Macrophage apoptosis associated with Salmonella enterica serovar Typhi plasmid

The present study was undertaken to investigate the relationship between plasmid isolated from S. enterica serovar Typhi (pR(ST98)) and macrophage apoptosis. pR(ST98) was transferred into an attenuated S. enterica serovar Typhimurium strain RIA to create a transconjugant pRsT98/RIA. Standard S. enterica serovar Typhimurium virulence strain SR-11 was used as a positive control, and RIA as a negative one. Murine macrophage-like cell line (J774A.1) was used as an infectious cell model in vitro. In order to determine the inhibition and bactericidal effect of amikacin (AMK) to extracellular bacteria and the best optimization co-culture ratio between Salmonella and J774A.1, the minimal inhibitory concentration (MIC) and minimal bactericidal concentration (MBC) of AMK to strains SR-11, pR(ST98)/RIA and RIA and multiplicity of infection (MOI) were detected first, and then J774A.1 was infected by the above three serovar Typhimurium strains. Apoptosis of J774A.1 was examined with electron microscopy and flow cytometry after annexin-V/propidium iodide labeling at 0, 1, 3, 6, 12 and 24 h. Mitochondrial membrane potential was detected by JC-1 staining method. It was demonstrated that MIC of AMK to the three strains was 10 microg/ml, MBC was 80 microg/ml, and optimal MOI was 100:1. pR(ST98)/RIA resulted in a higher apoptosis of J774A.1 than RIA, apoptotic features such as chromatin margination could be observed after 3 h, and death of J774A.1 cells was associated with the loss of mitochondrial membrane potential. These results indicated that pR(ST98) could enhance the virulence of its host bacteria, evidenced by increased macrophage apoptosis.     

伤寒沙门菌质粒对巨噬细胞自噬过程的影响

为研究伤寒沙门菌质粒pR_ST98对人巨噬细胞THP-1自噬过程的影响,以携带伤寒沙门菌质粒pR_ST98的野生株ST6、消除pR_ST98的突变株ST6-ΔpR_ST98和将pR_ST98经接合转移的回补株ST6-c-pR_ST98为受试菌,与THP-1共培养建立感染模型,并加入自噬作用阻断剂氯喹（CQ）进行干预。首先测定CQ单独作用对细胞及细菌的影响,确定CQ最适浓度;在细菌和细胞共作用后的不同时间点收集细胞,通过蛋白免疫印迹法(WB)和mRFP-GFP-LC3 质粒转染法检测细胞LC3Ⅱ蛋白、p62蛋白、自噬体及自噬溶酶体的变化。结果显示,30 μmol/L CQ对细胞自噬的阻断效果明显,且细胞存活率超过50%,对细菌也无明显影响。WB结果显示,用该浓度CQ干预后,ST6-ΔpR_ST98感染组细胞的LC3Ⅱ及p62表达量上升程度显著高于野生株ST6及回补株ST6-c-pR_ST98;CQ干预组3株受试菌感染细胞LC3点状结构数量均高于未加CQ组,且ST6-ΔpR_ST98感染细胞的点状结构数量明显增加。以上结果提示,伤寒沙门菌质粒pR_ST98在自噬前期发挥作用,早于溶酶体降解的过程。     

Diversity of genome structure in Salmonella enterica serovar Typhi populations

The genomes of most strains of Salmonella and Escherichia coli are highly conserved. In contrast, all 136 wild-type strains of Salmonella enterica serovar Typhi analyzed by partial digestion with I-CeuI (an endonuclease which cuts within the rrn operons) and pulsed-field gel electrophoresis and by PCR have rearrangements due to homologous recombination between the rrn operons leading to inversions and translocations. Recombination between rrn operons in culture is known to be equally frequent in S. enterica serovar Typhi and S. enterica serovar Typhimurium; thus, the recombinants in S. enterica serovar Typhi, but not those in S. enterica serovar Typhimurium, are able to survive in nature. However, even in S. enterica serovar Typhi the need for genome balance and the need for gene dosage impose limits on rearrangements. Of 100 strains of genome types 1 to 6, 72 were only 25.5 kb off genome balance (the relative lengths of the replichores during bidirectional replication from oriC to the termination of replication [Ter]), while 28 strains were less balanced (41 kb off balance), indicating that the survival of the best-balanced strains was greater. In addition, the need for appropriate gene dosage apparently selected against rearrangements which moved genes from their accustomed distance from oriC. Although rearrangements involving the seven rrn operons are very common in S. enterica serovar Typhi, other duplicated regions, such as the 25 IS200 elements, are very rarely involved in rearrangements. Large deletions and insertions in the genome are uncommon, except for deletions of Salmonella pathogenicity island 7 (usually 134 kb) from fragment I-CeuI-G and 40-kb insertions, possibly a prophage, in fragment I-CeuI-E. The phage types were determined, and the origins of the phage types appeared to be independent of the origins of the genome types.     

A genomic snapshot of Salmonella enterica serovar Typhi in Colombia

Little is known about the genetic diversity of Salmonella enterica serovar Typhi (S. Typhi) circulating in Latin America. It has been observed that typhoid fever is still endemic in this part of the world; however, a lack of standardized blood culture surveillance across Latin American makes estimating the true disease burden problematic. The Colombian National Health Service established a surveillance system for tracking bacterial pathogens, including S. Typhi, in 2006. Here, we characterized 77 representative Colombian S. Typhi isolates collected between 1997 and 2018 using pulse field gel electrophoresis (PFGE; the accepted genotyping method in Latin America) and whole genome sequencing (WGS). We found that the main S. Typhi clades circulating in Colombia were clades 2.5 and 3.5. Notably, the sequenced S. Typhi isolates from Colombia were closely related in a global phylogeny. Consequently, these data suggest that these are endemic clades circulating in Colombia. We found that AMR in S. Typhi in Colombia was uncommon, with a small subset of organisms exhibiting mutations associated with reduced susceptibility to fluoroquinolones. This is the first time that S. Typhi isolated from Colombia have been characterized by WGS, and after comparing these data with those generated using PFGE, we conclude that PFGE is unsuitable for tracking S. Typhi clones and mapping transmission. The genetic diversity of pathogens such as S. Typhi is limited in Latin America and should be targeted for future surveillance studies incorporating WGS.     

伤寒沙门菌动物模型研究进展

目前伤寒沙门菌引起的人类伤寒仍是一种严重危害人类健康的疾病,且近年来多重耐药伤寒沙门菌株频频出现,使伤寒的治疗更加棘手.由于该菌具有严格的宿主特异性,又缺乏理想的动物模型,其致病机制的研究、疫苗及药物的研发受制约.新近研究发现,免疫系统人源化小鼠模型和诱导型一氧化氮合酶基因敲除小鼠模型可用于伤寒沙门菌的体内实验.本文就其应用现状及缺憾作一综述.     

伤寒沙门菌bcfD基因敲除突变株的构建

目的:构建伤寒沙门菌Ty2菌株菌毛亚单位bcfD基因敲除突变株.方法:利用交错PCR得到bcfD基因缺失且含其两侧翼序列的片段,将该片段与pMD 18-T连接,亚克隆到pYG4,电转入大肠埃希菌S17-1/λpir菌株,阳性菌株与受体菌伤寒沙门氏菌Ty2进行固相杂交后筛选.结果:成功获得敲除bcfD基因序列954bp的敲除突变株.结论:交错PCR有利于细菌基因精确敲除突变株的构建,bcfD基因敲除株的构建将为进一步研究该基因在伤寒沙门菌中的功能奠定了基础.     

Cloning and detailed mapping of the fra-ymt region of the Yersinia pestis pFra plasmid]

The genetical libraries of the pFra plasmid of Yersinia pestis genes were obtained by insertion into the PstI, SalGI, EcoRI, XhoI restriction sites of the cosmid vector pHC79. The immunochemical analysis of the recombinant clones has revealed the clones synthesizing the antigen Fl (fraction I) and mouse toxin (Ymt--Yersinia pestis murine toxin). The restriction analysis of the plasmids from antigen synthesizing clones has permitted to construct the detailed physical map of the fra-ymt region of the pFra plasmid the size of 22 kb. The recombinant F1 positive clones of Escherichia coli are able to form at 37 degrees C the capsule-like structure peculiar for Yersinia pestis. The antigen F1 and the mouse toxin were isolated, purified and characterized. The antigen F1 is an 1-2 Md polymer containing a 16 kDa protein subunit. The mouse toxin a 240 kDa protein consisting of 61 kDa subunits. The nucleotide sequence of ymt gene has been defined.     

Instability of Escherichia coli R-factors in Salmonella enterica serovar Typhi involves formation of recombinant composite plasmid structures

In spite of a well-documented ability of Samonella enterica Typhi strains to receive R factors from Escherichia coli and other enterobacteria, epidemiological data show that Typhi is a rather poor host of antibiotic-resistance genes and in fact, of plasmids, suggesting that most of the plasmids naturally acquired by Typhi strains become unstable and eventually segregate. We have previously reported evidence that each of three plasmids conjugatively transferred to S. enterica Typhi experienced deletion-mediated loss of a resistance determinant before plasmid segregation occurred. We now report that in Typhi strains containing these unstable plasmids a superhelical DNA species of lower mobility is detected, probably representing plasmid dimer structures. Plasmid deletion is a RecA-dependent process since it is not detected in derivatives of a recA1 S. enterica Typhi strain containing the corresponding plasmids, and in such strains we were unable to detect either the low-mobility species. We propose that the deletable segments contain key information for plasmid stability in S. enterica Typhi, possibly a multimer resolution system.     

Molecular characterization of the Salmonella enterica serovar Typhi Vi-typing bacteriophage E1

Some bacteriophages target potentially pathogenic bacteria by exploiting surface-associated virulence factors as receptors. For example, phage have been identified that exhibit specificity for Vi capsule producing Salmonella enterica serovar Typhi. Here we have characterized the Vi-associated E1-typing bacteriophage using a number of molecular approaches. The absolute requirement for Vi capsule expression for infectivity was demonstrated using different Vi-negative S. enterica derivatives. The phage particles were shown to have an icosahedral head and a long noncontractile tail structure. The genome is 45,362 bp in length with defined capsid and tail regions that exhibit significant homology to the S. enterica transducing phage ES18. Mass spectrometry was used to confirm the presence of a number of hypothetical proteins in the Vi phage E1 particle and demonstrate that a number of phage proteins are modified posttranslationally. The genome of the Vi phage E1 is significantly related to other bacteriophages belonging to the same serovar Typhi phage-typing set, and we demonstrate a role for phage DNA modification in determining host specificity.     

Comparative genomics of Salmonella enterica serovar Typhi strains Ty2 and CT18

We present the 4.8-Mb complete genome sequence of Salmonella enterica serovar Typhi strain Ty2, a human-specific pathogen causing typhoid fever. A comparison with the genome sequence of recently isolated S. enterica serovar Typhi strain CT18 showed that 29 of the 4,646 predicted genes in Ty2 are unique to this strain, while 84 genes are unique to CT18. Both genomes contain more than 200 pseudogenes; 9 of these genes in CT18 are intact in Ty2, while 11 intact CT18 genes are pseudogenes in Ty2. A half-genome interreplichore inversion in Ty2 relative to CT18 was confirmed. The two strains exhibit differences in prophages, insertion sequences, and island structures. While CT18 carries two plasmids, one conferring multiple drug resistance, Ty2 has no plasmids and is sensitive to antibiotics.     

Immune response variations to Salmonella enterica serovar Typhi recombinant porin proteins in mice

ObjectivesTyphoid fever is caused by Salmonella enterica serovar Typhi. OmpC, OmpF and OmpA, the three major outer membrane proteins (OMPs), could serve as vaccine candidates.MethodsThe porins antigenicity was predicted in silico. The OMP genes were amplified, cloned and expressed. Sero-reactivities of the recombinant proteins purified by denaturing method were assayed by ELISA. BALB/c mice were immunized with the recombinant porins followed by bacterial challenge.ResultsBacterial challenge of the animal model brought about antibody triggering efficacy of the antigen in OmpF > OmpC > OmpA order. Experimental findings validated the in silico results. None of the antigens had synergic or antagonistic effects on each other from immune system induction points of view. Despite their high immunogenicity, none of the antigens was protective. However, administration of two or three antigens simultaneously resulted in retardation of lethal effect. Porins, in addition to their specific functions, share common functions. Hence, they can compensate for each other's functions.ConclusionsThe produced antibodies could not eliminate the pathogenicity by blockade of one or some of the antigens. Porin antigens are not suitable vaccine candidates alone or in denatured forms. Native forms of the antigens maybe studied for protective immunogenicity.     

Role of antigens and virulence factors of Salmonella enterica serovar Typhi in its pathogenesis

Salmonella enterica serovar Typhi (S. Typhi), the aetiologic agent of typhoid fever, is a human restricted pathogen. The molecular mechanism of Salmonella pathogenicity is complex. The investigations of the molecular mechanisms of Salmonella virulence factors have shown that pathogenic Salmonella spp. are distinguished from their non-pathogenic relatives by the presence of specific pathogenicity genes, often organized in so-called pathogenicity islands (PIs). The type III secretion system (T3SS) proteins encoded by two Salmonella PIs (SPIs) are associated with the pathogenicity at molecular level. The identification of T3SS has provided new insight into the molecular factors and mechanisms underlying bacterial pathogenesis. The T3SS encoded by SPI-1 contains invasion genes; while SPI-2 is responsible for intracellular pathogenesis and has a crucial role for systemic S. enterica infections. These studies reveal a complex set of pathogenic interferences between intracellular Salmonella and its host cells. The understanding of the mechanisms by which Salmonella evade the host defense system and establish pathogenesis will be important for proper disease management.     

Mu dI1(Ap lac) mutagenesis of Yersinia pestis plasmid pFra and identification of temperature-regulated loci associated with virulence

The F1 capsule of Yersinia pestis, encoded by the 100 kb plasmid pFra, is often assumed to be essential for full virulence of Y. pestis. However, virulent strains of Y. pestis that are F1- and either pFra+ or pFra- have been reported. To assess the role of pFra-encoded factors in virulence, mutants in pFra with insertions of the defective transposing bacteriophage Mu dl(Ap lac) were obtained, by using the wild type (wt) and the pLcr-cured derivative of strain C092. Mutants that exhibited temperature regulation of lactose fermentation and retarded electrophoretic mobility of pFra were selected. A total of 15 insertion mutants were isolated in the wt strain (12 of which had a single insertion in the genome, in pFra); and 24 mutants in the isogenic pLcr- derivative. Four of the pLcr+ mutants, and none of the pLcr- mutants, were F1-. All F1- mutants were decreased in virulence for mice compared to the wt parent; and five of the F1+ mutants also were significantly attenuated in mice. Fusion end-joints of insert DNA were cloned into Escherichia coli by using pMLB524, a vector for rescuing operon fusions of lacZ. Recombinants were obtained which contained pFra inserts ranging from < 2kb to approximately 36 kb, and the insertions occurred at several sites on pFra. All of the four F1- mutants tested mapped within the F1 capsule operon (caf1). The remaining five attenuated mutants sequenced were F1+ and mapped outside of but near the operon. Sequencing and complete analysis of the pFra insertions mutants could facilitate identification of new potential virulence factors.