铜绿假单胞菌疫苗

铜绿假单胞引起很多种严重的感染,特别在患有严重的疾病,免疫力低下,以及囊性纤维化病人。它也引起群体传染性细菌性溃疡性结膜炎,尤其是隐性眼镜长期使用。在医源性感染的肺炎,铜绿假单胞分离株具有极强的致死性。鉴于人体铜绿假单胞感染的流行和重要性,以及由于细菌外膜对药物的低通透性和多重药物外排泵存在而产生的细菌自身抗药性,     

铜绿假单胞菌生物膜研究进展

生物膜（biofilm,BF）是细菌为了适应生存环境的需要而形成的与浮游细胞相对应的生存形式,是细菌生来具有的本领。不同的细菌形成生物膜的能力是不同的,铜绿假单胞菌极易形成生物膜,临床许多生物医学材料相关感染和某些慢性顽固性感染性疾病都与之密切相关,在生物膜中的细菌不仅耐抗生素还可耐抗体的杀菌作用,危害性严重。     

铜绿假单胞菌超微结构观察

铜绿假单胞菌超微结构观察佳木斯医学院附一院感染科１５４００２高庆伟郭丽曼齐淑芳邱守义佳木斯医学院微生态学教研室杨景云华西医科大学传染科黄安华曹钟梁雷秉钧ＰＡ做为呼吸道感染的重要条件致病菌,广泛分布于自然界,亦常存在于上呼吸道、肠道、皮肤等处。可以通过...     

铜绿假单胞菌分泌性蛋白的抗肿瘤效应

目的 探讨3株不同来源的铜绿假单胞菌分泌性蛋白的抗肿瘤活性。方法 将3株不同来源的铜绿假单胞菌经LB培养基对其过夜静置培养,离心获得上清液,采用硫酸铵盐析沉淀蛋白质,再经PBS透析除盐。然后将蛋白作用于人肝癌细胞Hep-G2、宫颈癌细胞HeLa、肺癌细胞A549和人永生化表皮细胞HaCaT,CCK-8检测其对细胞的毒性作用,吉姆萨染色观察凋亡细胞形态变化。结果 SDS-PAGE证实成功获得不同分子量的分泌蛋白,CCK-8结果显示混合蛋白对3种不同肿瘤细胞的生长均有不同程度的抑制作用,且其抑制作用存在一定的时间和浓度依赖性,但对人正常细胞无明显抑制作用。吉姆萨染色初步显示细胞形态为凋亡状态。结论 初步证实该3株铜绿假单胞菌产生的分泌性蛋白具有不同程度的抗肿瘤作用,为进一步分离纯化具有抗肿瘤活性的单一蛋白质及研究其抗肿瘤机制提供依据。     

铜绿假单胞菌czcCBA基因与生物修复

铜绿假单胞菌(Pseudomonas aerugionsa)的外排泵系统RND是它产生耐重金属离子胁迫的一个重要原因。阐述了编码RND外排泵czcCBA基因的作用机制,以期为下一步工作奠定基础。     

亚胺培南耐药铜绿假单胞菌耐药机制的研究

目的探讨铜绿假单胞菌对碳青霉烯类抗生紊的耐药机制。方法应用铜绿假单胞菌外膜蛋白SDS-PAGE图谱、凝胶分光光度扫描分析方法和三维试验分析亚胺培南耐药铜绿假单胞菌外膜蛋白和β-内酰胺酶类型。结果耐药组OprD2相对含量显著低于敏感组。耐药组产生了较高活性的AmpC酶。结论铜绿假单胞菌对亚胺培南的耐药机制可能是OprD2的缺失和AmpC酶共同作用的结果。     

铜绿假单胞菌分型研究进展

铜绿假单胞菌（特别是多重耐药菌株）是引起医院内感染,甚至大规模暴发流行的重要条件致病菌,本文对铜绿假单胞菌流行病学研究常用的两种分型方法（表型分型法及基因分型法）的研究现况和进展进行了简要介绍。     

铜绿假单胞菌的双组分系统

双组分系统是存在于原核和少部分真核生物细胞中的信号转导系统,主要由组氨酸蛋白激酶和反应调节蛋白组成,通过感应外界环境信号、信号输入、磷酸基团传递、信号输出等环节调节基因表达,使细胞能更加适应环境变化。铜绿假单胞菌为条件致病菌,其双组分系统构成多样、功能复杂且参与介导耐药性产生,因此铜绿假单胞菌的双组分系统日益引起人们关注。本文对铜绿假单胞菌双组分系统的组成、信号转导机制、种类、研究方法及其临床意义进行了综述。     

Enhancement of the protective efficacy of an oprF DNA vaccine against Pseudomonas aeruginosa

The outer membrane protein F gene (oprF) of Pseudomonas aeruginosa was recently shown by us to protect mice from P. aeruginosa chronic pulmonary infection when used as a DNA vaccine administered by three biolistic (gene gun) intradermal inoculations given at 2-week intervals. In the present study, we used two different strategies to improve the protective efficacy of the DNA vaccine. In the first strategy, mice were primed with two biolistic intradermal inoculations with the oprF vaccine and then were given a final intramuscular booster immunization containing either a synthetic peptide-keyhole limpet hemocyanin (KLH) conjugate or a chimeric influenza virus. Both the synthetic peptide conjugate and the chimeric virus contained peptide 10, a previously identified immunoprotective epitope of protein F. The second strategy involved the addition of a second outer membrane protein to the vaccine. DNA encoding a fusion protein comprised of the C-terminal half of protein F fused to OprI was administered by three biolistic intradermal inoculations. Challenge with P. aeruginosa in a chronic pulmonary infection model demonstrated that boosting with the chimeric virus (but not with peptide-KLH) or adding oprI to the DNA vaccine significantly enhanced protection as compared to that afforded by the oprF vaccine given alone. Thus, both strategies appear to augment the protection afforded by an oprF-only DNA vaccine.     

Conservation of surface epitopes in Pseudomonas aeruginosa outer membrane porin protein OprF

Abstract The outer membrane proteins of several prominent bacterial pathogens demonstrate substantial variation in their surface antigenic epitopes. To determine if this was also true for Pseudomonas aeruginosa outer membraine protein OprF, gene sequencing of a serotype 5 isolate was performed to permit comparison with the published serotype 12 oprF gene sequence. Only 16 nucleotide substitutions in the 1053 nucleotide coding region were observed; none of these changed the amino acid sequence. A panel of 10 monoclonal antibodies (mAbs) reacted with each of 46 P. aeruginosa strains representing all 17 serotype strains, 12 clinical isolates, 15 environmental isolates and 2 laboratory isolates. Between two and eight of these mAbs also reacted with proteins from representatives of the rRNA homology group I of the Pseudomonadaceae . Nine of the ten mAbs recognized surface antigenic epitopes as determined by indirect immunofluorescence techniques and their ability to opsonize P. aeuroginosa for phagocytosis. These epitopes were partially masked by lipopolysacharide side chains as revealed using a side chain-deficient mutant. It is concluded that OprF is a highly conserved protein with several conserved surface antigenic epitopes.     

Characterization of the outer membrane protein OprF of Pseudomonas aeruginosa in a lipopolysaccharide membrane by computer simulation

The N-terminal domain of outer membrane protein OprF of Pseudomonas aeruginosa forms a membrane spanning eight-stranded antiparallel beta-barrel domain that folds into a membrane channel with low conductance. The structure of this protein has been modeled after the crystal structure of the homologous protein OmpA of Escherichia coli. A number of molecular dynamics simulations have been carried out for the homology modeled structure of OprF in an explicit molecular model for the rough lipopolysaccharide (LPS) outer membrane of P. aeruginosa. The structural stability of the outer membrane model as a result of the strong electrostatic interactions compared with simple lipid bilayers is restricting both the conformational flexibility and the lateral diffusion of the porin in the membrane. Constricting side-chain interactions within the pore are similar to those found in reported simulations of the protein in a solvated lipid bilayer membrane. Because of the strong interactions between the loop regions of OprF and functional groups in the saccharide core of the LPS, the entrance to the channel from the extracellular space is widened compared with the lipid bilayer simulations in which the loops are extruding in the solvent. The specific electrostatic signature of the LPS membrane, which results in a net intrinsic dipole across the membrane, is found to be altered by the presence of OprF, resulting in a small electrically positive patch at the position of the channel.     

Antibody response to acute Pseudomonas aeruginosa infection in a burn wound

Abstract Immunoblotting techniques were used to study the antibody response of a burn patient during the acute phase of a Pseudomonas aeruginosa infection. The results showed the presence in the patient's serum of antibodies to outer-membrane proteins (OMPs) including iron-regulated membrane proteins (IRMPs) of the infecting strain of P. aeruginosa as well as a representative index of Enterobacteriaceae. The patient's serum also contained antibodies which reacted with OMPs of other serotypes of P. aeruginosa .     

Salmonella Typhimurium strain expressing OprF‐OprI protects mice against fatal infection by Pseudomonas aeruginosa

Pseudomonas aeruginosa poses a major threat to human health and to the mink industry. Thus, development of vaccines that elicit robust humoral and cellular immunity against P. aeruginosa is greatly needed. In this study, a recombinant attenuated Salmonella vaccine (RASV) that expresses the outer membrane proteins fusion OprF_190–342‐OprI_21–83 (F1I2) from P. aeruginosa was constructed and the potency of this vaccine candidate assessed by measuring F1I2‐specific humoral immune responses upon vaccination through s.c. or oral routes. S.C. administration achieved higher serum IgG titers and IgA titers in the intestine and induced stronger F1I2‐specific IgG and IgA titers in lung homogenate than did oral administration, which resulted in low IgG titers and no local IgA production. High titers of IFN‐γ, IL‐4, and T‐lymphocyte subsets induced a mixed Th1/Th2 response in mice immunized s.c., indicating elicitation of cellular immunity. Importantly, when immunized mice were challenged with P. aeruginosa by the intranasal route 30 days after the initial immunization, s.c. vaccination achieved 77.78% protection, in contrast to 41.18% via oral administration and 66.67% via Escherichia coli‐expressed F1I2 (His‐F1I2) vaccination. These results indicate that s.c. vaccination provides a better protective response against P. aeruginosa infection than do oral administration and the His‐F1I2 vaccine.     

Susceptibility of compound 48/80-sensitized Pseudomonas aeruginosa to the hydrophobic biocide triclosan

Pseudomonas aeruginosa is intrinsically resistant to the hydrophobic biocide triclosan, and yet it can be sensitized to low concentrations by permeabilization of the outer membrane using compound 48/80. A selective plating assay revealed that compound 48/80-permeabilized YM64, a triclosan-recognizing efflux pump-deficient variant, was unable to initiate growth on a medium containing triclosan. Macrobroth dilution assay data revealed that treatment with compound 48/80 synergistically decreased minimal inhibitory concentrations of the hydrophobic antibacterial agents rifamycin SV and chloramphenicol for all cell envelope variant strains examined. A low concentration of triclosan exerted a transient bactericidal effect on permeabilized wild-type strain PAO1, after which exponential growth resumed within 4 h. Permeabilized strain YM64 was unable to overcome the inhibition; yet, both strains remained susceptible to chloramphenicol for as long as 6 h, thereby suggesting that the outer membrane remained permeable to nonpolar compounds. These data support the notion that the transitory nature of compound 48/80 sensitization to triclosan in P. aeruginosa does not involve obviation of the hydrophobic diffusion pathway through the outer membrane. The inability of strain YM64 to overcome the synergistic effect of compound 48/80 and triclosan strongly suggests that triclosan-recognizing efflux pumps are involved in maintaining viability in wild-type cells whose outer membranes are otherwise compromised.     

Protein secretion in Pseudomonas aeruginosa

Abstract The Gram-negative bacterium Pseudomonas aeruginosa secretes many proteins into the extracellular medium. At least two distinct secretion pathways can be discerned. The majority of the exoproteins are secreted via a two-step mechanism. These proteins are first translocated across the inner membrane in a signal sequence-dependent fashion. The subsequent translocation across the outer membrane requires the products of at least 12 distinct xcp genes. The exact role of one of these proteins, the XcpA protein, has been resolved. It is a peptidase that is required for the processing of the precursors of four other Xcp proteins, thus allowing their assembly into the secretion apparatus. This peptidase is also required for the processing of the precursors of type IV pili subunits. Two other Xcp proteins, XcpR and XcpS, display extensive homology to proteins involved in pili biogenesis, which suggests that the assembly of the secretion apparatus and the biogenesis of type IV pili are related processes. The secretion of alkaline protease does not require the xcp gene products. This enzyme, which is encoded by the aprA gene, is not synthesized in a precursor form with an N-terminal signal sequence. Secretion across the two membranes probably takes place in one step at adhesion zones that may be constituted by three accessory proteins, designated AprD, AprE and AprF. The two secretion pathways found in P. aeruginosa appear to habe disseminate widely among Gram-negative bacteria.     

Evidence that mucoid Pseudomonas aeruginosa in the cystic fibrosis lung grows under iron-restricted conditions

Abstract The outer membrane protein composition of mucoid Pseudomonas aeruginosa recovered without subculture from the sputum of a cystic fibrosis patient was studied by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The results indicated that three outer membrane proteins in the range of M _r 80 000–90 000 were induced. The induction of these proteins can be simulated by growing the same isolate under iron-restricted conditions in laboratory media. This initial study gives the first direct biochemical evidence that mucoid P. aeruginosa grows under iron restricted conditions in the lungs of the cystic fibrosis patient.     

The mechanism of Pseudomonas aeruginosa outer membrane vesicle biogenesis determines their protein composition

Gram-negative bacteria produce outer membrane vesicles (OMVs) and contain bacterial cargo including nucleic acids and proteins. The proteome of OMVs can be altered by various factors including bacterial growth stage, growth conditions, and environmental factors. However, it is currently unknown if the mechanism of OMV biogenesis can determine their proteome. In this study, we examined whether the mechanisms of OMV biogenesis influenced the production and protein composition of Pseudomonas aeruginosa OMVs. OMVs were isolated from three P. aeruginosa strains that produced OMVs either by budding alone, by explosive cell lysis, or by both budding and explosive cell lysis. We identified that the mechanism of OMV biogenesis dictated OMV quantity. Furthermore, a global proteomic analysis comparing the proteome of OMVs to their parent bacteria showed significant differences in the identification of proteins in bacteria and OMVs. Finally, we determined that the mechanism of OMV biogenesis influenced the protein composition of OMVs, as OMVs released by distinct mechanisms of biogenesis differed significantly from one another in their proteome and functional enrichment analysis. Overall, our findings reveal that the mechanism of OMV biogenesis is a main factor that determines the OMV proteome which may affect their subsequent biological functions.     

Evidence for small pores in the outer membrane of Pseudomonas aeruginosa

Abstract Pseudomonas aeruginosa NCTC6750 and Escherichia coli K12 were used to study permeability of whole, intact cells to a series of labelled oligosaccharides. Stationary phase, oxygen depleted simple salts batch cultures were used. An efflux method was used to compare diffusion from cells of various ³H-labelled sugars (an homologous series based on isomaltitol) with diffusion of [¹⁴C]sucrose. Both plasmolysed and unplasmolysed cell suspensions were used. The data are consistent with an E. coli pore exclusion limit of approx. 833 Da for unplasmolysed cells and of about 670 Da for plasmolysed cells. For P. aeruginosa the data indicated a relatively small pore exclusion limit about the same size as sucrose with plasmolysis having little effect. These findings were confirmed with P. aeruginosa PAO1 grown in nutrient broth.