鼠伤寒沙门菌rtsB基因缺失株的构建及其生物学特性

【背景】鼠伤寒沙门菌(Salmonella typhimurium)是一种重要的人畜共患病原菌,严重危害养殖业及人类健康。调控蛋白在病原菌的生存及感染过程中发挥重要作用。【目的】构建鼠伤寒沙门菌调控基因rtsB缺失株和互补株,分析调控蛋白RstB对鼠伤寒沙门菌生物学特性和致病性的影响。【方法】利用Red同源重组的方法构建鼠伤寒沙门菌SAT52的rtsB基因缺失株,并利用互补质粒构建互补株。然后比较分析野生株SAT52、缺失株?rtsB和互补株C?rtsB的生长特性、运动性、生物被膜形成能力、黏附入侵能力、胞内存活能力及致病性的差异。【结果】缺失rtsB基因不影响SAT52的生长速度,但导致运动能力增强,生物被膜形成能力减弱。细胞感染试验结果表明,rtsB基因有助于鼠伤寒沙门菌对Hela细胞的黏附入侵及RAW264.7细胞内的存活。动物试验结果表明rtsB基因缺失显著降低鼠伤寒沙门菌的致病力。【结论】rtsB基因在鼠伤寒沙门菌感染过程中发挥重要作用,可为阐释鼠伤寒沙门菌的致病机制提供参考。     

Specific inhibition of phagosome-lysosome fusion in murine macrophages mediated by Salmonella typhimurium infection

Abstract Phagosome-lysosome fusion in murine macrophages infected with S. typhimurium LT2 or S. typhi 1079 was investigated. Fusion of phagosome containing S. typhimurium LT2 with lysosome was markedly impaired, whereas S. typhi 1079 did not inhibit phagosome-lysosome fusion in murine macrophages. A similar inhibition of fusion was observed with LPS-deficient mutants of S. typhimurium LT2, suggesting that O-antigens do not contribute to the inhibition of fusion. Phagosome-lysosome fusion in macrophages after ingestion of UV-killed S. typhimurium LT2 was much greater than that of live bacteria. Furthermore, treatment of S. typhimurium LT2 with streptomycin, an inhibitor of bacterial protein synthesis, caused an increase in the extent of phagosome-lysosome fusion. Therefore protein synthesis in live bacteria is probably required for the inhibition of phagosome-lysosome fusion. These results suggest that phagosome-lysosome fusion in murine macrophages is impaired by some product(s) of viable S. typhimurium LT2.     

鼠伤寒沙门氏菌asd基因的克隆及序列分析

以鼠伤寒沙门氏茵标准株基因组DNA作为模板,用PCR的方法扩增鼠伤寒沙门氏菌的asd基因并克隆入质粒pUCl9,并对其进行测序,序列与献报道一致。同时将质粒pYA248上的链球菌asd基因进行了置换,观察了分别含有链球菌asd基因与鼠伤寒沙门氏菌asd基因的质粒在减毒鼠伤寒沙门氏菌X4072中的生长情况,结果表明含有鼠伤寒沙门氏菌的asd基因的高拷贝质粒pUCl9的菌株生长情况更好。为完善染色体／质粒平衡致死系统,构建减毒鼠伤寒沙门氏活菌疫苗奠定了基础。     

一株猪源鼠伤寒沙门氏菌的耐药性鉴定及其消除

猪源鼠伤寒沙门氏菌临床分离株17Y,检测其对19种抗生素的耐药性,结果耐14种抗生素。用高温及高浓度SDS处理后,获得对11种抗生素的敏感性,该菌株命名为17S1。PCR检测证明,大部分耐药基因存在于质粒上,包括I型整合子携带耐药基因,且随着质粒的消除而被消除。所鉴定的耐药基因有blaTEM、blaOXA-1、cat1、tet(B)、aacC2、aadA8b、dhfrXⅡ和sul1等。喹诺酮类药物的靶基因gyrA与parC位于染色体上。GyrA在耐药决定区第87位氨基酸突变(N78D),导致了喹诺酮类药物的耐药性逆转。敏感菌中扩增不到质粒毒力基因spv与rck。耐药性消除后的菌株17S1对小鼠的毒力降低(LD50增加10倍),在小鼠体内的增长与散速度也显著降低(P<0.05)。以上证据表明,鼠伤寒沙门氏菌的多重耐药性主要由质粒决定,研究开发新型质粒消除剂将对克服鼠伤寒沙门氏菌多重耐药性具有重要意义。     

Salmonella typhimurium infection in high and low antibody responder mice: inverse correlation between antibody responsiveness and resistance to infection

Abstract Susceptibility to Salmonella typhimurium infection was compared in H (high Ab responder) and L (low Ab responder) mice obtained by several selective breeding experiments (Selections I, II, III, IV and IV A) [10,19,22]. H mice were always much more susceptible to infection than their L mice counterparts within a continuous LD 50 variation range. In three of the selections (I, II and IV A) the low responsiveness character is known to result mainly from rapid Ag degradation in L mice macrophages. It was hypothesized that resistance to multiplication of intracellular pathogens could be related to an increased catabolic activity towards Ag. This was actually demonstrated, in F₂ segregant hybrids of selection IV A, by the significant inverse correlation between capacity for Ab production and resistance to infection.     

鼠伤寒沙门菌baeSR基因缺失株的构建及其对抗生素敏感性分析

【背景】沙门菌的多重耐药现象日渐严重,对其耐药机理的研究尤为迫切,双组分系统与细菌耐药性密切相关。【目的】构建鼠伤寒沙门菌baeSR基因缺失株及回补株,探究双组分系统BaeSR对鼠伤寒沙门菌耐药性的影响。【方法】以鼠伤寒沙门菌体外诱导耐药株CR为研究对象,通过自杀质粒p LP12介导的同源重组方法,以氯霉素抗性标记和阿拉伯糖诱导的致死基因vmt进行正、反向双重筛选,获得基因缺失株CRΔbaeSR,并将重组表达质粒pBAD-baeSR转化于CRΔbaeSR构建回补株CR CΔbaeSR。采用微量肉汤稀释法测定11种常见代表药物对野生株、缺失株及回补株的最小抑菌浓度(Minimum inhibitory concentration,MIC),并测定3株菌的生长曲线、运动性及生物膜形成能力。【结果】与野生株相比,环丙沙星(CIP)、恩诺沙星(ENR)、沙拉沙星(SAR)、头孢噻呋(CEF)、庆大霉素(GEN)、阿米卡星(AMK)、安普霉素(APR)对缺失株的MIC值有所下降;缺失株的生长速率稍显缓慢,且最终浓度也相对较低,但并无统计学上的显著差异(P0.05);缺失株的运动性(P0.05)及生物膜形成能力(P0.01)均显著下降。【结论】鼠伤寒沙门菌baeSR基因缺失后,可通过影响其运动性及生物膜形成能力而对抗生素的敏感性产生影响。     

Quantitative proteomic identification of host factors involved in the Salmonella typhimurium infection cycle

To identify host factors involved in Salmonella replication, SILAC-based quantitative proteomics was used to investigate the interactions of Salmonella typhimurium with the secretory pathway in human epithelial cells. Protein profiles of Golgi-enriched fractions isolated from S. typhimurium-infected cells were compared with those of mock-infected cells, revealing significant depletion or enrichment of 105 proteins. Proteins annotated to play a role in membrane traffic were overrepresented among the depleted proteins whereas proteins annotated to the cytoskeleton showed a diverse behavior with some proteins being enriched, others being depleted from the Golgi fraction upon Salmonella infection. To study the functional relevance of identified proteins in the Salmonella infection cycle, small interfering RNA (siRNA) experiments were performed. siRNA-mediated depletion of a selection of affected proteins identified five host factors involved in Salmonella infection. Depletion of peroxiredoxin-6 (PRDX6), isoform β-4c of integrin β-4 (ITGB4), isoform 1 of protein lap2 (erbin interacting protein; ERBB2IP), stomatin (STOM) or TBC domain containing protein 10b (TBC1D10B) resulted in increased Salmonella replication. Surprisingly, in addition to the effect on Salmonella replication, depletion of STOM or ITGB4 resulted in a dispersal of intracellular Salmonella microcolonies. It can be concluded that by using SILAC-based quantitative proteomics we were able to identify novel host cell proteins involved in the complex interplay between Salmonella and epithelial cells.     

Dietary Bifidobacterium lactis (HN019) enhances resistance to oral Salmonella typhimurium infection in mice

The ability of a newly identified probiotic lactic acid bacterial strain, Bifidobacterium lactis (HN019), to confer protection against Salmonella typhimurium was investigated in BALB/c mice. Feeding mice with B. lactis conferred a significant degree of protection against single or multiple oral challenge with virulent S. typhimurium, in comparison to control mice that did not receive B. lactis. Protection included a ten-fold increase in survival rate, significantly higher post-challenge food intake and weight gain, and reduced pathogen translocation to visceral tissues (spleen and liver). Furthermore, the degree of pathogen translocation showed a significant inverse correlation with splenic lymphocyte proliferative responses to mitogens, blood and peritoneal cell phagocytic activity and intestinal mucosal anti-S. typhimurium antibody titers in infected mice; all of these immune parameters were enhanced in mice fed B. lactis. Together, these results suggest that dietary B. lactis can provide a significant degree of protection against Salmonella infection by enhancing various parameters of immune function that are relevant to the immunological control of salmonellosis. Thus dietary supplementation with B. lactis provides a unique opportunity for developing immune-enhancing probiotic dairy food products with proven health benefits.     

Virulence and mutation rates of Salmonella typhimurium strains with increased mutagenic strength in a mouse model

Two strains of Salmonella typhimurium presenting increased mutation rates, either spontaneous or mediated by DNA damage, have been constructed. One of the strains carries a null mutS mutation, while the other harbors plasmid pRW30, which contains the Escherichia coli umuDC operon. The virulence of these strains has been determined by inoculating BALB/c or Swiss mice. The 50% lethal dose of both strains is identical to that obtained for the wild-type. Likewise, the two strains and the wild-type contribute equally to animal death in mixed infections. The frequency of Nal(R) mutants recovered from animals inoculated with either wild-type or MutS(-) cells was not affected by the presence of pRW30. These results indicate that the DNA damage which S. typhimurium cells can suffer during the infectious process by host cell metabolites does not cause induction of the SOS response at levels able to trigger the error-prone DNA repair pathway.     

大连市伤寒沙门菌耐药性及耐药基因分析

目的检测多重耐药伤寒沙门菌对抗菌药物的敏感性及其耐药基因携带情况,为伤寒沙门菌引起的腹泻治疗提供科学依据。方法采用微量肉汤稀释的方法测定大连地区临床分离的78株伤寒沙门菌对12种抗生素的敏感性;用PCR方法检测TEM型β内酰胺酶基因、catA和catB氯霉素乙酰基转移酶基因以及cmlA氯霉素外排泵蛋白基因、aac(6′)Ⅰb和aac3Ⅱ型氨基糖苷类修饰酶基因、qacEΔ1sul1耐消毒剂和磺胺基因、多重耐药外排基因acrB等8种耐药基因。结果78株沙门菌对12种药物有不同程度耐药(1.28%~74.35%)。得到9株多重耐药菌株,其中5株检出TEM型β内酰胺酶基因;7株耐氯霉素的伤寒沙门菌菌株中,2株仅检出catA基因,1株仅检出catB基因,1株仅检出cmlA氯霉素外排泵蛋白基因,2株同时检出catA基因和cmlA氯霉素外排泵蛋白基因;2株检出aac(6′)Ⅰb基因,1株检出aac3Ⅱ型氨基糖苷类修饰酶基因;4株检出耐消毒剂和磺胺基因qacEΔ1sul1;6株检出多重耐药外排基因acrB。结论大连地区临床分离的伤寒沙门菌存在严峻的耐药现象,多种耐药基因存在于耐药伤寒沙门菌中,可能是导致菌株对多种抗菌药物耐药的原因。     

684例胆道感染患者胆汁病原菌分布及耐药性分析

目的研究胆道感染患者胆汁病原菌的分布及其耐药性,为临床合理使用抗菌药物提供依据。方法对684例胆道感染患者胆汁进行培养,应用Micro Scan Walk Away40细菌鉴定及药敏分析系统对分离菌进行鉴定及药敏测定,用WHONET 5.6软件进行数据分析。结果从684例患者胆汁中分离出315株病原菌,革兰阴性杆菌占65.1%,革兰阳性球菌占34.3%,真菌占0.6%。革兰阴性杆菌对亚胺培南、美罗培南、头孢哌酮/舒巴坦、哌拉西林/他唑巴坦、左氧氟沙星、头孢吡肟、庆大霉素耐药率较低。肠球菌属、葡萄球菌属对喹诺酮类耐药率较低,未发现耐万古霉素、利奈唑胺的革兰阳性球菌。结论胆道感染仍以革兰阴性杆菌为主,病原菌分布广泛,耐药情况较严重,治疗使用抗生素需要进行病原菌检测及耐药性分析。     

Genome-wide identification of novel genomic islands that contribute to Salmonella virulence in mouse systemic infection

Salmonella pathogenicity islands are inserted into the genome by horizontal gene transfer and are required for expression of full virulence. Here, we performed tRNA scanning of the genome of Salmonella enterica serovar Typhimurium and compared it with that of nonpathogenic Escherichia coli in order to identify genomic islands that contribute to Salmonella virulence. Using deletion analysis, we identified four genomic islands that are required for virulence in the mouse infection model. One of the newly identified pathogenicity islands was the pheV- tRNA-located genomic island, which is comprised of 26 126 bp, and encodes 22 putative genes, including STM3117–STM3138. We also showed that the pheV tRNA-located genomic island is widely distributed among different nontyphoid Salmonella serovars. Furthermore, genes including STM3118–STM3121 were identified as novel virulence-associated genes within the pheV- tRNA-located genomic island. These results indicate that a Salmonella -specific pheV- tRNA genomic island is involved in Salmonella pathogenesis among the nontyphoid Salmonella serovars.     

Gentisate pathway in Salmonella typhimurium: metabolism of m-hydroxybenzoate and gentisate

Abstract Salmonella typhimurium was shown to use the gentisate pathway to metabolize m -hydroxybenzoate and gentisate. m -Hydroxybenzoate hydroxylase and gentisate 1,2-dioxygenase were induced by growth on either gentisate or m -hydroxybenzoate. These enzymes were not detected when the bacteria were grown with glucose or glucose and either m -hydroxybenzoate or gentisate. However, both enzymes were induced when the bacteria were grown on succinate with either substrate. The maleylpyruvate isomerase required reduced glutathione and was irreversibly inhibited by N -ethylmaleimide.     

A Salmonella typhimurium mutant unable to utilize fatty acids and citrate is avirulent and immunogenic in mice

Salmonella typhimurium SR-11 is extremely virulent at a dose as low as 10⁵ colony forming units (cfu) when administered perorally to BALB/c mice. Utilizing mini-transposon mutagenesis, a mutant of S. typhimurium SR-11 was isolated that was unable to utilize oleate and citrate as carbon sources. This mutant, designated S. typhimurium SR-11 Fad⁻ (Fatty acid), was found to utilize sugars under cya/crp control as sole carbon sources, suggesting that the mutation is not in either of these genes. In addition, SR-11 Fad⁻ utilized pyruvate and succinate, but was unable to utilize either acetate or isocitrate as sole carbon source. In contrast to SR-11, SR-11 Fad⁻ was found to be avirulent, i.e. BALB/c mice were completely healthy after oral infection with 10⁹ S. typhimurium SR-11 Fad⁻ cells. Moreover, 21 days after SR-11 Fad⁻ infection, BALB/c mice were found to be protected against an oral challenge with 10⁹ cells of S. typhimurium SR-11.     

Antimicrobial drug resistance in Salmonella: problems and perspectives in food- and water-borne infections

Strains of Salmonella spp. with resistance to antimicrobial drugs are now widespread in both developed and developing countries. In developed countries it is now increasingly accepted that for the most part such strains are zoonotic in origin and acquire their resistance in the food-animal host before onward transmission to humans through the food chain. Of particular importance since the early 1990s has been a multiresistant strain of Salmonella typhimurium definitive phage type (DT) 104, displaying resistance to up to six commonly used antimicrobials, with about 15% of isolates also exhibiting decreased susceptibility to ciprofloxacin. Mutations in the gyrA gene in such isolates have been characterised by a PCR LightCycler-based gyrA mutation assay, and at least four different mutations have been identified. Multiple resistance (to four or more antimicrobials) is also common in the poultry-associated pathogens Salmonella virchow and Salmonella hadar, with an increasing number of strains of these serotypes exhibiting decreased susceptibility to ciprofloxacin. Multiple resistance is also being found in other serotypes in several other European countries, and has been associated with treatment failures. For Salmonella typhi, multiple drug resistance is now the norm in strains originating in the Indian subcontinent and south-east Asia. Such multiresistant strains have been responsible for several epidemics and some of these have been associated with contaminated water supplies. Furthermore, an increasing number of multiresistant strains of S. typhi are now exhibiting decreased susceptibility to ciprofloxacin, with concomitant treatment failures. In developed countries antimicrobial resistance in zoonotic salmonellas has been attributed to the injudicious use of antimicrobials in food-producing animals. It is hoped that the application of Codes of Practice for the use of such agents, which have been prepared by the pharmaceutical industry in response to widespread international concern about the development of drug resistance in bacterial pathogens, will now result in a widespread reduction in the incidence of drug-resistant salmonellas in food production animals and humans on an international scale.     

Quantitative trait loci for resistance to infection in sheep using a live Salmonella Abortusovis vaccine

Quantitative trait loci (QTL) mapping for susceptibility to a Salmonella Abortusovis vaccinal strain was performed using an experimental design involving 30 Romane sheep sire families (1216 progenies). Nine QTL corresponding to bacterial load, weight variations and antibody response criteria were mapped on eight chromosomes, including the major histocompatibility complex area on chromosome 20. Surprisingly, none was found to be significant in the SLC11A1 region (formerly NRAMP1) that has been shown to influence Salmonella susceptibility in other species.     

Global distribution of plasmid-mediated colistin resistance mcr gene in Salmonella: A systematic review

This systematic review focuses on obtaining the most relevant information from multiple studies that detected a mobilized colistin resistance mcr gene in Salmonella for a better comprehension of its global distribution. A group of strategic and systematic keywords were combined to retrieve research data on the detection frequency of the mcr gene globally from four database platforms (Google Scholar, Science Direct, PubMed and Scielo). Forty-eight studies attended all the eligibility criteria and were selected. China was the country with the highest frequency of Salmonella strains with the mcr gene, and Europe exhibited a wide diversity of countries with positive mcr strains. In addition, animals and humans carried the highest frequency of positive strains for the mcr gene. Salmonella Typhimurium was the most frequent serovar carrying the mcr gene. Apparently, colistin overuse in animal husbandry has increased the selective pressure of antimicrobial resistance, resulting in the emergence of a plasmid-mediated colistin resistance mcr gene in China. The mcr-positive Salmonella strains are recently predominant worldwide, which is probably due to the capacity of this gene to be swiftly horizontally transmissible. The transmission ability of mcr-positive Salmonella strains to humans through the consumption of contaminated animal-based food is a public health concern.