的影响。利用western blotting方法检测血管内皮细胞中p-e NOS及p-AMPK的表达水平。结果:姜黄素可显著减少高糖介导的血管内皮细胞活性氧水平,该作用在给予AMPK抑制剂后显著降低;姜黄素可显著促进高糖环境血管内皮细胞e NOS的磷酸化并可显著改善高糖环境下小鼠胸主动脉的血管内皮依赖性舒张功能。Western blotting结果表明,姜黄素可显著增加p-AMPK的表达。结论:姜黄素显著减轻高糖血管内皮细胞的氧化应激水平,改善血管内皮依赖性舒张功能,而该作用可能与其通过激活AMPK/e NOS通路有关。