活性氮在缺血性脑中风中的作用研究进展

以自由基为代表的小分子活性物质对于维持生物体正常的生理功能起着不可或缺的作用,但在包括中风的多种病理状态下,过量的小分子活性物质由于其高活性、强氧化性可对人体内的组织器官造成严重损伤.活性氧和活性氮是两种重要的小分子活性物质,并且活性氮在中风的发病机制中的作用备受关注,是近年研究的热点之一.本文就近年来活性氮在中风中的生理性与病理性的作用进行综述及展望.     

活性氮、活性氧及植物激素在种子休眠解除中的作用及相互关系研究进展

休眠是植物种子对环境变化的适应机制,其机理至今未完全清楚阐明。前期对种子休眠机制的研究主要集中在激素调节上,近期的研究结果表明,一氧化氮（nitric oxide,NO）参与打破种子的休眠,并与其所引起的种子中活性氧的变化有关。本文简要综述活性氮（reactive nitrogen species,RNS）、活性氧（reactive oxygen species,R0s）和植物激素在种子休眠解除中的作用及相互关系研究进展。     

SEF14菌毛基因操纵子在肠炎沙门氏菌和D-群沙门氏菌的变异分析

【目的】本文旨在探索SEF14菌毛特异性表达于D-群沙门氏菌,特别是肠炎沙门氏菌以及都柏林沙门氏菌的原因。【方法】应用PCR扩增以及序列测定检测了18株鸡白痢沙门氏菌,11株肠炎沙门氏菌以及1株都柏林沙门氏菌标准株中sefA,sefD和sefR基因序列,并分析比对其序列变异。【结果】以11株肠炎沙门氏菌以及1株都柏林沙门氏菌染色体DNA为模板能成功扩增sefA,sefD以及sefR基因;从18株鸡白痢沙门氏菌中均能成功扩增sefA基因,但只有分离于1980年之前的7株分离菌能成功扩增sefD和sefR基因,而另11株1980年后分离菌PCR扩增sefD和sefR基因却无任何产物。比对PCR扩增产物测序结果发现,11株肠炎沙门氏菌以及1株都柏林沙门氏菌株中sefA,sefD以及sefR基因序列和已发表的序列(GenBank登录号为L11008,U07129和AF233854)100%同源;7株鸡白痢沙门氏菌sefD基因测序结果表明,在196位点处发生碱基缺失,造成移码突变,提前于氨基酸残基71位点处产生终止密码子。优化菌毛表达条件,体外抽提和纯化菌毛并进一步试验证明:肠炎沙门氏菌以及都柏林沙门氏菌体外能很好表达SEF14菌毛,但鸡白痢沙门氏菌在相同培养条件下却无任何表达迹象。【结论】SEF14菌毛操纵子亚单位基因sefA,sefD以及调节基因sefR在不同沙门氏菌中的变异情况可能是SEF14菌毛局限性表达的原因之一。     

非编码小RNA(sraB)调控肠炎型沙门菌的抗蛋清抑菌作用

【目的】肠炎型沙门菌是一种食源性人畜共患病病原菌,可在禽蛋中存活并传播。sRNA为新近发现的基因表达调控分子,本实验以sRNA(sraB)为对象,探索sRNA与肠炎型沙门菌在禽蛋中存活的相关性,及研究其在细菌抵抗蛋清抑菌作用中的调控功能。【方法】参考已报道的沙门菌全基因组及sraB序列,设计并扩增sraB突变用基因片段,运用Red重组系统(red recombination system)对肠炎沙门菌野生株(SE2472)sraB基因进行定点敲除,构建出sraB敲除株(SE2472ΔsraB)。分析比较sraB敲除对沙门菌在蛋清中存活的影响;另构建表达sraB的回复表达质粒pHDB3-sraB,将其转入sraB敲除株构建回复株SE2472ΔsraB-comp,以回复表达sraB,分析sraB表达对沙门菌敲除株的回复作用;并分别以野生株、敲除株及回复株研究sraB在抵抗蛋清中几种抑菌因子(如溶菌酶和卵转铁蛋白)作用中可能的调控作用。【结果】敲除株在蛋清中存活率为野生型的61%-70%,回复株相比野生型的存活率比敲除株提高10%-33%;在转铁蛋白抑菌实验中,孵育8h和24h,敲除株的存活率分别为野生型存活率的38%和23%,孵育8h回复株相比野生型的存活率比敲除株提高15%,但孵育24h回复株的存活率未见提高;在溶菌酶抑菌实验中,孵育8h和24h后,敲除株存活率分别为野生型的41%和27%,回复株相比野生型的存活率分别比敲除株提高35%和23%。【结论】通过比较sraB敲除与否,研究肠炎型沙门菌在禽蛋中的存活及对抑菌因子的抵抗作用,结果表明sraB在肠炎沙门菌抵抗蛋清抑菌作用中起着重要调控功能。     

抗肠炎沙门氏菌单链抗体制备及其特异性分析

目的:利用基因工程技术制备抗肠炎沙门氏菌的单链抗体.方法:从抗肠炎沙门氏菌单克隆抗体的杂交瘤细胞中纯化RNA,反转录后扩增出抗体的重链可变区(VH)和轻链可变区(VL)基因片段,采用重叠延伸的方法,用柔性多肽Linker接头(Gly4 Ser)3按VL-Linker-VH方式将VH基因和VL基因拼接成单链抗体基因片段后,连接到pGEX-4T-1载体上,进行重组转化.挑取阳性克隆,经IPTG诱导后,通过GST柱进行亲和层析,最后利用ELISA检测抗体的活性.结果:成功构建了表达抗肠炎沙门氏菌单链抗体的基因工程菌株,经SDS-PAGE和ELISA检测结果表明,诱导表达的单链抗体scFv分子量约为60 kDa,其能特异与肠炎沙门氏菌结合,但与副甲伤寒沙门氏菌、鸭沙门氏菌、鼠伤寒沙门氏菌有轻度交叉反应.结论:成功构建了抗肠炎沙门氏菌单链抗体的表达菌株,表达的单链抗体scFv可作为沙门氏菌的检测的候选抗体分子.     

PCR技术在快速检测沙门氏菌中的应用

本文总结了PCR检测沙门氏菌过程中被检目标基因的选择、引物的特异性以及国内外检测沙门氏菌的一些实例,分析了PCR检测沙门氏菌在引物选择上存在的问题,简述了在传统PCR技术基础上发展起来的检测沙门氏菌新方法。     

鸡源沙门氏菌(Salmonella)致病基因与致病性的相关性研究

为分析沙门氏菌分离株致病基因与致病性之间的关系,采集经分离鉴定的55株鸡源沙门氏菌,应用PCR方法检测毒力基因,通过小鼠致病试验检测致病性。结果显示,所检测的质粒毒力基因spvR、spvA、spvB、spvC、spvD,检出率均在60%以上;所检测的毒力岛毒力基因invH、sipA、sipB、sopA、sopD、avrA、hilA、iacP、prgK、ssaB、ssaQ、sifA、sseL、ssrA、ttrB、mgtC、misL、rmbA、rhuM、sugR、orf319、siiD、siiE、spi4H、sopB和pipC中,ttrB检出率最高,为92.73%,sifA检出率最低,为5.45%。55株分离株对小鼠均具有致病性,致死率为20%～100%;随机测定其中10株的半数致死量(LD_(50)),为4×10~7～3.18×10~8CFU/mL,毒力基因检出数量越多的分离株,其LD_(50)值越小,毒力越强。本研究结果揭示,鸡源致病性沙门氏菌分离株普遍携带毒力基因,其毒力基因与致病性之间呈现正相关,为深入研究沙门氏菌的致病机理提供基础数据。     

MnSOD在细胞氧应激中的作用

ＭｎＳＯＤ在细胞氧应激中的作用孙娟＊陈瑗＊周玫＊葛忠良＊＊（＊第一军医大学自由基医学研究室,广州５１０５１５;＊＊军事医学科学院放射医学研究所,北京１００８５０）关键词锰超氧化物歧化酶电离辐射肿瘤活性氧需氧生物总是不断暴露于氧损伤的危险之中,这种危险...     

一种温敏复制缺陷T载体的构建及在鸡白痢沙门氏菌基因敲除中的应用

基因敲除是基因功能研究的重要手段,载体是基因敲除的工具和核心。为获得有效的基因敲除载体以快速构建基因突变株及鉴定相应基因的必需性,在已有温敏复制缺陷pIDM1质粒的基础上,于EcoRⅠ和PstⅠ位点间插入串联的XcmⅠ酶切位点接头,构建了pIDM-T质粒;该质粒经XcmⅠ酶切可获得末端突出T的线性化pIDM-T载体。在验证了pIDM-T质粒复制的温敏特性基础上,应用构建的T载体克隆鸡白痢沙门氏菌CVCC527菌株的eno和ybdr两个基因,鉴定获得pIDM-T_eno和pIDM-T_ybdr两个重组质粒;将重组质粒转化527菌株,经IPC(Integration rate per cell)值计算,鉴定eno为必需基因,ybdr为非必需基因。挑取非必需ybdr基因527菌株重组菌(SalΔybdr),经PCR和测序,确认突变菌株重组位点的正确性。pIDM-T载体可快速克隆PCR产物,用于沙门氏菌的基因敲除及必需性鉴定,为沙门氏菌基因功能研究提供了一种有效快速的手段。     

人精子膜蛋白片段在沙门氏菌中的表达——一种制备抗生育疫苗的途径(英文)

合成编码一种人精子膜蛋白YWK-Ⅱ胞外区的一段多肽片段的双链寡核昔酸链,HSD—2a。用平端连接的方法将其插入到沙门氏菌鞭毛基因fliC(d)的抗原表位IV高变区EcoRV位点,构建了重组质粒pLS408-H1。重组基因在鞭毛负性aroA基因缺失的无致病性沙门氏菌S.dublin SL5928疫苗菌株中表达。经ELISA、电镜免疫胶体金法检测,表明HSD-2a编码的多肽片段成功地在沙门氏菌鞭毛表面表达。融合鞭毛蛋白分子量约为60kD。Western-Blot法检测,提纯的融合鞭毛蛋白与YWK-Ⅱ小鼠抗血清只在60 kD处出现一条结合带。携带重组质粒pLS408—H1的沙门氏菌疫苗菌株极有可能成为抗生育疫苗。     

Competition among isolates of Salmonella enterica ssp. enterica serovar Typhimurium: role of prophage/phage in archived cultures

Previously, we reported extensive diversity among survivors of Salmonella enterica ssp. enterica serovar Typhimurium that were stored for four decades in sealed agar stabs. Thus raising the question: was there selection for greater fitness among eventual survivors? To address this, we cocultured archived LT2 survivors with nonarchived (parental) LT2 strains in competition experiments. Selected archived strains outgrew a nonarchived LT2 sequenced strain. Although we initially assumed this was the result of mutations empowering greater nutritional utilization, we found phage selection was also involved. Phage fels- 1 and fels- 2 in supernatants were identified by primer/PCR as a putative selective force following single plaque isolations on a prophage-free strain and testing on appropriate hosts. In confirmatory experiments, instead of coculture in Luria–Bertani requiring antibiotic marker insertions, competing strains without markers were inoculated at opposite edges of motility plates. Not only did the archived LT2 population overgrow the nonarchived LT2 population, but also clear zones appeared at edges of encounters from which phage fels- 1 and fels- 2 (but not gifsy- 1 nor gifsy- 2) were recovered. However, in competitions of an archived strain with S . Typhimurium ATCC 14028, phage emerged that had a DNA base sequence segment of prophage ST64B but the sequence differed from the reported homologous segment in ST64B.     

Development of a real-time PCR assay for detection of gyrA mutations associated with reduced susceptibility to ciprofloxacin in Salmonella enterica serovar typhi and paratyphi A

A real-time PCR assay with the cycling probe method was used to detect mutations at codons 83 and 87 in the DNA gyrase A subunit encoded by gyrA in Salmonella enterica serovar Typhi and Paratyphi A clinical isolates. The susceptibility estimated from the results of the gyrA mutation assay was consistent with that identified by the culture method using an E-test. This assay allows rapid screening of S. enterica serovar Typhi and Paratyphi A with reduced susceptibility to ciprofloxacin.     

两步PCR介导的Red重组技术快速敲除鼠疫耶尔森菌sRNA及染色体大片段

【目的】利用Red同源重组系统,通过二步PCR法建立一种适合鼠疫耶尔森菌s RNA和大片段染色体基因敲除的方法。【方法】第一步PCR先扩增出目的基因的上、下游同源臂(600–1000 bp)及卡那抗性盒,再以上、下游同源臂及卡那抗性盒等摩尔混合物为模板,通过融合PCR获得含上下游同源臂及卡那抗性盒的线性突变盒,再将此突变盒的PCR产物电转到含有pKD46质粒的鼠疫201菌株,在阿拉伯糖的诱导下,p KD46质粒表达Red重组酶,促使卡那抗性盒替换目的基因,最后对获得的重组克隆进行PCR鉴定。【结果】本研究通过两步PCR法构建600–1000 bp的同源臂,提高了同源重组效率,并将鼠疫菌sRNA RyhB1(108 bp)和RyhB2(106 bp)和染色体大片段47-2(10.4 kb)、47-3(21.6 kb)、47-3a(9.2 kb)及47-3b(6.1 kb)成功敲除。【结论】基于Red重组系统构建的二步法突变技术,是一种简单、高效的精确修饰鼠疫菌s RNA及大片段染色体的方法,适合于鼠疫菌全基因组的基因敲除,为鼠疫菌基因表达与调控、致病和毒力等研究提供有力的工具。     

Pathogenicity of clinical Salmonella enterica serovar Typhimurium isolates from Thailand in a mouse colitis model

Salmonella enterica serovar Typhimurium (S. Typhimurium [STM]) is a leading cause of nontyphoidal salmonellosis (NTS) worldwide. The pathogenesis of NTS has been studied extensively using a streptomycin-pretreated mouse colitis model with the limited numbers of laboratory STM strains. However, the pathogenicity of the clinically isolated STM (STMC) strains endemic in Thailand in mice has not been explored. The aim of this study was to compare the pathogenicity of STMC strains collected from Northern Thailand with the laboratory STM (IR715) in mice. Five STMC isolates were obtained from the stool cultures of patients with acute NTS admitted to Maharaj Nakorn Chiang Mai Hospital in 2016 and 2017. Detection of virulence genes and sequence type (ST) of the strains was performed. Female C57BL/6 mice were pretreated with streptomycin sulfate 1 day prior to oral infection with STM. On Day 4 postinfection, mice were euthanized, and tissues were collected to analyze the bacterial numbers, tissue inflammation, and cecal histopathological score. We found that all five STMC strains are ST34 and conferred the same or reduced pathogenicity compared with that of IR715 in mice. A strain-specific effect of ST34 on mouse gut colonization was also observed. Thailand STM ST34 exhibited a significant attenuated systemic infection in mice possibly due to the lack of spvABC-containing virulence plasmid.     

The role of reduced pterins in resistance to reactive oxygen and nitrogen intermediates in the protozoan parasite Leishmania

During its life cycle, the protozoan parasite Leishmania experiences oxidative stress when interacting with macrophages. Reduced pterins are known scavengers of reactive oxygen and nitrogen intermediates. Leishmania has a pteridine reductase, PTR1, whose main function is to provide reduced pterins. We investigated the role of PTR1 in resistance to oxidative and nitrosative stress in Leishmania tarentolae, Leishmania infantum, and Leishmania major PTR1^?/? mutants. The PTR1^?/? cells of the three species were more sensitive to H₂O₂- and NO-induced stress. Using a fluorescent probe allowing ROI quantification, we demonstrated an increase in intracellular oxidant molecules in the PTR1^?/? mutants. The disruption of PTR1 increased metacyclogenesis in L. infantum and L. major. We purified metacyclic parasites from PTR1^?/? mutants and control cells and tested their intracellular survival in the J774 mouse cell line and in human monocyte-derived macrophages. Our results showed that PTR1^?/? null mutants survived less in both macrophage models compared to control cells and this decrease was more pronounced in macrophages activated for oxidant production. This study demonstrates that one physiological role of reduced pterins in Leishmania is to deal with oxidative and nitrosative species, and a decreased ability to provide reduced pterins leads to decreased intracellular survival.     

The protective effect of Bdellovibrio‐and‐like organisms (BALO) on tilapia fish fillets against Salmonella enterica ssp. enterica serovar Typhimurium

Aims: To characterize freshwater Bdellovibrio‐and‐like organisms (BALO) isolated in China and examine their potential in controlling growth of Salmonella enterica ssp. enterica serovar Typhimurium on tilapia fillets. Methods and Results: Four BALO isolates were recovered from a pond in Yanzhou of Shandong province, China, with Salm. Typhimurium as prey using double‐layer agar method. Partial 16S rDNA sequencing analysis identified BD2GL, BD5GL and BDXGL as Bdellovibrio bacteriovorus and BD2GS as a Peredibacter sp. Lysis experiments on 32 potentially pathogenic strains revealed that BALO lysis rates are in the range of 56·3–65·6%. On the five Salmonella strains tested, only BD2GS achieved 100% lysis rate. When applied on tilapia fillets against Salm. Typhimurium, BD2GS showed its growth control potential. Cell increments of Salm. Typhimurium were significantly lower (P < 0·05) in two BD2GS‐treated groups compared to control and low‐dose group (BD2GS to prey ratio, 1 : 1) was more effective than high‐dose group (BD2GS to prey ratio, 10 : 1) in controlling Salm. Typhimurium growth. Conclusions: Results of this study indicated that BD2GS could control Salm. Typhimurium growth on tilapia fillets. Significance and Impact of the Study: BALO could be used as a live protective culture in controlling bacterial growth and ensure food safety.     

Protective effect of Lactobacillus casei strain Shirota against lethal infection with multi-drug resistant Salmonella enterica serovar Typhimurium DT104 in mice

Aims: The anti‐infectious activity of lactobacilli against multi‐drug resistant Salmonella enterica serovar Typhimurium DT104 (DT104) was examined in a murine model of an opportunistic antibiotic‐induced infection. Methods and Results: Explosive intestinal growth and subsequent lethal extra‐intestinal translocation after oral infection with DT104 during fosfomycin (FOM) administration was significantly inhibited by continuous oral administration of Lactobacillus casei strain Shirota (LcS), which is naturally resistant to FOM, at a dose of 10⁸ colony‐forming units per mouse daily to mice. Comparison of the anti‐Salmonella activity of several Lactobacillus type strains with natural resistance to FOM revealed that Lactobacillus brevis ATCC 14869^T, Lactobacillus plantarum ATCC 14917^T, Lactobacillus reuteri JCM 1112^T, Lactobacillus rhamnosus ATCC 7469^T and Lactobacillus salivarius ATCC 11741^T conferred no activity even when they obtained the high population levels almost similar to those of the effective strains such as LcS, Lact. casei ATCC 334^T and Lactobacillus zeae ATCC 15820^T. The increase in concentration of organic acids and maintenance of the lower pH in the intestine because of Lactobacillus colonization were correlated with the anti‐infectious activity. Moreover, heat‐killed LcS was not protective against the infection, suggesting that the metabolic activity of lactobacilli is important for the anti‐infectious activity. Conclusion: These results suggest that certain lactobacilli in combination with antibiotics may be useful for prophylaxis against opportunistic intestinal infections by multi‐drug resistant pathogens, such as DT104. Significance and Impact of the Study: Antibiotics such as FOM disrupt the metabolic activity of the intestinal microbiota that produce organic acids, and that only probiotic strains that are metabolically active in vivo should be selected to prevent intestinal infection when used clinically in combination with certain antibiotics.     

Nitric oxide-induced membrane tubulovesicular extensions (cytonemes) of human neutrophils catch and hold Salmonella enterica serovar Typhimurium at a distance from the cell surface

Nitric oxide (NO) plays an important role in host defense against bacterial infections such as salmonellosis. NO and 4-bromophenacyl bromide (BPB) induce the formation of long tubulovesicular extensions (TVE, cytonemes, membrane tethers) from human neutrophils. These TVE serve as cellular sensory and adhesive organelles. In the present study, we demonstrated that in the presence of the NO donor, diethylamine NONOate or BPB human neutrophils bound and aggregated Salmonella enterica serovar Typhimurium bacteria extracellularly by TVE. In contrast, inhibition of NO-synthase activity by N ^ω-nitro- l -arginine methyl ester stimulated neutrophil phagocytosis (ingestion) of bacteria. Neutrophil TVE consisted of membrane-covered cytoplasm as was shown by the fluorescent cytoplasmic dye 2',7'-bis(2carboxyethyl)-5,(6)-carboxyfluorescein, and the fluorescent lipid, BODIPY-labeled sulfatide. Disruption and shedding of TVE were accompanied by the appearance of specific invaginations (porosomes) on neutrophil cell bodies. These invaginations corresponded to the variations in diameter of TVE (160–240 nm). We hypothesized that TVE represented protrusions of neutrophil exocytotic trafficking through special structures on the neutrophil surface. In conclusion, we propose a novel mechanism by which NO-induced TVE formation enables neutrophils to bind and aggregate bacteria at a distance.